RS6200004May 2006 This manual is to be used by qualified, professionally trained HVAC technicians only. Goodman does not assume any responsibility for property damage or personal injury for improper service procedures or services performed by an unqualified person. Service Instructions CKL, CLJ, CRT, CLT, TWC, CLQ & HDC Split System Remote Coolers and CPLE, CPLJ, CPRT, CPLT & HDP Split System Remote Heat Pumps with R-22 Refrigerant Blowers, Coils, & Accessories 2 IMPORTANT INFORMATION.......................................... 4 PRODUCT IDENTIFICATION .......................................... 6 HEAT PUMPS AND COOLERS................................. 6 COILS ........................................................................ 9 AIR HANDLERS ...................................................... 10 ACCESSORIES....................................................... 13 PRODUCT SPECIFICATIONS....................................... 17 CKL ......................................................................... 20 CKL090-120 ............................................................. 27 CLJ .......................................................................... 30 CLT .......................................................................... 37 CRT ......................................................................... 41 TWC ........................................................................ 46 HDC......................................................................... 48 CPLE ....................................................................... 49 CPLE090-120 .......................................................... 55 CPLJ ........................................................................ 58 CPRT ....................................................................... 62 CPLT........................................................................ 67 HDP ......................................................................... 70 UC ........................................................................... 71 H.............................................................................. 74 HT ............................................................................ 75 CAUF....................................................................... 77 CAPF....................................................................... 78 CHPF....................................................................... 79 A18-61 ..................................................................... 83 AR ........................................................................... 86 AR COMMERCIAL SERIES..................................... 88 AH ........................................................................... 91 AC ........................................................................... 93 ACHP ...................................................................... 96 AWB........................................................................ 97 ARUF..................................................................... 100 ARPF..................................................................... 103 ARPT ..................................................................... 105 AER....................................................................... 107 AEPT ..................................................................... 111 WMC ..................................................................... 117 WMH ..................................................................... 119 LOCATION AND CLEARANCES ................................... 39 PRODUCT DESIGN....................................................... 67 INDEX SYSTEM OPERATION .................................................. 72 COOLING................................................................. 72 COOLING CYCLE.................................................... 72 HEATING CYCLE .................................................... 72 DEFROST CYCLE ................................................... 73 FAN OPERATION.................................................... 73 OPERATING INSTRUCTIONS.................................. 74 SCHEDULED MAINTENANCE ..................................... 134 ONCE A MONTH ................................................... 134 ONCE A YEAR...................................................... 131 TEST EQUIPMENT ................................................ 131 COOLING & HEATING PERFORMANCE TEST..... 131 SERVICING................................................................. 132 COOLING /HEAT PUMP- SERVICE ANALYSIS GUIDE.. 132 S-1 Checking Voltage ............................................. 134 S-2 Checking Wiring ............................................... 134 S-3 Checking Thermostat, Wiring & Anticipator ...... 135 S-3A Thermostat & Wiring ......................................... 135 S-3B Cooling Anticipator ........................................... 135 S-3C Heating Anticipator ........................................... 135 S-3D Checking Encoded Thermostats ....................... 136 S-4 Checking Transformer & Control Circuit ........... 137 S-5 Checking Cycle Protector ................................. 137 S-6 Checking Time Delay Relay ............................. 137 S-7 Checking Contactor and/or Relays ................... 138 S-8 Checking Contactor Contacts ........................... 138 S-9 Checking Fan Relay Contact ............................ 138 S-12 Checking High Pressure Control ....................... 139 S-13 Checking Low Pressure Control ........................ 139 S-15 Checking Capacitor .......................................... 139 S-15A Resistance Check ............................................ 140 S-15B Capacitance Check .......................................... 140 S-16A Checking Fan & Blower Motor Windings (PSC Motors) ................................... 141 S-16B Checking Fan & Blower Motor (ECM Motors) ... 141 S-16C Checking ECM Motor Windings........................ 144 S-16D ECM CFM Adjustments ................................... 144 S-17 Checking Compressor Windings....................... 145 S-17A Resistance Test ............................................... 145 S-17B Ground Test ...................................................... 146 S-17D Operation Test .................................................. 146 S-18 Testing Crankcase Heater (optional item) ......... 147 3 INDEX (Cont.) S-21 Checking Reversing Valve Solenoid .................. 147 S-24 Testing Defrost Timer Board ............................. 147 S-25 Testing Defrost Control ..................................... 148 S-26 Checking Heater Limit Control(s) ...................... 148 S-27 Checking Heater Elements ............................... 148 S-40 A, AR*F Electronic Blower Time Delay............. 148 S-41 AER, AEPT with Single Speed Air Conditioning and Heat Pump ....................... 150 S-60 Electric Heater (optional item) .......................... 151 S-61A Checking Heater Limit Control(S) ..................... 152 S-61B Checking Heater Fuse Line .............................. 152 S-62 Checking Heater Elements ............................... 152 S-100 Refrigeration Repair Practice ............................ 152 S-101 Leak Testing ..................................................... 153 S-102 Evacuation ........................................................ 153 S-103 Charging ........................................................... 154 S-104 Checking Compressor Efficiency ...................... 155 S-105BThermostatic Expansion Valve ............................. 155 S-106 Overfeeding....................................................... 155 S-107 Underfeeding..................................................... 155 S-108 Superheat ......................................................... 156 S-109 Checking Subcooling ........................................ 157 S-110 Checking Expansion Valve Operation ............... 157 S-111 Fixed Orifice Restriction Devices ...................... 158 S-112 Checking Restricted Liquid Line ....................... 158 S-113 Refrigerant Overcharge...................................... 158 S-114 Non-condensables ............................................ 158 S-115 Compressor Burnout ......................................... 159 S-120 Refrigerant Piping ............................................. 159 S-122 Replacing Reversing Valve................................ 161 S-202 Duct Static Pressure & Static Pressure Drop Across Coils................ 162 S-203 Air Handler External Static ............................... 162 S-204 Coil Static Pressure Drop ................................. 162 WIRING DIAGRAMS ................................................... 163 AFE 18-60/18-60A ............................................ 163 CKL90-120 ....................................................... 167 CPLE, CPLJ, CRPT, CPLT ............................... 168 CPLE90-120 ..................................................... 169 CLQ, CLJ, CKL, CRT, CLT................................ 170 WMH, HDP....................................................... 171 AR18-61 ........................................................... 172 AR*F AIR HANDLER ........................................ 175 AR, ARUF, ARPF, ARPT18-60......................... 176 AER, AEPT ...................................................... 177 WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. Pride and workmanship go into every product to provide our customers with quality products. It is possible, however, that during its lifetime a product may require service. Products should be serviced only by a qualified service technician who is familiar with the safety procedures required in the repair and who is equipped with the proper tools, parts, testing instruments and the appropriate service manual. REVIEW ALL SERVICE INFORMATION IN THE APPROPRIATE SERVICE MANUAL BEFORE BEGINNING REPAIRS. IMPORTANT NOTICES FOR CONSUMERS AND SERVICERS RECOGNIZE SAFETY SYMBOLS, WORDS AND LABELS ONLY individuals meeting the requirements of an “Entry Level Technician” as specified by the Air Conditioning and Refrigeration Institute (ARI) may use this information. Attempting to install or repair this unit without such background may result in product damage, personal injury, or death. WARNING WARNING To prevent the risk of property damage, personal injury, or death, do not store combustible materials or use gasoline or other flammable liquids or vapors in the vicinity of this appliance. WARNING Hazards or unsafe practices which could result in property damage, product damage, personal injury or death. 4 To locate an authorized servicer, please consult your telephone book or the dealer from whom you purchased this product. For further assistance, please contact: CONSUMER INFORMATION LINE GOODMAN MANUFACTURING COMPANY, L.P. TOLL FREE 1-877-254-4729 (U.S. only) email us at:
[email protected] fax us at: (731) 856-1821 (Not a technical assistance line for dealers.) Outside the U.S., call 1-713-861-2500. (Not a technical assistance line for dealers.) Your telephone company will bill you for the call. IMPORTANT INFORMATION WARNING Goodman will not be responsible for any injury or property damage arising from improper service or service procedures. If you install or perform service on this unit, you assume responsibility for any personal injury or property damage which may result. Many jurisdictions require a license to install or service heating and air conditioning equipment. WARNING The United States Environmental Protection Agency ("EPA") has issued various regulations regarding the introduction and disposal of refrigerants introduced into this unit. Failure to follow these regulations may harm the environment and can lead to the imposition of substantial fines. These regulations may vary by jurisdiction. A certified technician must perform the installation and service of this product. Should questions arise, contact your local EPA office. Violations of EPA regulations may result in fines or penalties. Do not connect to or use any device that is not design certified by Goodman for use with this unit. Serious property damage, personal injury, reduced unit performance and/or hazardous conditions may result from the use of such non-approved devices. WARNING 5 The successful development of hermetically sealed refrigera- tion compressors has completely sealed the compressor's moving parts and electric motor inside a common housing, minimizing refrigerant leaks and the hazards sometimes associated with moving belts, pulleys or couplings. Fundamental to the design of hermetic compressors is a method whereby electrical current is transmitted to the compressor motor through terminal conductors which pass through the compressor housing wall. These terminals are sealed in a dielectric material which insulates them from the housing and maintains the pressure tight integrity of the hermetic compressor. The terminals and their dielectric embedment are strongly constructed, but are vulnerable to careless compressor installation or maintenance proce- dures and equally vulnerable to internal electrical short circuits caused by excessive system contaminants. WARNING System contaminants, improper service procedure and/or physical abuse affecting hermetic compressor electrical terminals may cause dangerous system venting. WARNING To avoid possible injury, explosion or death, practice safe handling of refrigerants. SAFE REFRIGERANT HANDLING While these items will not cover every conceivable situation, they should serve as a useful guide. To avoid possible explosion: • Never apply flame or steam to a refrigerant cylinder. If you must heat a cylinder for faster charging, partially immerse it in warm water. • Never fill a cylinder more than 80% full of liquid refrigerant. • Never add anything other than R-22 to an R-22 cylinder or R-410A to an R-410A cylinder. The service equipment used must be listed or certified for the type of refrigerant used. • Store cylinders in a cool, dry place. Never use a cylinder as a platform or a roller. WARNING To avoid possible explosion, use only returnable (not disposable) service cylinders when removing refrig- erant from a system. • Ensure the cylinder is free of damage which could lead to a leak or explosion. • Ensure the hydrostatic test date does not exceed 5 years. • Ensure the pressure rating meets or exceeds 400 lbs. When in doubt, do not use cylinder. WARNING In either of these instances, an electrical short between the terminal and the compressor housing may result in the loss of integrity between the terminal and its dielectric embed- ment. This loss may cause the terminals to be expelled, thereby venting the vaporous and liquid contents of the compressor housing and system. A venting compressor terminal normally presents no danger to anyone, providing the terminal protective cover is properly in place. If, however, the terminal protective cover is not properly in place, a venting terminal may discharge a combination of (a) hot lubricating oil and refrigerant (b) flammable mixture (if system is contaminated with air) in a stream of spray which may be dangerous to anyone in the vicinity. Death or serious bodily injury could occur. Under no circumstances is a hermetic compressor to be electrically energized and/or operated without having the terminal protective cover properly in place. See Service Section S-17 for proper servicing. IMPORTANT INFORMATION Refrigerants are heavier than air. They can "push out" the oxygen in your lungs or in any enclosed space.To avoid possible difficulty in breathing or death: • Never purge refrigerant into an enclosed room or space. By law, all refrigerants must be reclaimed. • If an indoor leak is suspected, thoroughly ventilate the area before beginning work. • Liquid refrigerant can be very cold. To avoid possible frostbite or blindness, avoid contact with refrigerant and wear gloves and goggles. If liquid refrigerant does contact your skin or eyes, seek medical help immediately. • Always follow EPA regulations. Never burn refrig- erant, as poisonous gas will be produced. WARNING WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. PRODUCT IDENTIFICATION 6 CONDENSING UNITS HORIZONTAL DISHCARGE CONDENSER HDC 12 12,000 BTUH 1 1 PHASE THROUGH WALL CONDENSER TWC 18 18,000 BTUH 1 1 PHASE CONDENSING SERIES LOUVERED 10 SEER CKL 18 18,000 BTUH 1 1 PHASE CONDENSING LOUVERED 12 SEER CLJ 18 18,000 BTUH 1 1 PHASE CONDENSING SERIES T 13 SEER CRT 24 24,000 BTUH CONDENSING LOUVERED 13 SEER CLT 24 24,000 BTUH 1 1 PHASE CONDENSING LOUVERED 14 SEER CLQ 24 24,000 BTUH 1 1 PHASE PRODUCT IDENTIFICATION 7 HEAT PUMPS CONDENSING PUMP LOVERED EFFICIENCY 10 SEER CPLE 18 18,000 BTUH 1 1 PHASE CONDENSING PUMP LOVERED EFFICIENCY J 12 SEER CPLJ 18 18,000 BTUH 1 1 PHASE CONDENSING PUMP LOVERED EFFICIENCY J 12 SEER CPLT 36 36,000 BTUH 1 1 PHASE CONDENSING HEAT PUMP REMOTE STYLE - T 13 SEER CPRT 24 24,000 BTUH X REVISION HORIZONTAL DISHCARGE HEAT PUMP HDP 12 12,000 BTUH PRODUCT IDENTIFICATION 8 Model CKL18-120 1.5 to 10 Ton 10 SEER Condensing Units CLJ18-64 1.5 to 5 Ton 12 SEER Condensing Units CRT24-60 2 to 5 Ton 13 SEER Condensing Units CLT24-60 2 to 5 Ton 13 SEER Condensing Units CLQ24-60 2 to 5 Ton 14 SEER Condensing Units TWC18-30 2 to 5 Ton 10 SEER Condensing Units HDC12-24-1A Horizontal Discharge Air Cond. 1 thru 2 Ton Description Model CPLE18-120 1.5 to 5 Ton 10 SEER Heat Pump Units CPLJ18-60 1.5 to 5 Ton 12 SEER Heat Pump Units CPRT24-60 2 to 5 Ton 13 SEER Heat Pump Units CPLT24-60 2 to 5 Ton 13 SEER Heat Pump Units HDP12-24-1A Horizontal Discharge Heat Pump 1 thru 2 Ton Descripton CONDENSING UNITS HEAT PUMPS Model Description UC-18-62 Uncased Upflow Coil U-18-62 Cased Upflow Coil CAUF018-061 A Coil Upflow/Downflow Flowrator CAPF018-060 A Coil Upflow/Downflow Painted Cased Flowrator CAUX018-061 A Coil Upflow/Downflow w/ TXV CAPX018-061 A Coil Upflow/Downflow Painted Cased w/ TXV CHPF024-060 Horizontal A Coil Painted Cased w/ Flowrator CHPX024-060 Horizontal A Coil Painted Cased w/ TXV CACF018-061 Cased Upflow/Downflow Coil H-24F-61F Horizontal Evaporator Coil HT-18-61 Horizontal "Butt-up" Evaporator Coil COILS PRODUCT IDENTIFICATION 9 CA U F 018 A 2 A Revision Expansion Device Cabinet Description Refrigerant 2: R-22 Cabinet Finish P: Painted U: Unpainted Nominal BTUH Prefix A: Air Handler F: Flowrator T: TXV (Expansion Device CA Models (Cabinet Height) A: 14" B: 17½" C 21" D: 24½" 018: 18,000 024: 24,000 025: 25,000 030: 30,000 032: 32,000 036: 36,000 037: 37,000 048: 48,000 049: 49,000 060: 60,000 061: 61,000 062: 62,000 A: First Version B: Second Revision C: Painted Cased Coils are Painted in Architectural Gray Cabinet Description CH Models (Cabinet Height) A: 14" B: 17½" D: 24½" COILS UNCASED UPFLOW COILS UC 18 18,000 BTUH CASED UPFLOW COILS U 18 18,000 BTUH HORIZONTAL "BUTT-UP" EVAPORATOR COIL 24,000 BTUH HT 24 HORIZONTAL EVAPORATOR COILS H 24 24,000 BTUH PRODUCT IDENTIFICATION 10 A * * * 024 -00 A -1 A Electrical Supply Expansion Device Factory-Installed Electric Heat Feature A: First Series B: Downflow C: Factory-sealed Series Motor E: ECM Motor R: PSC Motor Cabinet Finish P: Painted U: Unpainted Nominal Capacity Product Type A: Air Handler F: Flowrator T: TXV (Expansion Device 00: None 05: 5 KW et al 018: 1½ Tons 024: 2 Tons 030: 2½ Tons 032: 2½ Tons 036: 3 Tons 042: 3½ Tons 048: 4 Tons 049: 4 Tons 060: 5 Tons 061: 5 Tons 1: 208-230V/60Hz/1ph Revision* *All revisions A or higher are Architectural Gray AIR HANDLERS AR 60 18- 18,000 BTUH 24- 24,000 BTUH 30, 32- 30,000 BTUH 36- 36,000 BTUH 42- 42,000 BTUH 48,49- 48,000 BTUH 60,61- 60,000 BTUH AR-AIRHANDLER WITH COIL (2 nd Generation) All Airhandlers use DIRECT DRIVE MOTORS. Power supply is AC 208-230v, 60 hz, 1 phase. PRODUCT IDENTIFICATION 11 AIR HANDLER WALL MOUNT B REVISION AWB 24 24,000 BTUH 08 KW OF HEAT C CIRCUIT BREAKER Air Handler w/Coil A 24 00 2 RA 24 - 24,000 BTUH (7.0 KW) 36 - 36,000 BTUH (10.5 KW) 48 - 48,000 BTUH (14.0 KW) 60 - 60,000 BTUH (17.6 KW) W/OPTION FOR HEATER KIT * 50 HTZ MODEL SECOND GENERATION AIR HANDLERS AER 60 24 - 24,000 BTUH 30 - 30,000 BTUH 36 - 36,000 BTUH 48 - 48,000 BTUH 60 - 60,000 BTUH AER-AIRHANDLER WITH COIL (2 nd Generation) All Airhandlers use DIRECT DRIVE MOTORS. Power supply is AC 208-230v, 60 hz, 1 phase. AIR HANDLER CEILING MOUNT AC 24 24,000 BTUH 05 KW OF HEAT D CIRCUIT BREAKER PRODUCT IDENTIFICATION 12 AIR HANDLERS Model AR18-120 Elec. Cooling & Heat Pump Air Handler AW 18-30 Vertical Wall Mount Air Handler AER24-60 Multi-Position Variable Spd Air Handler ACHP18-36 Hydronic Heat Air Handler AH18-36 Hydronic Heat Air Handler AC18-36 AC Electric Heat Air Handler AWB18-36 Vertical Wall Mount Air Handler ARUF018-061 Multi-Position Electric Heat Air Handler w/ Flowrator ARPT024-060 ARPF024-060 Multi-Position Painted Electric Heat Air Handler w/ Flowrator AEPT030-060 Multi-Position Painted Variable Spd. Air Handler w/ TXV WMC12-24-1A Ductless Air Conditioning Indoor Section 1 thru 2 Ton WMH12-24-1A Ductless Heat Pump Indoor Section 1 thru 2 Ton Multi-Position Painted Electric Heat Air Handler w/ TXV Description 13 ACCESSORIES SPLIT SYSTEM AIR CONDITIONING ACCESSORIES SPLIT SYSTEM HEAT PUMP ACCESSORIES Model AFE-18 All Fuel Kit OT18-60 Outdoor Thermostat Kit EH18-60 Emergency Heat Relay Kit HPSK-01 Heat Pump Shut Off; for AC Air Handlers FP-01 Freeze Protection Kit; for AC Air Handlers ASC01A Anti-Short Cycle Control Kit Description Model LA-01 Low Ambient Kit HLPK-01 High and Low Pressure Switch Kit LPS-01 Low Pressure Kit FP-01 ASC01A Description Freeze Protection Kit for AC Air Handlers & Coils Anti-Short Cycle Control Kit Model TX3N2 TXV Kit 1.5 to 3 Ton Air Cond. & Heat Pump CAUF,CAPF CHPF TX5N2 TXV Kit 3.5 to 5 Ton Air Cond. & Heat Pump CAUF,CAPF CHPF DFK Downflow Kits U- UC coils DFKT Downflow Kits U-UC Coils Description Used With These Units COIL ACCESSORIES COIL INSULATION KIT FOR DOWNFLOW APPLICATIONS Chassis Size Insulation Kit Small DPI18-30/20 Medium DPI36-42/20 Large DPI48-60/20 NOTE: Each kit contains enough material to modify 20 coils. ACCESSORIES 14 Model Description Used With These Units WCK-01 Water Circulator Timer Kit AH, ACHP FIL18-32 Washable Air Filter AR,AER,AEPT,ARPT,ARPF, ARUF FIL36-42 Washable Air Filter AR,AER,AEPT,ARPT,ARPF, ARUF FIL48-61 Washable Air Filter AR,AER,AEPT,ARPT,ARPF, ARUF CAP-1 Ceiling Access Panels AC,ACHP CAP-2 Ceiling Access Panels AC,ACHP CAP-3 Ceiling Access Panels AC,ACHP CAP-1L Ceiling Access Panels AC,ACHP CAP-2L Ceiling Access Panels AC,ACHP CAP-3L Ceiling Access Panels AC,ACHP WAD-1 Wall Access Door AH,AWB WAD-2 Wall Access Door AH,AWB XV18-36C Expansion Valve Kit, Non-bleed APRF/ARUF18-36 XV42-60C Expansion Valve Kit, Non-bleed ARPF/ARUF42-60 XVB18-36C Expansion Valve Kit, 20% bleed ARPF/ARUF18-36 XVB42-60C Expansion Valve Kit, 20% bleed ARPF/ARUF42-60 TX3N2 TXV Kit 1.5 to 3 Ton Air Cond. & Heat Pump ARPF/ARUF18-36 TX5N2 TXV Kit 3.5 to 5 Ton Air Cond. & Heat Pump AAPF/ARUF42-60 DPI18-30/20 Coil Insulation Kit; Small Chassis { Downflow} AEPT,ARPT,ARUF DPI36-42/20 Coil Insulation Kit; Medium Chassis { Downflow} AEPT,ARPT,ARUF DPI48-60/20 Coil Insulation Kit; Large Chassis { Downflow} AEPT,ARPT,ARUF FP-01 Freeze Protection Kit All Models. AIR HANDLER ACCESSORIES OT/EHR18-60 OUTDOOR THERMOSTAT & EMERGENCY HEAT RELAY Set Point Adjustment Screw Set Point Indicator Mark (Shown @Oº F) Thermostat Dial DEAD DIAL 315º 45º COLD (Turn Clockwise) WARM (Turn Counterclockwise) OT18-60 15 ACCESSORIES SUCTION LINE BULB 1/4 FLARE CONNECTION EXPANSION VALVE EVAPORATOR COIL REMOVE BEFORE INSTALLING EXPANSION VALVE SEAL SUPPLIED W/ KIT SEAL SUPPLIED W/ KIT BULB TO BE LOCATED AT 10 OR 2 O'CLOCK For Applications requiring a field installed access fitting TAILPIECE 3/8"- SWEAT 7/8" NUT DISTRIBUTOR BODY PISTON SEAL EVAPORATOR COIL 1/4' FLARE CONNECTION BULB SUCTION LINE EXPANSION VALVE REMOVE BEFORE INSTALLING EXPANSION VALVE SEAL SUPPLIED W/ KIT SEAL SUPPLIED W/ KIT BULB TO BE LOCATED AT 10 OR 2 O'CLOCK TAILPIECE 3/8"- SWEAT 7/8" NUT DISTRIBUTOR BODY PISTON SEAL For Applications not requiring a field installed access fitting EXPANSION VALVE KITS Kit Number Use With Description XVB18-36C ARUF018 to ARUF036 20% Bleed Valve XVB42-60C ARUF042 to ARUF060 20% Bleed Valve XV18-36C ARUF018 to ARUF 036 Non-Bleed Valve XV42-60C ARUF042 to ARUF061 Non-Bleed Valve EXPANSION VALVE KITS FOR AIR CONDITIONING-ONLY APPLICATIONS ACCESSORIES 16 PISTON KIT CHART OUTDOOR INDOOR PISTON UNIT PISTON KIT SIZE PART NO. CKL18-1* 18000 .052 (2) 24000 .052 B1789852 (3) 29000 .052 B1789852 (3) 31000 .055 B1789855 (3) 32000 .055 B1789855 (3) 36000 .055 B1789855 (3) AH18 .049 (2) AE(R)24 .055 B1789855 (3) CKL24-1* 24000 .059 (2) 29000 .059 (2) 30000 .059 B1789859 (3) 31000 .062 B1789862 (3) 32000 .062 B1789862 (3) 36000 .062 B1789862 (3) AE(R)24 .062 (2) CKL30-1* 24000 .065 (3) 29000 .065 (4) 30000 .065 (2) 31000 .065 B1789865 (3) 32000 .065 B1789865 (3) 36000 .065 B1789865 (3) 42000 .068 B1789868 (3) 49000 .068 B1789868 (3) AE(R)30 .068 (2) AE(R)36 .068 B1789868 (3) CKL36-1* 35000 .071 (2) 36000 .071 (2) 42000 .073 B1789873 (3) 49000 .073 B1789873 (3) AE(R)36 .074 (2) CKL42-1* 42000 .078 (2) 47000 .078 B1789878 (3) 48000 .078 B1789878 (3) 49000 .078 B1789878 (3) 60000 .078 B1789878 (3) AE(R)48 .082 (2) CKL49-1*/3* 47000 .082 (2) 48000 .082 (2) 49000 .082 (2) 59000 .082 B1789882 (1) 60000 .082 B1789882 (1) 61000 .082 B1789882 (1) CKL60-1*/3* 60000 .090 (2) 61000 .090 (2) 62000 .090 (2) AE(R)60 .090 (2) CKL62-1* 59000 .093 B1789893 (1) 60000 .093 B1789893 (1) 61000 .093 B1789893 (1) 62000 .093 B1789893 (1) AE(R)60 .093 B1789893 (1) CLJ18-1* 18000 .055 B1789855 (1) 24000 .055 B1789855 (1) 29000 .055 B1789855 (1) 30000 .055 B1789855 (1) 31000 .055 B1789855 (1) 32000 .055 B1789855 (1) 36000 .055 B1789855 (1) AH18 .052 B1789852 (3) AE(R)24 .055 B1789855 (1) CLJ24-1* 24000 .057 B1789857 (1) 29000 .057 B1789857 (1) 30000 .057 B1789857 (1) 31000 .057 B1789857 (1) 32000 .057 B1789857 (1) 36000 .057 B1789857 (1) AE(R)24 .057 B1789857 (1) CLJ30-1* 30000 .065 (2) 31000 .065 B1789865 (1) 32000 .065 B1789865 (1) 36000 .065 B1789865 (1) AE(R)30 .065 B1789865 (1) AE(R)36 .065 B1789865 (1) (*) SIGNIFIES UNIT REVISION. (1) PISTON SUPPLIED WITH THE OUTDOOR UNIT. (2) PISTON SUPPLIED WITH THE INDOOR UNIT. (3) PURCHASE PISTON KIT FROM DISTRIBUTOR. (4) B1789865 PISTON PROVIDED IN THE INDOOR UNIT. (5) PISTON PROVIDED IN THE OUTDOOR UNIT LIQUID LINE SERVICE VALVE. INDOOR UNIT BTU's OUTDOOR INDOOR UNIT BTU's INDOOR PISTON UNIT PISTON KIT SIZE PART NO. CLJ36-1* 36000 .071 (2) 42000 .073 B1789873 (1) 47000 .073 B1789873 (1) 49000 .073 B1789873 (1) AE(R)36 .074 (2) CLJ42-1* 42000 .078 (2) 48000 .078 B1789878 (1) 49000 .078 B1789878 (1) 59000 .078 B1789878 (1) 60000 .078 B1789878 (1) AE(R)48 .078 B1789878 (1) CLJ48-1* 48000 .082 (2) 49000 .082 (2) 59000 .082 B1789882 (1) 60000 .082 B1789882 (1) 61000 .082 B1789882 (1) 62000 .082 B1789882 (1) AE(R)48 .082 (2) CLJ60-1* 59000 .093 B1789893 (1) 60000 .093 B1789893 (1) 61000 .093 B1789893 (1) 62000 .093 B1789893 (1) AE(R)60 .093 B1789893 (1) CLT24-1*/CRT24-1* 24000 .055 B1789855 (1) 29000 .055 B1789855 (1) 31000 .055 B1789855 (1) 32000 .055 B1789855 (1) 36000 .055 B1789855 (1) 42000 .055 B1789855 (1) 49000 .055 B1789855 (1) AE(R)24 .055 B1789855 (1) CLT30-1*/CRT30-1* 30000 .065 (2) 32000 .065 B1789865 (1) 36000 .065 B1789865 (1) 42000 .065 B1789865 (1) 49000 .065 B1789865 (1) AE(R)36 .065 B1789865 (1) CLT36-1*/CRT36-1* 47000 .074 B1789874 (1) 48000 .074 B1789874 (1) 49000 .074 B1789874 (1) 60000 .074 B1789874 (1) AE(R)36 .074 (2) CLT42-1*/CRT42-1* 42000 .078 (2) 48000 .078 B1789878 (3) 49000 .078 B1789878 (3) 61000 .080 B1789880 (1) 62000 .080 B1789880 (1) AE(R)48 .082 (2) CLT48-1*/CRT48-1* 48000 .082 (2) 49000 .082 (2) 60000 .082 B1789882 (1) 61000 .082 B1789882 (1) 62000 .082 B1789882 (1) AE(R)48 .082 (2) CLT60-1*/CRT60-1* 60000 .088 B1789888 (1) 61000 .088 B1789888 (1) 62000 .088 B1789888 (1) AE(R)60 .088 B1789888 (1) CLQ24-1* 31000 .059 B1789859 (1) 32000 .059 B1789859 (1) 36000 .059 B1789859 (1) 42000 .059 B1789859 (1) 47000 .059 B1789859 (1) 49000 .059 B1789859 (1) AE(R)24 .059 B1789859 (1) CLQ30-1* 31000 .065 B1789865 (1) 32000 .065 B1789865 (1) 36000 .065 B1789865 (1) 60000 .065 B1789865 (1) 61000 .065 B1789865 (1) 62000 .065 B1789865 (1) AE(R)36 .065 B1789865 (1) CLQ36-1* 49000 .073 B1789873(1) 60000 .073 B1789873(1) 61000 .073 B1789873(1) 62000 .073 B1789873(1) AE(R)36 .073 B1789873(1) CLQ42-1* 49000 .080 B1789880 (1) 60000 .080 B1789880 (1) 61000 .080 B1789880 (1) 62000 .080 B1789880 (1) AE(R)48 .080 B1789880 (1) CLQ48-1* 49000 .082 (2) 60000 .082 B1789882 (1) 61000 .082 B1789882 (1) 62000 .082 B1789882 (1) AE(R)48 .082 (2) CLQ60-1* 60000 .090 (2) 61000 .090 (2) 62000 .090 (2) AE(R)60 .090 (2) 17 ACCESSORIES It is essential that indoor and outdoor units be properly matched. Failure to follow these instructions or to properly match evaporators and condensors can result in unit damage, property damage and/or personal injury. No warranty will be honored for mix-matched systems that fail to adhere to these instructions. OUTDOOR INDOOR PISTON UNIT PISTON KIT SIZE PART NO. CPLE18-1* 18000 .052 (2) 24000 .052 B1789852 (3) 29000 .052 B1789852 (3) 36000 .052 B1789852 (3) CPLE24-1* 24000 .059 (2) 29000 .059 (2) 30000 .059 B1789859 (3) 31000 .059 B1789859 (3) 32000 .059 B1789859 (3) 36000 .059 B1789859 (3) CPLE30-1* 29000 .065 B1789865 (3) 30000 .065 (2) 31000 .068 (2) 32000 .068 (2) 36000 .068 B1789868 (3) 48000 .068 B1789868 (3) CPLE36-1* 35000 .073 B1789873 (1) 36000 .073 B1789873 (1) 42000 .073 B1789873 (1) 47000 .073 B1789873 (1) 48000 .073 B1789873 (1) 49000 .073 B1789873 (1) CPLE42-1* 42000 .078 (2) 47000 .078 B1789878 (3) 48000 .078 B1789878 (3) 49000 .078 B1789878 (3) CPLE48-1* 47000 .082 (2) 49000 .082 (2) 59000 .082 B1789882 (3) 60000 .082 B1789882 (3) 61000 .082 B1789882 (3) 62000 .082 B1789882 (3) CPLE60-1*/3* 61000 .092 B1789892 (1) CPLJ18-1* 18000 .052 (2) 24000 .055 B1789855 (1) 32000 .055 B1789855 (1) 36000 .055 B1789855 (1) AE(R)24 .055 B1789855 (1) CPLJ24-1* 24000 .059 (2) 30000 .059 B1789859 (1) 31000 .059 B1789859 (1) 32000 .059 B1789859 (1) 36000 .059 B1789859 (1) 42000 .059 B1789859 (1) AE(R)24 .059 B1789859 (1) CPLJ30-1* 30000 .065 (2) 32000 .068 (2) 36000 .068 B1789868 (1) 42000 .068 B1789868 (1) AE(R)30 .068 (2) AE(R)36 .068 B1789868 (1) CPLJ36-1* 36000 .071 (2) 42000 .074 B1789874 (1) 49000 .074 B1789874 (1) AE(R)36 .074 (2) CPLJ42-1* 42000 .078 (2) 49000 .078 B1789878 (1) 60000 .078 B1789878 (1) 61000 .078 B1789878 (1) AE(R)48 .078 B1789878 (1) (*) SIGNIFIES UNIT REVISION. (1) PISTON SUPPLIED WITH THE OUTDOOR UNIT. (2) PISTON SUPPLIED WITH THE INDOOR UNIT. (3) PURCHASE PISTON KIT FROM DISTRIBUTOR. (4) B1789865 PISTON PROVIDED IN THE INDOOR UNIT. (5) PISTON PROVIDED IN THE OUTDOOR UNIT LIQUID LINE SERVICE VALVE. INDOOR UNIT BTU's OUTDOOR INDOOR PISTON UNIT PISTON KIT SIZE PART NO. CPLJ48-1* 48000 .082 (2) 49000 .084 B1789884 (1) 60000 .084 B1789884 (1) 61000 .084 B1789884 (1) AE(R)48 .084 B1789884 (1) CPLJ60-1* 60000 .090 (2) 61000 .090 (2) 62000 .090 (2) AE(R)60 .090 (2) CPLT24-1*/CPRT24-1* 32000 .062 B1789862 (1) 36000 .062 B1789862 (1) 42000 .062 B1789862 (1) AE(R)24 .062 (2) CPLT30-1*/CPRT30-1* 32000 .071 B1789871 (1) 36000 .071 (2) 42000 .071 B1789871 (1) AE(R)30 .071 B1789871 (1) AE(R)36 .071 B1789871 (1) CPLT36-1*/CPRT36-1* 48000 .073 B1789873 (1) 49000 .073 B1789873 (1) 60000 .073 B1789873 (1) AE(R)36 .073 B1789873 (1) CPLT42-1*/CPRT42-1* 49000 .078 B1789878 (1) 60000 .078 B1789878 (1) 61000 .078 B1789878 (1) AE(R)48 .078 B1789878 (1) CPLT48-1*/CPRT48-1* 61000 .084 B1789884 (1) AE(R)48 .084 B1789884 (1) CPLT60-1*/CPRT60-1* 61000 .092 B1789892 (1) AE(R)60 .092 B1789892 (1) INDOOR UNIT BTU's CKF36-2L* 36000 .067 (2) CKF36-5L* 36000 .067 (2) CKF48-5L* 48000 .076 (2) CKF60-5L* 60000 .089 (2) CKF70-5L* 60000 .089 (2) CPKF24-2L* 24000 .059 (2) CPKF36-2L* 36000 .067 (2) CPKF36-5L* 36000 .067 (2) CPKF36-2L* 48000 .067 B1789867 (3) CPKF36-5L* 48000 .067 B1789867 (3) CPKF42-5L* 48000 .073 B1789873 (3) CPKF48-2L* 48000 .076 (2) CPKF48-5L* 48000 .076 (2) CPKF60-5L* 60000 .089 (2) CPKF61-5L* 60000 .092 B1789892 (3) HDC12-1* 12000 .045 (5) 18000 .045 (5) HDC18-1* 18000 .052 (5) 24000 .052 (5) HDC24-1* 24000 .055 (5) HDP12-1* 12000 .045 (5) 18000 .045 (5) HDP18-1* 18000 .052 (5) 24000 .052 (5) HDP24-1* 24000 .055 (5) TWC18-1* 18000 .052 (2) TWC24-1* 24000 .059 (2) 30000 .059 B1789859 (3) TWCR30-1* 36000 .062 B1789862 (1) MINI SPLIT UNITS EXPORT UNITS THROUGH THE WALL UNITS WARNING ACCESSORIES 18 FP-01 FREEZE THERMOSTAT KIT T2 T1 L2 L1 BLACK 1 THERMOSTAT WIRE SHORT CYCLE PROTECTOR YELLOW 1 BLACK 1 Y1 Y2 R1 R2 Y C UNIT TERMINAL BOARD CONTACTOR ASC01A ANTI-SHORT -CYCLE CONTROL KIT Install Line Thermostat Here Install Line Thermostat Here Wire Nut Wire Nut Y Y B l a c k B l a c k Wire Nut Y Wire Nut Y B la c k B la c k 19 ACCESSORIES HKR SERIES ELECTRIC HEAT KITS A U R F 0 1 8 - 0 0 A - 1 / - 1 A A U R F 0 2 4 - 0 0 A - 1 / - 1 A A U R F 0 3 0 - 0 0 A - 1 / - 1 A A U R F 0 3 2 - 0 0 A - 1 B / - 1 C A U R F 0 3 6 - 0 0 A - 1 / - 1 A A U R F 0 4 2 - 0 0 A - 1 / - 1 A A U R F 0 4 2 - 0 0 A - 1 B A U R F 0 4 2 - 0 0 A - 1 / - 1 A A U R F 0 4 9 - 0 0 A - 1 / - 1 A A U R F 0 4 9 - 0 0 A - 1 B A U R F 0 6 0 - 0 0 A - 1 / - 1 A A U R F 0 6 1 - 0 0 A - 1 / - 1 A A U R F 0 6 1 - 0 0 A - 1 B HKR-03 X X X X X X X X X X X X X HKR-05 C X X X X X X X X X X X X X HKR-06 X X X X X X X X X X X X X HKR-08 C X X X X X X X X X X X X X HKR-10 C X X X + X X X X X X X X X HKR-15 C X X † X X X X X X X X X HKR-20 C X X X ƒ X X X X X X HKR-21 C X X X ƒ X X X X X X HKR3-15 * X X X X X X X X X HKR3-20 * X X X ƒ X X X X X X C Circuit breakers optional. * Heat Kit requires 3-phase power supply. + When using a 10 kW heat kit, this air handler must either be in medium or high speed † When using a 15 kW heat kit, this air handler must be on high speed. ƒ When using a 20 kW heat kit, this air handler must be on high speed HEATER KIT APPLICATION OPTIONS AER24-1 AER30-1 AER36-01 AER48-1 AER60-1 HKR-03 HKR-05 C X X HKR-06 HKR-08 C X X X HKR-10 C X X X X X HKR-15 C X X X HKR-20 C X HKR-21 C X C Circuit Breakers optional. HEATER KIT APPLICATION OPTIONS 20 PRODUCT SPECIFICATIONS CKL Electrical Data Specifications Model Nominal Cooling Capacity (BTUH) Service Valve Compressor Condenser Fan Shipping Weight (pounds) Liquid Suction Connection Type RLA LRA HP FLA CKL18-1L 18,000 3/8” 3/4” Sweat 8.5 49 1/6 1.3 125 CKL24-1L 24,000 3/8” 3/4” Sweat 9.8 56 1/6 1.3 127 CKL24-1M 24,000 3/8” 3/4” Sweat 12.1 57 1/6 1.3 127 CKL30-1L 29,000 3/8” 3/4” Sweat 13.7 75 1/6 1.3 130 CKL36-1L 35,000 3/8” 3/4” Sweat 17.2 96 1/6 1.3 152 CKL42-1L 41,000 3/8” 7/8” Sweat 17.2 105 1/6 1.3 160 CKL49-1L 47,000 3/8” 7/8” Sweat 18.3 102 1/4 1.8 176 CKL60-1L 57,000 3/8” 7/8” Sweat 25 150 1/4 1.8 208 CKL62-1L 62,000 3/8” 7/8” Sweat 27.1 144 1/3 2.3 258 CKL36-3L 35,000 3/8” 3/4” Sweat 10.3 75 1/6 1.3 142 CKL49-3L 47,000 3/8” 7/8” Sweat 12.6 91 1/4 1.8 176 CKL60-3L 57,000 3/8” 7/8” Sweat 15.4 124 1/4 1.8 208 CKL60-4L 57,000 3/8” 7/8” Sweat 7.4 59.6 1/4 0.8 208 CKL62-1L 62,000 3/8” 7/8” Sweat 27.1 144 1/3 2.3 258 Model Minimum Circuit Ampacity Maximum Overcurrent Protection Voltage-Phase Minimum Volts Maximum Volts CKL18-1L 11.9 20 amps 208/230-1 197 253 CKL24-1L 13.6 20 amps 208/230-1 197 253 CKL24-1M 16.4 20 amps 208/230-1 197 253 CKL30-1L 18.4 30 amps 208/230-1 197 253 CKL36-1L 22.8 40 amps 208/230-1 197 253 CKL42-1L 22.8 40 amps 208/230-1 197 253 CKL49-1L 24.7 40 amps 208/230-1 197 253 CKL60-1L 33.1 50 amps 208/230-1 197 253 CKL62-1L 36.1 60 amps 208/230-1 197 253 CKL36-3L 14.2 20 amps 208/230-3 197 253 CKL49-3L 17.6 30 amps 208/230-3 197 253 CKL60-3L 21.1 30 amps 208/230-3 197 253 CKL60-4L 10.1 15 amps 460-3 414 506 CKL62-1L 36.1 60 amps 208/230-1 197 253 1) Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. 2) May use fuses or HACR type Circuit Breakers of the same size as noted. 21 PRODUCT SPECIFICATIONS CKL LIQUID CONN. W ADDITIONAL 1 -1/2" ELEVATED CHANNEL FORMED INTO BOTTOM PAN 7/8" DIA. CONTROL H SUCTION CONN. 1 -1/8" DIA. POWER D Dimensions Model Width Depth Height CKL18-1L 23” 23” 24” CKL24-1L 23” 23” 24” CKL24-1M 23” 23” 24” CKL30-1L 23” 23” 24” CKL36-1L 23” 23” 29” CKL42-1L 23” 23” 31½” CKL49-1L 29” 29” 29” CKL60-1L 29” 29” 31½” CKL62-1L 29” 29” 39” CKL36-3L 23” 23” 26½” CKL49-3L 29” 29” 29” CKL60-3L 29” 29” 31½” CKL60-4L 29” 29” 31½” 22 PRODUCT SPECIFICATIONS CKL (1) Seasonal Energy Efficiency Ratio (2) Energy Efficiency Ratio @ 80°F/67°F Inside - 95°F (3) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. (4) Note: XX of A Model Designate Electric Heat Quantity. (5) EEP - Order from Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. Performance Ratings Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CKL18-1* AC18-XX 17,000 12,410 10.00 9.00 467525 76 ACHP1819-1 16,800 12,264 10.00 9.00 467533 76 AEPT030-00*-1* 18,000 13,140 11.00 9.80 517544 76 AH18 17,400 12,702 10.00 9.00 467531 76 ARPF024-00B-1* 17,400 12,702 10.00 9.00 517514 76 ARPT024-00*-1* 17,400 12,702 10.00 9.00 517529 76 ARPT032-00*-1* 18,000 13,140 10.50 9.50 517511 76 ARUF018-00*-1* 17,000 12,410 10.00 9.00 517512 76 ARUF024-00*-1* 17,400 12,702 10.00 9.00 517498 76 ARUF032-00*-1* 18,000 13,140 10.50 9.50 517497 76 AWB18-XX 16,800 12,264 10.00 9.00 467564 76 AWB24-XX 17,000 12,325 10.00 9.00 467560 76 CA*F018*2*+EEP 17,000 12,325 10.00 9.00 503271 76 CA*F024*2*+EEP 17,400 12,615 10.00 9.00 503272 76 CA*F030*2*+EEP 18,000 13,050 10.50 9.50 503273 76 CHPF024A2*+EEP 17,400 12,615 10.00 9.00 503276 76 CHPF025B2*+EEP 17,400 12,615 10.00 9.00 530822 76 CHPF030A2*+EEP 18,000 13,050 10.50 9.50 503277 76 H24F+EEP 17,400 12,528 10.00 9.00 466994 76 H36F+EEP 18,000 12,960 10.50 9.50 466980 76 CKL24-1* AC24-XX 23,200 17,052 10.00 9.00 467561 75 ACHP2423-1 23,200 17,052 10.00 9.00 467556 75 AEPT030-00*-1* 24,000 17,640 11.00 9.80 517545 75 AH24 23,200 17,052 10.00 9.00 467559 75 ARPF024-00B-1* 23,000 16,905 10.00 9.00 517509 75 ARPT024-00*-1* 23,000 16,905 10.00 9.00 517501 75 ARPT032-00*-1* 24,000 17,640 10.50 9.50 517495 75 ARUF024-00*-1* 23,000 16,905 10.00 9.00 517507 75 ARUF032-00*-1* 24,000 17,640 10.50 9.50 517521 75 AWB24-XX 23,200 17,052 10.00 9.00 467568 75 CA*F024*2*+EEP 23,000 16,905 10.00 9.00 503280 75 CA*F030*2*+EEP 24,000 17,640 10.50 9.50 503281 75 CA*F036*2*+EEP 24,000 17,640 10.50 9.50 503282 75 CHPF024A2*+EEP 23,000 16,790 10.00 9.00 503285 75 CHPF025B2*+EEP 23,000 16,790 10.00 9.00 530824 75 CHPF030A2*+EEP 24,000 17,520 10.50 9.50 503286 75 H24F+EEP 23,000 16,675 10.00 9.00 467002 75 H36F+EEP 24,000 17,400 10.50 9.50 467008 75 23 PRODUCT SPECIFICATIONS CKL Performance Ratings (cont.) Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CKL30-1* AC30-XX 28,400 20,590 10.00 9.00 467562 78 AC36-XX 29,000 21,315 10.00 9.00 467555 78 ACHP3028-1 28,000 20,580 10.00 9.00 467567 78 AEPT030-00*-1* 28,000 20,580 10.50 9.50 517526 78 AEPT036-00*-1* 29,000 21,315 11.00 9.80 517538 78 AH30 28,000 20,580 10.00 9.00 467574 78 AH36 29,000 21,315 10.00 9.00 467588 78 ARPF036-00B-1* 29,000 21,315 10.50 9.50 517528 78 ARPT032-00*-1* 29,000 21,315 10.50 9.50 517515 78 ARPT036-00*-1* 28,000 20,580 10.00 9.00 517516 78 ARUF030-00*-1* 27,200 19,992 10.00 9.00 517543 78 ARUF032-00*-1* 29,000 21,315 10.50 9.50 517531 78 ARUF036-00*-1* 28,000 20,580 10.00 9.00 517502 78 AWB30-XX 27,000 19,845 10.00 9.00 467583 78 AWB36-XX 28,000 20,580 10.00 9.00 467577 78 CA*F030*2*+EEP 28,600 21,021 10.00 9.00 503289 78 CA*F042*2*+EEP 29,000 21,315 10.50 9.50 503290 78 CHPF024A2*+EEP 27,200 19,992 10.00 9.00 503293 78 CHPF030A2*+EEP 28,600 21,021 10.00 9.00 503294 78 CHPF036B2*+EEP 29,000 21,315 10.50 9.50 503295 78 H36F+EEP 28,600 20,878 10.00 9.00 467013 78 H49F+EEP 29,000 21,170 10.50 9.50 467010 78 Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CKL36-1* AC36-XX 33,200 24,236 10.00 9.00 503315 80 ACHP3632-1 32,000 23,360 10.00 9.00 503318 80 AEPT036-00*-1* 35,000 25,550 11.00 9.80 517535 80 AH36 34,400 25,112 10.00 9.00 503313 80 ARPF036-00B-1* 33,200 24,236 10.00 9.00 517525 80 ARPT036-00*-1* 34,000 24,820 10.00 9.00 517541 80 ARPT042-00*-1* 35,000 25,550 10.50 9.50 517537 80 ARUF036-00*-1* 34,000 24,820 10.00 9.00 517546 80 ARUF042-00*-1* 35,000 25,550 10.50 9.50 517524 80 AWB36-XX 34,000 24,820 10.00 9.00 503320 80 CA*F036*2*+EEP 34,000 24,650 10.00 9.00 503301 80 CA*F042*2*+EEP 35,000 25,375 10.50 9.50 503302 80 CHPF030A2*+EEP 34,400 24,940 10.00 9.00 503307 80 CHPF036B2*+EEP 34,000 24,650 10.00 9.00 503310 80 CHPF042B2*+EEP 35,000 25,375 10.50 9.50 503304 80 CHPF048C2*+EEP 35,000 25,375 10.50 9.50 530821 80 H36F+EEP 34,000 24,650 10.00 9.00 503300 80 H49F+EEP 35,000 25,375 10.50 9.50 503303 80 24 PRODUCT SPECIFICATIONS CKL Performance Ratings (cont.) Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CKL36-3* AC36-XX 33,200 24,070 10.00 9.00 503345 80 ACHP3632-1 32,000 23,200 10.00 9.00 503347 80 AEPT036-00*-1* 35,000 25,375 11.00 9.80 517533 80 AH36 34,400 24,940 10.00 9.00 503338 80 ARPF036-00B-1* 33,200 24,070 10.00 9.00 517519 80 ARPT036-00*-1* 34,000 24,650 10.00 9.00 517539 80 ARPT042-00*-1* 35,000 25,375 10.50 9.50 517517 80 ARUF036-00*-1* 34,000 24,820 10.00 9.00 517522 80 ARUF042-00*-1* 35,000 25,375 10.50 9.50 517510 80 AWB36-XX 34,000 24,820 10.00 9.00 503339 80 CA*F036*2*+EEP 34,000 24,820 10.00 9.00 503325 80 CA*F042*2*+EEP 35,000 25,550 10.50 9.50 503330 80 CHPF030A2*+EEP 34,400 25,112 10.00 9.00 503334 80 CHPF036B2*+EEP 34,000 24,650 10.00 9.00 503327 80 CHPF042B2*+EEP 35,000 25,375 10.50 9.50 503337 80 H36F+EEP 34,000 24,650 10.00 9.00 503333 80 H49F+EEP 35,000 25,375 10.50 9.50 503332 80 (1) Seasonal Energy Efficiency Ratio (2) Energy Efficiency Ratio @ 80°F/67°F Inside - 95°F (3) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. (4) Note: XX of A Model Designate Electric Heat Quantity. (5) EEP - Order from Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CKL42-1* AEPT060-00*-1* 41,000 30,400 11.00 9.80 517475 82 ARPF048-00B-1* 41,000 30,400 10.50 9.50 517478 82 ARPT042-00*-1* 40,000 28,000 10.00 9.00 517473 82 ARPT049-00*-1* 41,000 30,400 10.50 9.50 517469 82 ARUF042-00*-1* 40,000 28,000 10.00 9.00 517479 82 ARUF048-00*-1* 40,000 28,000 10.00 9.00 517470 82 ARUF049-00*-1* 41,000 30,400 10.50 9.50 517472 82 CA*F042*2*+EEP 39,500 27,650 10.00 9.00 503352 82 CA*F048*2*+EEP 40,500 29,160 10.00 9.00 503353 82 CA*F060*2*+EEP 41,000 30,400 10.50 9.50 503354 82 CHPF042B2*+EEP 40,000 28,000 10.00 9.00 503357 82 CHPF048C2*+EEP 40,000 30,400 10.00 9.00 530820 82 CHPF048D2*+EEP 41,000 28,000 10.50 9.50 503358 82 H49F+EEP 40,000 30,400 10.00 9.00 467033 82 H60F+EEP 41,000 34,200 10.50 9.50 467030 82 25 PRODUCT SPECIFICATIONS CKL Performance Ratings (cont.) Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CKL49-1* AEPT060-00*-1* 45,000 35,000 11.00 9.80 517486 80 ARPF048-00B-1* 46,000 35,000 10.50 9.30 517477 80 ARPT049-00*-1* 46,000 34,200 10.50 9.30 517480 80 ARUF048-00*-1* 45,000 35,000 10.00 9.00 517482 80 ARUF049-00*-1* 46,000 34,200 10.50 9.30 517487 80 CA*F048*2*+EEP 45,000 35,000 10.00 9.00 503361 80 CA*F060*2*+EEP 46,000 33,000 10.00 9.00 503362 80 CHPF042B2*+EEP 44,000 33,000 10.00 9.00 503364 80 CHPF048C2*+EEP 44,000 34,200 10.00 9.00 530823 80 CHPF048D2*+EEP 45,000 36,000 10.00 9.00 503365 80 CHPF060D2*+EEP 47,000 33,000 10.50 9.50 503366 80 H49F+EEP 44,000 34,200 10.00 9.00 466757 80 H60F+EEP 45,000 36,000 10.00 9.00 466759 80 H61F+EEP 47,000 34,200 10.50 9.50 466770 80 (1) Seasonal Energy Efficiency Ratio (2) Energy Efficiency Ratio @ 80°F/67°F Inside - 95°F (3) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. (4) Note: XX of A Model Designate Electric Heat Quantity. (5) EEP - Order from Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CKL49-3* AEPT060-00*-1* 45,000 35,000 11.00 9.80 517468 80 ARPF048-00B-1* 46,000 35,000 10.50 9.50 517476 80 ARPT049-00*-1* 46,000 34,200 10.50 9.50 517474 80 ARUF048-00*-1* 45,000 35,000 10.00 9.00 517467 80 ARUF049-00*-1* 46,000 34,200 10.50 9.50 517485 80 CA*F048*2*+EEP 45,000 35,000 10.00 9.00 503369 80 CA*F060*2*+EEP 46,000 33,000 10.00 9.00 503370 80 CHPF042B2*+EEP 44,000 33,000 10.00 9.00 503372 80 CHPF048D2*+EEP 45,000 34,200 10.00 9.00 503373 80 CHPF060D2*+EEP 47,000 36,000 10.50 9.50 503374 80 H49F+EEP 44,000 33,000 10.00 9.00 466763 80 H60F+EEP 45,000 34,200 10.00 9.00 466765 80 H61F+EEP 47,000 36,000 10.50 9.30 466767 80 26 PRODUCT SPECIFICATIONS CKL Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CKL60-1* AEPT060-00*-1* 57,000 42,000 10.50 9.50 517464 80 ARPF060-00B-1* 57,000 42,000 10.50 9.50 517466 80 ARPT061-00*-1* 57,000 42,000 10.50 9.50 517489 80 ARUF060-00*-1* 56,000 40,300 10.00 9.00 517471 80 ARUF061-00*-1* 57,000 42,000 10.50 9.50 517483 80 CA*F060*2*+EEP 55,000 39,600 10.00 9.00 503382 80 CA*F061*2*+EEP 56,000 40,300 10.50 9.50 503383 80 CHPF048D2*+EEP 55,000 39,600 10.00 9.00 503386 80 CHPF060D2*+EEP 56,000 40,300 10.50 9.50 503387 80 H60F+EEP 55,000 39,600 10.00 9.00 504198 80 H61F+EEP 56,000 40,300 10.50 9.50 504195 80 CKL60-3/4* AEPT060-00*-1* 57,000 42,000 10.50 9.50 517488 80 ARPF060-00B-1* 57,000 42,000 10.50 9.50 517481 80 ARPT061-00*-1* 57,000 42,000 10.50 9.50 517484 80 ARUF060-00*-1* 56,000 40,300 10.00 9.00 517548 80 ARUF061-00*-1* 57,000 42,000 10.50 9.50 517536 80 CA*F060*2*+EEP 55,000 39,600 10.00 9.00 503398 80 CA*F061*2*+EEP 56,000 40,300 10.50 9.50 503399 80 CHPF048D2*+EEP 55,000 39,600 10.00 9.00 503402 80 CHPF060D2*+EEP 56,000 40,300 10.50 9.50 503403 80 H60F+EEP 55,000 39,600 10.00 9.00 503405 80 H61F+EEP 56,000 40,300 10.50 9.50 504197 80 CKL62-1* AEPT060-00*-1* 61,000 45,000 10.50 9.50 517496 80 ARPF060-00B-1* 61,000 45,000 10.00 9.00 517520 80 ARPT061-00*-1* 62,000 45,000 10.00 9.00 517504 80 ARUF060-00*-1* 58,000 42,000 10.00 9.00 517523 80 ARUF061-00*-1* 62,000 45,000 10.00 9.00 517547 80 CA*F060*2*+EEP 58,000 42,000 10.00 9.00 503417 80 CA*F061*2*+EEP 60,000 43,000 10.00 9.00 503418 80 CHPF048D2*+EEP 58,000 42,000 10.00 9.00 503421 80 CHPF060D2*+EEP 60,000 43,000 10.00 9.00 503422 80 H61F+EEP 60,000 43,000 10.00 9.00 503424 80 Performance Ratings (cont.) (1) Seasonal Energy Efficiency Ratio (2) Energy Efficiency Ratio @ 80°F/67°F Inside - 95°F (3) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. (4) Note: XX of A Model Designate Electric Heat Quantity. (5) EEP - Order from Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. 27 PRODUCT SPECIFICATIONS CKL090-120 Model Volts PH Minimum Circuit Ampacity 1 Maximum Overcurrent Protection 2 Maximum Volts Minimum Volts Compressor Condenser Fan RLA LRA FLA HP CKL090-3/-3L 208/230 3 37.8 60 253 197 25.7 196 5.6 1 CKL090-4/-4L 460 3 18.8 30 506 414 12.8 100 2.8 1 CKL120-3/-3L 208/230 3 43.3 60 253 197 30.1 225 5.6 1 CKL120-4/-4L 460 3 22.2 35 506 414 15.5 114 2.8 1 Specifications Dimensions Model Refrigerant Line Connection Type Approximate Shipping Weight (pounds) Liquid Suction CKL090-3/-3L 5/8” 1ɍ” Sweat 370 CKL090-4/-4L 5/8” 1ɍ” Sweat 370 CKL120-3/-3L 5/8” 1ɍ” Sweat 420 CKL120-4/-4L 5/8” 1ɍ” Sweat 420 Electrical Data 1) Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. 2) May use fuses or HACR type Circuit Breakers of the same size as noted. 3) The -3L and -4L models are painted Architectural Gray. All other models are painted Bahama Beige. 28 PRODUCT SPECIFICATIONS Indoor Air Condenser Air Temperature 75 °F 85 °F 95 °F 105 °F 115 °F SCFM WB TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH 2493 72 102.1 47.6 8.03 97.7 45.6 8.46 92.4 43.7 8.80 87.1 41.8 9.23 81.8 39.9 9.65 67 93.3 59.0 7.52 88.9 57.1 7.86 84.5 55.2 8.29 79.2 53.3 8.71 73.9 53.3 9.14 62 86.2 69.7 7.01 81.8 67.8 7.43 79.6 65.9 7.86 77.4 64.0 8.29 73.0 61.5 8.63 57 82.7 75.4 6.83 79.2 72.3 7.26 75.7 69.1 7.69 71.3 65.3 8.20 67.8 61.5 8.54 2933 72 106.5 52.6 8.29 101.2 50.7 8.63 95.9 48.8 9.06 90.6 47.6 9.48 84.5 45.0 9.91 67 97.7 67.2 7.77 93.3 65.3 8.12 88.0 63.4 8.54 82.7 61.5 8.97 77.4 59.6 9.40 62 90.6 80.5 7.35 86.2 78.0 7.69 81.8 74.8 8.12 78.3 71.0 8.54 73.9 67.2 9.06 57 89.8 81.8 7.26 85.4 78.6 7.69 81.8 74.8 8.12 78.3 71.0 8.54 73.9 67.2 9.06 3373 72 109.1 57.1 8.46 103.8 55.2 8.80 98.6 53.3 9.23 92.4 51.4 9.65 87.1 50.1 10.08 67 101.2 74.2 7.95 95.9 72.9 8.29 90.6 71.0 8.71 85.4 68.5 9.14 80.1 66.6 9.57 62 95.0 86.9 7.60 91.5 83.1 8.03 86.2 79.3 8.46 82.7 75.4 8.89 77.4 71.0 9.40 57 95.0 86.9 7.60 91.5 83.1 8.03 86.2 79.3 8.46 82.7 75.4 8.89 77.4 71.0 9.40 Model Evaporator Model Total BTUH @ 95 °F Sensible BTUH @ 95 °F EER 1 Decibels CKL090-3/-3L AR090 88,000 63,400 10.3 8.4 CKL090-4/-4L (2) U-60; (2) CA(U,P)X060D2A 90,000 64,800 10.3 8.4 CKL120-3/-3L AR120 114,000 82,200 10.3 8.4 CKL120-4/-4L (2) U-61; (2) CA(U,P)X061D2A 112,000 80,800 10.3 8.4 Performance Ratings 1) EER = Energy Efficiency Ratio = Capacity BTUH @ 95 °F/kW I (kW I = Compressor + Indoor Blower Motor + Outdoor Fan Motor) 2) For CKL**-3 models, reduce BTUH by 2,000 @ 208 volts. Outdoor Unit CKL090-3/-4/-3L/-4L Indoor Unit AR090 Sensible heat capacities shown are based on 80 ° F DB entering air at the evaporator coil. For sensible heat capacities at other than 80 ° F DB, deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 ° F, or add 84 BTUH per 100 CFM of evaporator coil air per degree above 80 ° F. CAPACITIES AT 95 ° F OUTDOOR, 75 ° F DB AND 63 ° F WB INDOOR TOTAL MBTUH 83.1 SENSIBLE MBTUH 60.2 LATENT MBTUH 22.9 INDOOR AIR CONDENSER AIR TEMPERATURE 75 85 95 105 115 SCFM WB TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH 2550 72 104.4 48.6 8.21 99.9 46.7 8.65 94.5 44.7 9.00 89.1 42.8 9.44 83.7 40.8 9.87 67 95.4 60.3 7.69 90.9 58.3 8.04 86.4 56.4 8.48 81.0 54.4 8.91 75.6 54.4 9.35 62 88.2 71.3 7.17 83.7 69.3 7.60 81.5 67.4 8.04 79.2 65.4 8.48 74.7 62.9 8.83 57 84.6 77.1 6.99 81.0 73.9 7.43 77.4 70.6 7.86 72.9 66.7 8.39 69.3 62.9 8.74 3000 72 108.9 53.8 8.48 103.5 51.8 8.83 98.1 49.9 9.26 92.7 48.6 9.70 86.4 46.0 10.14 67 99.9 68.7 7.95 95.4 66.7 8.30 90.0 64.8 8.74 84.6 62.9 9.17 79.2 60.9 9.61 62 92.7 82.3 7.51 88.2 79.7 7.86 83.7 76.5 8.30 80.1 72.6 8.74 75.6 68.7 9.26 57 91.8 83.6 7.43 87.3 80.4 7.86 83.7 76.5 8.30 80.1 72.6 8.74 75.6 68.7 9.26 3450 72 111.6 58.3 8.65 106.2 56.4 9.00 100.8 54.4 9.44 94.5 52.5 9.87 89.1 51.2 10.31 67 103.5 75.8 8.13 98.1 74.5 8.48 92.7 72.6 8.91 87.3 70.0 9.35 81.9 68.0 9.79 62 97.2 88.8 7.78 93.6 84.9 8.21 88.2 81.0 8.65 84.6 77.1 9.09 79.2 72.6 9.61 57 97.2 88.8 7.78 93.6 84.9 8.21 88.2 81.0 8.65 84.6 77.1 9.09 79.2 72.6 9.61 Sensible heat capacities shown are based on 80 ° F DB entering air at the evaporator coil. For sensible heat capacities at other than 80 ° F DB, deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 ° F, or add 84 BTUH per 100 CFM of evaporator coil air per degree above 80 ° F. CAPACITIES AT 95 ° F OUTDOOR, 75 ° F DB AND 63 ° F WB INDOOR TOTAL MBTUH 85.0 SENSIBLE MBTUH 61.5 LATENT MBTUH 23.4 Outdoor Unit CKL090-3/-4/-3L/-4L Indoor Unit (2) U60 CKL090-120 29 PRODUCT SPECIFICATIONS Indoor Air Condenser Air Temperature 75 °F 85 °F 95 °F 105 °F 115 °F SCFM WB TOTAL SENS WATTS TOTAL SENS WATTS TOTAL SENS WATTS TOTAL SENS WATTS TOTAL SENS WATTS MBTUH MBTUH KWH MBTUH MBTUH KWH MBTUH MBTUH KWH MBTUH MBTUH KWH MBTUH MBTUH KWH 3230 72 132.2 61.7 10.40 126.5 59.2 10.96 119.7 56.7 11.40 112.9 54.3 11.95 106.0 51.8 12.51 67 120.8 76.4 9.74 115.1 74.0 10.18 109.4 71.5 10.74 102.6 69.0 11.29 95.8 69.0 11.84 62 111.7 90.4 9.08 106.0 88.0 9.63 103.2 85.5 10.18 100.3 83.0 10.74 94.6 79.7 11.18 57 107.2 97.8 8.85 102.6 93.7 9.41 98.0 89.6 9.96 92.3 84.7 10.63 87.8 79.7 11.07 3800 72 137.9 68.2 10.74 131.1 65.8 11.18 124.3 63.3 11.73 117.4 61.7 12.29 109.4 58.4 12.84 67 126.5 87.1 10.07 120.8 84.7 10.51 114.0 82.2 11.07 107.2 79.7 11.62 100.3 77.3 12.17 62 117.4 104.4 9.52 111.7 101.1 9.96 106.0 97.0 10.51 101.5 92.1 11.07 95.8 87.1 11.73 57 116.3 106.0 9.41 110.6 101.9 9.96 106.0 97.0 10.51 101.5 92.1 11.07 95.8 87.1 11.73 4370 72 141.4 74.0 10.96 134.5 71.5 11.40 127.7 69.0 11.95 119.7 66.6 12.51 112.9 64.9 13.06 67 131.1 96.2 10.29 124.3 94.5 10.74 117.4 92.1 11.29 110.6 88.8 11.84 103.7 86.3 12.40 62 123.1 112.6 9.85 118.6 107.7 10.40 111.7 102.8 10.96 107.2 97.8 11.51 100.3 92.1 12.17 57 123.1 112.6 9.85 118.6 107.7 10.40 111.7 102.8 10.96 107.2 97.8 11.51 100.3 92.1 12.17 Sensible heat capacities shown are based on 80 ° F DB entering air at the evaporator coil. For sensible heat capacities at other than 80 ° F DB, deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 ° F, or add 84 BTUH PER 100 CFM of evaporator coil air per degree above 80 ° F. CAPACITIES AT 95 ° F OUTDOOR, 75 ° F DB AND 63 ° F WB INDOOR TOTAL MBTUH 107.6 SENSIBLE MBTUH 78.1 LATENT MBTUH 29.5 Outdoor Unit CKL120-3/-4/-3L/-4L Indoor Unit AR120 INDOOR AIR CONDENSER AIR TEMPERATURE 75 85 95 105 115 SCFM WB TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH 3173 72 129.9 60.6 10.22 124.3 58.2 10.77 117.6 55.8 11.20 110.9 53.3 11.74 104.2 50.9 12.29 67 118.7 75.1 9.57 113.1 72.7 10.00 107.5 70.3 10.55 100.8 67.9 11.09 94.1 67.9 11.63 62 109.8 88.9 8.92 104.2 86.5 9.46 101.4 84.0 10.00 98.6 81.6 10.55 93.0 78.4 10.98 57 105.3 96.2 8.70 100.8 92.1 9.24 96.3 88.1 9.79 90.7 83.2 10.44 86.2 78.4 10.87 3733 72 135.5 67.1 10.55 128.8 64.6 10.98 122.1 62.2 11.53 115.4 60.6 12.07 107.5 57.4 12.61 67 124.3 85.6 9.90 118.7 83.2 10.33 112.0 80.8 10.87 105.3 78.4 11.42 98.6 76.0 11.96 62 115.4 102.6 9.35 109.8 99.4 9.79 104.2 95.3 10.33 99.7 90.5 10.87 94.1 85.6 11.53 57 114.2 104.2 9.24 108.6 100.2 9.79 104.2 95.3 10.33 99.7 90.5 10.87 94.1 85.6 11.53 4293 72 138.9 72.7 10.77 132.2 70.3 11.20 125.4 67.9 11.74 117.6 65.4 12.29 110.9 63.8 12.83 67 128.8 94.5 10.11 122.1 92.9 10.55 115.4 90.5 11.09 108.6 87.3 11.63 101.9 84.8 12.18 62 121.0 110.7 9.68 116.5 105.8 10.22 109.8 101.0 10.77 105.3 96.2 11.31 98.6 90.5 11.96 57 121.0 110.7 9.68 116.5 105.8 10.22 109.8 101.0 10.77 105.3 96.2 11.31 98.6 90.5 11.96 Sensible heat capacities shown are based on 80 ° F DB entering air at the evaporator coil. For sensible heat capacities at other than 80 ° F DB, deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 ° F, or add 84 BTUH per 100 CFM of evaporator coil air per degree above 80 ° F. CAPACITIES AT 95 ° F OUTDOOR, 75 ° F DB AND 63 ° F WB INDOOR TOTAL MBTUH 105.7 SENSIBLE MBTUH 76.8 LATENT MBTUH 29.0 Outdoor Unit CKL120-3/-4/-3L/-4L Indoor Unit (2) U61 Performance Ratings (cont.) CKL090-120 30 PRODUCT SPECIFICATIONS CLJ Specifications Electrical Data Model Nominal Cooling Capacity (BTUH) Service Valve Compressor Condenser Fan Ship Wgt (lbs) Liquid Suction Connect Type RLA LRA Type HP FLA CLJ18-1A 18,400 3/8” 3/4” Sweat 8.6 49 Reciprocating 1/6 1.3 135 CLJ18-1C 18,400 3/8” 3/4” Sweat 8.6 49 Reciprocating 1/6 1.3 135 CLJ24-1A 23,400 3/8” 3/4” Sweat 9.4 49 Reciprocating 1/6 1.3 160 CLJ24-1C 23,400 3/8” 3/4” Sweat 9.4 49 Reciprocating 1/6 1.3 160 CLJ24-1D 23,400 3/8” 3/4” Sweat 9.2 43 Reciprocating 1/6 1 160 CLJ30-1A 30,000 3/8” 3/4” Sweat 13 60 Reciprocating 1/6 0.9 173 CLJ30-1C 30,000 3/8” 3/4” Sweat 13 60 Reciprocating 1/6 1.1 173 CLJ30-1D 30,000 3/8” 3/4” Sweat 10.8 60 Reciprocating 1/6 0.9 174 CLJ36-1A/-1C 36,000 3/8” 3/4” Sweat 14.4 82 Reciprocating 1/4 1.5 174 CLJ42-1B 41,000 3/8” 7/8” Sweat 17.2 96 Reciprocating 1/4 1.6 175 CLJ42-1C 41,000 3/8” 7/8” Sweat 14.9 96 Reciprocating 1/4 1.6 175 CLJ48-1A/-1C/-1D 47,000 3/8” 7/8” Sweat 18.3 109 Scroll 1/4 1.8 208 CLJ60-1/-1C 56,000 3/8” 7/8” Sweat 25 148 Scroll 1/4 1.8 270 NOTE: The -*C models are painted in Architectural Gray. All other models are painted in Bahama Beige. Model Minimum Circuit Ampacity Maximum Overcurrent Protection (amps) Voltage- Phase Minimum Volts Maximum Volts CLJ18-1A 12.1 20 208/230-1 197 253 CLJ18-1C 12.1 20 208/230-1 197 253 CLJ24-1A 13.1 20 208/230-1 197 253 CLJ24-1C 13.1 20 208/230-1 197 253 CLJ24-1D 12.4 20 208/230-1 197 253 CLJ30-1A 17.2 30 208/230-1 197 253 CLJ30-1C 17.4 30 208/230-1 197 253 CLJ30-1D 14.3 30 208/230-1 197 253 CLJ36-1A/-1C 19.5 30 208/230-1 197 253 CLJ42-1B 23.1 40 208/230-1 197 253 CLJ42-1C 20.2 30 208/230-1 197 253 CLJ48-1A/-1C/-1D 24.7 40 208/230-1 197 253 CLJ60-1/-1C 33.1 60 208/230-1 197 253 1) Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. 2) May use fuses or HACR type Circuit Breakers of the same size as noted. 31 PRODUCT SPECIFICATIONS CLJ Dimensions FORMED INTO BOTTOM PAN ADDITIONAL 1 -1/2" LIQUID CONN. ELEVATED CHANNEL SUCTION CONN. 1 -1/8" DIA. POWER 7/8" DIA. CONTROL W D H Model Width Depth Height CLJ18-1A 23” 23” 26.5” CLJ18-1C 23” 23” 26.5” CLJ24-1A 23” 23” 31.5” CLJ24-1C 23” 23” 31.5” CLJ24-1D 23” 23” 31.5” CLJ30-1A 29” 29” 26.5” CLJ30-1C 29” 29” 26.5” CLJ30-1D 29” 29” 29” CLJ36-1A/-1C 29” 29” 29” CLJ42-1B 29” 29” 31.5” CLJ42-1C 29” 29” 31.5” 32 PRODUCT SPECIFICATIONS CLJ Performance Ratings Condenser Evaporator Model Total BTUH Sensible BTUH E E R S E E R ARI Ref. # D e c i b e l CLJ18-1* AC18-XX 17,200 12,750 10.50 12.00 467428 77 ACHP1819-1 17,200 12,750 10.50 12.00 467432 77 AEPT030-00*-1* 18,400 13,600 11.50 13.00 517499 77 AH18 17,000 12,900 10.00 11.20 467430 77 AH30 17,400 12,600 10.50 12.00 467429 77 ARPF024-00B-1* 16,800 12,400 10.10 11.50 517505 77 ARPF036-00B-1* 18,000 13,200 10.50 12.00 517503 77 ARPT024-00*-1* 16,800 12,400 10.10 11.50 517513 77 ARPT032-00*-1* 18,000 13,200 10.50 12.00 517508 77 ARUF018-00*-1* 16,000 11,800 10.00 11.30 517534 77 ARUF024-00*-1* 16,800 12,400 10.10 11.50 517542 77 ARUF032-00*-1* 18,000 13,200 10.50 12.00 517530 77 AWB18-XX 16,000 11,800 10.00 11.30 467498 77 AWB24-XX 17,200 12,750 10.50 12.00 467491 77 CA*F018*2*+EEP 16,000 11,800 10.00 11.30 503429 77 CA*F024*2*+EEP 16,800 12,400 10.10 11.50 505285 77 CA*F030*2*+EEP 18,000 13,200 10.50 12.00 503432 77 CA*F030*2*+G*V80703B** 18,000 13,200 11.50 13.00 520819 77 CA*F042*2*+G*V80703B** 18,000 13,200 11.50 13.00 520833 77 CA*F042*2*+G*V90704C** 18,000 13,200 11.50 13.00 503433 77 CHPF024A2*+EEP 16,800 12,400 10.10 11.50 503438 77 CHPF030A2*+EEP 18,000 13,200 10.50 12.00 503439 77 CHPF030A2*+G*V80703B** 18,000 13,200 11.50 13.00 520822 77 CHPF042B2*+G*V80703B** 18,000 13,200 11.50 13.00 520835 77 CHPF042B2*+G*V90704C** 18,000 13,200 11.50 13.00 503442 77 H36F+EEP 18,000 13,200 10.50 12.00 467040 77 H36F+GV80703B** 18,000 13,200 11.50 13.00 527381 77 H36F+GV90453B** 18,000 13,200 11.50 13.00 527364 77 NOTES: 1.) Seasonal Energy Efficiency Ratio 2.) Energy Efficiency Ratio @ 80 °F/67 °F Inside - 95 °F 3.) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. 4.) Note: XX of A Model Designate Electric Heat Quantity. 5.) EEP - Order from Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. 33 PRODUCT SPECIFICATIONS CLJ Performance Ratings (cont.) Condenser Evaporator Model Total BTUH Sensible BTUH E E R S E E R ARI Ref. # D e c i b e l CLJ24-1* AC24-XX 21,200 15,700 10.00 11.50 467511 73 AC30-XX 23,200 17,200 10.50 12.00 467521 73 ACHP2423-1 21,200 15,700 10.00 11.50 467502 73 ACHP3028-1 22,400 16,600 10.50 12.00 467516 73 AEPT030-00*-1* 24,000 17,700 11.50 13.00 517500 73 AH30 22,400 16,600 10.50 12.00 467515 73 ARPF024-00B-1* 22,800 16,800 10.00 11.30 517532 73 ARPF036-00B-1* 23,400 17,270 10.50 12.00 517518 73 ARPT024-00*-1* 22,800 16,800 10.00 11.30 517506 73 ARPT032-00*-1* 23,400 17,270 10.50 12.00 517527 73 ARUF024-00*-1* 22,800 16,800 10.00 11.30 517540 73 ARUF032-00*-1* 23,400 17,270 10.50 12.00 517583 73 AWB24-XX 22,800 16,800 10.50 12.00 467513 73 AWB30-XX 22,800 16,800 10.50 12.00 467510 73 CA*F024*2*+EEP 22,600 16,800 10.00 11.30 505284 73 CA*F030*2*+G*V80703B** 23,400 17,270 11.50 13.00 520840 73 CA*F036*2*+EEP 23,000 17,000 10.50 12.00 503449 73 CA*F037*2*+EEP 23,400 17,270 10.50 12.00 521423 73 CA*F042*2*+G*V80703B** 23,400 17,270 11.50 13.00 520839 73 CA*F042*2*+G*V90704C** 23,400 17,270 11.50 13.00 503450 73 CHPF024A2*+EEP 22,600 16,800 10.00 11.30 503454 73 CHPF030A2*+EEP 23,400 17,270 10.50 12.00 503455 73 CHPF030A2*+G*V80703B** 23,400 17,270 11.50 13.00 520916 73 CHPF042B2*+G*V80703B** 23,400 17,270 11.50 13.00 520915 73 CHPF042B2*+G*V90704C** 23,400 17,270 11.50 13.00 503458 73 H24F+EEP 22,600 16,800 10.00 11.30 467416 73 H36F+EEP 23,400 17,270 10.50 12.00 467413 73 H36F+GV80703B** 23,400 17,270 11.50 13.00 527379 73 H36F+GV90453B** 23,400 17,270 11.50 13.00 527390 73 NOTES: 1.) Seasonal Energy Efficiency Ratio 2.) Energy Efficiency Ratio @ 80 °F/67 °F Inside - 95 °F 3.) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. 4.) Note: XX of A Model Designate Electric Heat Quantity. 5.) EEP - Order from Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. 34 PRODUCT SPECIFICATIONS CLJ Performance Ratings (cont.) Condenser Evaporator Model Total BTUH Sensible BTUH E E R S E E R ARI Ref. # D e c i b e l CLJ30-1* AC30-XX 27,400 20,300 10.10 11.50 467575 73 AC36-XX 28,000 20,750 10.50 12.00 467587 73 ACHP3632-1 27,000 20,000 9.80 11.00 467578 73 AEPT030-00*-1* 29,000 21,500 11.00 12.50 517557 73 AEPT036-00*-1* 30,000 22,200 11.50 13.00 517605 73 AH30 26,400 19,550 10.00 11.50 467585 73 AH36 28,000 20,750 10.50 12.00 467673 73 ARPF036-00B-1* 28,000 20,750 10.50 12.00 517601 73 ARPT032-00*-1* 28,000 20,750 10.50 12.00 517617 73 ARUF030-00*-1* 27,000 20,000 9.80 11.00 517612 73 ARUF032-00*-1* 28,000 20,750 10.50 12.00 517597 73 AWB30-XX 27,000 20,000 9.80 11.00 467666 73 AWB36-XX 28,000 20,750 10.50 12.00 467672 73 CA*F030*2*+EEP 27,000 20,000 10.10 11.20 503463 73 CA*F030*2*+G*V80703B** 28,000 20,665 11.00 12.50 520923 73 CA*F036*2*+EEP 28,000 20,750 10.50 12.00 503466 73 CA*F037*2*+EEP 28,000 20,750 10.50 12.00 521424 73 CA*F042*2*+G*V80703B** 28,000 20,750 11.50 13.00 520925 73 CA*F042*2*+G*V90704C** 28,000 20,750 11.50 13.00 503467 73 CHPF030A2*+EEP 28,000 20,750 10.50 12.00 503473 73 CHPF030A2*+G*V80703B** 28,000 20,665 11.00 12.50 520926 73 CHPF042B2*+G*V80703B** 28,000 20,750 11.50 13.00 520922 73 CHPF042B2*+G*V90704C** 28,000 20,750 11.50 13.00 503476 73 H36F+EEP 28,000 20,750 10.50 12.00 467425 73 H36F+GV80703B** 28,000 20,750 11.00 12.50 527395 73 H36F+GV90704C** 28,000 20,750 11.50 13.00 527376 73 NOTES: 1.) Seasonal Energy Efficiency Ratio 2.) Energy Efficiency Ratio @ 80 °F/67 °F Inside - 95 °F 3.) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. 4.) Note: XX of A Model Designate Electric Heat Quantity. 5.) EEP - Order from Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. 35 PRODUCT SPECIFICATIONS CLJ Performance Ratings (cont.) Condenser Evaporator Model Total BTUH Sensible BTUH E E R S E E R ARI Ref. # D e c i b e l CLJ36-1* AC36-XX 33,600 24,900 9.80 11.00 503480 77 ACHP3632-1 33,000 24,500 9.80 11.00 503481 77 AEPT036-00*-1* 36,000 26,300 11.50 13.00 517571 77 AH36 35,400 26,200 10.50 12.00 503483 77 ARPF048-00B-1* 36,000 26,300 10.50 12.00 517580 77 ARPT036-00*-1* 34,000 24,500 10.00 11.20 517592 77 ARPT042-00*-1* 36,000 26,300 10.50 12.00 517611 77 ARUF036-00*-1* 34,000 24,500 10.00 11.20 517584 77 ARUF042-00*-1* 36,000 26,300 10.50 12.00 517553 77 AWB36-XX 36,000 26,300 10.50 12.00 503489 77 CA*F036*2*+EEP 34,000 24,500 10.00 11.20 503490 77 CA*F042*2*+EEP 36,000 26,300 10.50 12.00 503491 77 CA*F042*2*+G*V80703B** 36,000 26,300 11.00 12.50 520920 77 CA*F042*2*+G*V80905C** 36,000 26,300 11.50 13.00 520935 77 CA*F042*2*+G*V90704C** 36,000 26,300 11.00 12.50 503492 77 CA*F042*2*+G*V90905D** 36,000 26,300 11.50 13.00 503493 77 CA*F048*2*+EEP 36,000 26,300 10.50 12.00 503496 77 CA*F048*2*+G*V81155C** 36,000 26,300 11.50 13.00 520941 77 CA*F049*2*+G*V81155C** 36,000 26,300 11.50 13.00 520946 77 CA*F049*2*+G*V90905D** 36,000 26,300 11.50 13.00 503497 77 CA*F049*2*+G*V91155D** 36,000 26,300 11.50 13.00 503498 77 CHPF030A2*+EEP 34,000 24,500 10.00 11.20 503505 77 CHPF042B2*+G*V80703B** 36,000 26,300 11.00 12.50 520937 77 CHPF042B2*+G*V90704C** 36,000 26,300 11.00 12.50 503507 77 CHPF042B2A+EEP 36,000 26,300 10.50 12.00 503506 77 CHPF048C2*+EEP 36,000 26,300 10.50 12.00 530825 77 CHPF048D2*+G*V80905C** 36,000 26,300 11.50 13.00 520936 77 CHPF048D2*+G*V81155C** 36,000 26,300 11.50 13.00 520942 77 CHPF048D2*+G*V90905D** 36,000 26,300 11.50 13.00 503508 77 CHPF048D2*+G*V91155D** 36,000 26,300 11.50 13.00 518830 77 H36F+EEP 34,000 24,500 10.00 11.20 503515 77 H49F+EEP 36,000 26,300 10.50 12.00 503516 77 H49F+G*V80905C** 36,000 26,300 11.50 13.00 527392 77 H49F+G*V90905D** 36,000 26,300 11.50 13.00 527384 77 CLJ42-1* AEPT060-00*-1* 41,000 30,700 11.50 13.00 517550 77 ARPF048-00B-1* 40,500 30,200 10.50 12.00 517606 77 ARPT042-00*-1* 39,500 29,500 10.00 11.30 517556 77 ARPT049-00*-1* 40,500 30,200 10.50 12.00 517608 77 ARUF042-00*-1* 39,500 29,500 10.00 11.30 517570 77 ARUF048-00*-1* 40,000 30,000 10.10 11.50 517573 77 ARUF049-00*-1* 40,500 30,200 10.50 12.00 517559 77 CA*F042*2*+EEP 39,000 29,200 10.00 11.30 503530 77 CA*F060*2*+EEP 40,500 30,200 10.50 12.00 503531 77 CA*F060*2*+G*V80905C** 40,000 30,000 11.50 13.00 520944 77 CA*F060*2*+G*V90905D** 40,000 30,000 11.00 12.50 503532 77 CA*F061*2*+G*V81155C** 41,000 30,700 11.50 13.00 520965 77 CA*F061*2*+G*V91155D** 41,000 30,700 11.50 13.00 503533 77 CHPF048D2*+EEP 40,000 30,000 10.50 12.00 503540 77 CHPF048D2*+G*V80905C** 40,000 30,000 11.50 13.00 520960 77 CHPF048D2*+G*V90905D** 40,000 30,000 11.00 12.50 503541 77 CHPF060D2*+G*V81155C** 41,000 30,700 11.50 13.00 520969 77 CHPF060D2*+G*V91155D** 41,000 30,700 11.50 13.00 503542 77 H49F+EEP 39,000 29,200 10.00 11.30 468541 77 H60F+EEP 40,500 30,200 10.50 12.00 468553 77 H60F+G*V80905C** 41,000 30,700 11.50 13.00 527397 77 H60F+G*V90905D** 41,000 30,700 11.50 13.00 527389 77 36 PRODUCT SPECIFICATIONS CLJ Condenser Evaporator Model Total BTUH Sensible BTUH E E R S E E R ARI Ref. # D e c i b e l CLJ48-1* AEPT060-00*-1* 46,000 34,300 11.50 13.00 517561 80 ARPF048-00B-1* 45,000 32,800 10.50 12.00 517599 80 ARPT049-00*-1* 45,000 32,800 10.50 12.00 517577 80 ARUF048-00*-1* 44,000 31,800 10.00 11.30 517595 80 ARUF049-00*-1* 45,000 32,800 10.50 12.00 517602 80 CA*F060*2*+EEP 45,000 32,800 10.50 12.00 503553 80 CA*F061*2*+EEP 47,000 34,300 10.50 12.00 503555 80 CA*F061*2*+G*V80905C** 47,000 34,300 11.00 12.50 520968 80 CA*F061*2*+G*V81155C** 47,000 34,300 11.00 12.50 520971 80 CA*F061*2*+G*V90905D** 47,000 34,300 11.00 12.50 503556 80 CA*F061*2*+G*V91155D** 47,000 34,300 11.00 12.50 503557 80 CHPF048D2*+EEP 45,000 32,800 10.50 12.00 503563 80 CHPF060D2*+EEP 47,000 34,300 10.50 12.00 503564 80 CHPF060D2*+G*V80905C** 47,000 34,300 11.00 12.50 520964 80 CHPF060D2*+G*V81155C** 47,000 34,300 11.00 12.50 520962 80 CHPF060D2*+G*V90905D** 47,000 34,300 11.00 12.50 503565 80 CHPF060D2*+G*V91155D** 47,000 34,300 11.00 12.50 503566 80 H60F+EEP 45,000 32,800 10.50 12.00 503573 80 H61F+EEP 47,000 34,300 10.50 12.00 503574 80 H61F+G*V80905C** 47,000 34,300 11.00 12.50 527382 80 H61F+G*V90905D** 47,000 34,300 11.00 12.50 527367 80 CLJ60-1* AEPT060-00*-1* 54,000 40,500 10.80 12.30 517614 80 ARPF060-00B-1* 56,000 42,000 10.50 12.00 517575 80 ARPT061-00*-1* 56,000 42,000 10.50 12.00 517582 80 ARUF060-00*-1* 53,000 39,500 10.00 11.30 517560 80 ARUF061-00*-1* 56,000 42,000 10.50 12.00 517563 80 CA*F060*2*+EEP 53,000 39,500 10.00 11.30 503593 80 CA*F061*2*+EEP 55,000 41,200 10.50 12.00 503594 80 CA*F061*2*+G*V80905C** 55,000 40,150 10.80 12.30 520952 80 CA*F061*2*+G*V81155C** 55,000 40,150 10.80 12.30 520970 80 CA*F061*2*+G*V90905D** 55,000 40,150 10.80 12.20 520827 80 CA*F061*2*+G*V91155D** 55,000 41,200 10.80 12.20 503595 80 CHPF060D2*+EEP 55,000 41,200 10.50 12.00 503600 80 CHPF060D2*+G*V80905C** 55,000 40,150 10.80 12.30 520949 80 CHPF060D2*+G*V81155C** 55,000 40,150 10.80 12.30 520955 80 CHPF060D2*+G*V90905D** 55,000 40,150 10.80 12.20 520829 80 CHPF060D2*+G*V91155D** 55,000 41,200 10.80 12.20 503601 80 H60F+EEP 53,000 39,500 10.00 11.30 503605 80 H61F+EEP 55,000 41,200 10.50 12.00 503606 80 H61F+G*V81155C** 55,000 40,150 10.80 12.30 527388 80 H61F+G*V91155D** 55,000 40,150 10.80 12.30 527368 80 Performance Ratings (cont.) NOTES: 1.) Seasonal Energy Efficiency Ratio 2.) Energy Efficiency Ratio @ 80 °F/67 °F Inside - 95 °F 3.) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. 4.) Note: XX of A Model Designate Electric Heat Quantity. 5.) EEP - Order from Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. 37 PRODUCT SPECIFICATIONS FORMED INTO BOTTOM PAN ELEVATED CHANNEL ADDITIONAL 1-1/2" LIQUID CONN. MEDIUM CHASSIS = 29" CLT24 = 25" CLT36 = 30" 7/8" DIA. CONTROL CLT30 = 30" 1-1/8" DIA. POWER SUCTION CONN. MEDIUM CHASSIS = 29" CLT48 = 40" CLT60 = 40" CLT42 = 37.5” Dimensions CLT Specifications Model Service Valve Type Approximate Shipping Weight (pounds) Liquid Suction CLT24-1A/-1B 3/8” 3/4” Sweat 173 CLT30-1A/-1B 3/8” 3/4” Sweat 208 CLT36-1A/-1B 3/8” 3/4” Sweat 209 CLT36-1C 3/8” 3/4” Sweat 195 CLT42-1A/-1B 3/8” 7/8” Sweat 258 CLT48-1A/-1B 3/8” 7/8” Sweat 270 CLT60-1/-1B 3/8” 7/8” Sweat 271 NOTE: The -*B models are painted in Architectural Gray. All other models are painted in Bahama Beige. Electrical Data Model Volts PH Minimum Circuit Ampacity 1 Maximum Maximum Volts Minimum Volts Compressor Condenser Fan RLA LRA FLA HP CLT24-1A/-1B 208/230 1 12.9 20 253 197 9.6 45 0.9 1 /6 CLT30-1A/-1B 208/230 1 16.4 20 253 197 12.2 63 1.1 1 /6 CLT36-1A/-1B 208/230 1 20.1 30 253 197 14.8 83 1.6 ¼ CLT36-1C 208/230 1 19.6 30 253 197 14.4 77 1.6 ¼ CLT42-1A/-1B 208/230 1 22.4 30 253 197 16.6 95 1.6 ¼ CLT48-1A/-1B 208/230 1 24.1 40 253 197 18.0 104 1.6 ¼ CLT60-1/-1B 208/230 1 29.2 50 253 197 22.1 137 1.6 ¼ 1) Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. 2) May use fuses or HACR type Circuit Breakers of the same size as noted. 38 PRODUCT SPECIFICATIONS CLT Performance Ratings Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CLT24-1* AC24-XX 21,000 15,500 12 10.5 503821 74 AWB24-XX 22,000 16,500 12 10.5 503827 AWB36-XX 22,000 16,500 13 11.5 503828 CA*F030*2*+EEP 21,000 15,500 12 10.5 503829 CA*F036*2*+EEP 22,000 16,500 13 11.5 503832 CA*F042*2*+G*V90704C** 22,400 16,800 14 12.5 503833 CA*F048*2*+EEP 22,400 16,800 13 11.5 503834 CHPF024A2*+EEP 21,000 15,500 12 10.5 503839 CHPF030A2*+EEP 22,000 16,500 13 11.5 503840 CHPF036B2*+EEP 22,400 16,800 13 11.5 503843 CHPF042B2*+G*V90704C** 22,400 16,800 14 12.5 503844 H24F+EEP 21,000 15,500 12 10.5 503850 H36F+EEP 22,000 16,500 13 11.5 503851 H49F+EEP 22,400 16,800 13 11.5 503853 ARUF024-00*-1* 21,000 15,500 12 10.5 517555 ARPT024-00*-1* 21,000 15,500 12 10.5 517558 ARUF032-00*-1* 22,000 16,500 13 11.5 517565 ARPT032-00*-1* 22,000 16,500 13 11.5 517566 AEPT030-00*-1* 22,400 16,800 14 12.5 517567 H36F+GV90453B** 22,000 16,500 14 12.5 527372 CA*F042*2*+G*V80704B** 22,400 16,800 14 12.5 551577 CHPF042B2*+G*V80704B** 22,400 16,800 14 12.5 551581 H36F+GV80704B** 22,000 16,500 14 12.5 551587 CA*F030*2*+G*V80704B** 22,000 16,500 14 12.5 551588 CHPF030A2*+G*V80704B** 22,000 16,500 14 12.5 551593 CLT30-1* AC30-XX 26,000 19,250 12.6 11 503863 74 AWB30-XX 25,600 18,950 12 10.5 503870 AWB36-XX 26,000 19,250 12.5 11 503871 CA*F030*2*+EEP 26,600 20,100 13 11.5 503872 CA*F042*2*+EEP 27,000 20,250 13 11.5 503875 CA*F042*2*+G*V90704C** 27,000 20,250 14 12.5 503876 CHPF030A2*+EEP 26,600 20,100 13 11.5 503881 CHPF036B2*+EEP 27,000 20,250 13 11.5 503884 CHPF042B2*+G*V90704C** 27,000 20,250 14 12.5 503885 H36F+EEP 26,600 20,100 13 11.5 503890 H49F+EEP 28,400 21,300 13 11.5 503891 ARPT032-00*-1* 26,600 20,100 13 11.5 517564 AEPT036-00*-1* 28,000 21,000 14 12.5 517585 ARPT036-00*-1* 26,000 19,250 12.5 11 517588 ARUF030-00*-1* 25,600 18,950 12 10.5 517598 ARUF036-00*-1* 26,000 19,250 12.5 11 517600 ARUF032-00*-1* 26,600 20,100 13 11.5 517615 H49F+G*V90704C** 27,000 20,250 14 12.5 527370 CHPF042B2*+EEP 28,400 21,300 13 11.5 535499 H49F+G*V80704B** 27,000 20,250 14 12.5 551574 CHPF042B2*+G*V80704B** 27,000 20,250 14 12.5 551575 CA*F042*2*+G*V80704B** 27,000 20,250 14 12.5 551578 CA*F030*2*+G*V80704B** 27,000 20,250 14 12.5 551580 CHPF030A2*+G*V80704B** 27,000 20,250 14 12.5 551584 NOTES: 1) Seasonal Energy Efficiency Ratio 2) Energy Efficiency Ratio @ 80 °F/67 °F Inside - 95 °F 3) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. 4) Note: XX of a model designates Electric Heat Quantity. 5) EEP - Order From Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. 39 PRODUCT SPECIFICATIONS CLT Performance Ratings (cont.) Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CLT36-1* AWB36-XX 34,000 23,800 12 11 503907 74 CA*F036*2*+EEP 34,000 23,800 12 10.5 503908 CA*F042*2*+EEP 35,000 24,800 12.5 11 503909 CA*F048*2*+EEP 36,000 26,200 13 11.5 503910 CA*F048*2*+G*V90905D** 36,000 26,200 14 12.5 503911 CA*F048*2*+G*V91155D** 36,000 26,200 14 12.5 503912 CHPF036B2*+EEP 33,800 23,660 12.5 11 503919 CHPF048D2*+EEP 36,000 26,200 13 11.5 503920 CHPF048D2*+G*V90905D** 36,000 26,200 14 12.5 503921 CHPF048D2*+G*V91155D** 36,000 26,200 14 12.5 503922 H49F+EEP 35,000 24,800 12.5 11 503929 H60F+EEP 36,000 26,200 13 11.5 503930 H61F+EEP 36,000 26,200 13 11.5 503933 ARPT049-00*-1* 36,000 26,200 13 11.5 517549 ARUF042-00*-1* 35,000 24,800 12.5 11 517551 AEPT036-00*-1* 36,000 26,200 14 12.5 517576 ARUF048-00*-1* 36,000 26,200 13 11.5 517581 ARPT036-00*-1* 34,000 23,800 12 10.5 517591 ARUF036-00*-1* 34,000 23,800 12 10.5 517616 CHPF048D2*+G*V80905C** 36,000 26,200 14 12.5 521163 CA*F048*2*+G*V80905C** 36,000 26,200 14 12.5 521164 CHPF048D2*+G*V81155C** 36,000 26,200 14 12.5 521166 CA*F048*2*+G*V81155C** 36,000 26,200 14 12.5 521172 AC36-XX 33,800 23,660 12 10.5 521646 H60F+G*V90905D** 36,000 26,200 14 12.5 527385 H60F+G*V80905C** 36,000 26,200 14 12.5 527394 CLT42-1* CA*F042*2*+EEP 39,000 28,000 12 10.5 503950 74 CA*F060*2*+EEP 40,000 29,000 12.5 11 503951 CA*F061*2*+EEP 41,000 30,000 13 11.5 503952 CA*F061*2*+G*V90905D** 41,000 30,000 14 12.5 503953 CA*F061*2*+G*V91155D** 41,000 30,000 14 12.5 503954 CHPF042B2A+EEP 39,000 28,000 12 10.5 503961 CHPF048D2*+EEP 40,000 29,000 12.5 11 503962 CHPF060D2*+EEP 41,000 30,000 13 11.5 503963 CHPF060D2*+G*V90905D** 41,000 30,000 14 12.5 503964 CHPF060D2*+G*V91155D** 41,000 30,000 14 12.5 503965 H49F+EEP 39,000 28,000 12 10.5 503973 H60F+EEP 40,000 29,000 12.5 11 503974 H61F+EEP 41,000 30,000 13 11.5 503975 AEPT060-00*-1* 41,000 30,000 14 12.5 517552 ARPT049-00*-1* 41,000 30,000 13 11.5 517618 ARUF048-00*-1* 40,000 29,000 12.5 11 517620 ARUF042-00*-1* 39,000 28,000 12 10.5 517623 ARPT042-00*-1* 39,000 29,000 12 10.5 517631 ARUF049-00*-1* 41,000 30,000 13 11.5 517633 CA*F061*2*+G*V80905C** 41,000 30,000 14 12.5 521173 CA*F061*2*+G*V81155C** 41,000 30,000 14 12.5 521183 CHPF060D2*+G*V80905C** 41,000 30,000 14 12.5 521192 CHPF060D2*+G*V81155C** 41,000 30,000 14 12.5 521194 NOTES: 1) Seasonal Energy Efficiency Ratio 2) Energy Efficiency Ratio @ 80 °F/67 °F Inside - 95 °F 3) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. 4) Note: XX of a model designates Electric Heat Quantity. 5) EEP - Order From Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. 40 PRODUCT SPECIFICATIONS CLT Performance Ratings (cont.) Condenser Evaporator Model Total BTUH Sensible BTUH SEER EER ARI Ref. # Decibel CLT48-1* CA*F048*2*+EEP 43,000 31,000 12.5 11 503996 74 CA*F060*2*+EEP 44,000 33,000 12.5 11 503997 CA*F061*2*+EEP 45,000 33,700 13 11.5 503998 CA*F061*2*+G*V90905D** 45,000 33,700 13.5 12 503999 CA*F061*2*+G*V91155D** 45,000 33,700 13.5 12 504000 CHPF048D2*+EEP 44,000 33,000 12.5 11 504007 CHPF060D2*+EEP 45,000 33,700 13 11.5 504008 CHPF060D2*+G*V90905D** 45,000 33,700 13.5 12 504009 CHPF060D2*+G*V91155D** 45,000 33,700 13.5 12 504010 H49F+EEP 43,000 31,000 12.5 11 504017 H60F+EEP 44,000 33,000 12.5 11 504018 H61F+EEP 45,000 33,700 13 11.5 504019 ARUF049-00*-1* 44,000 33,000 13 11.5 517622 ARUF048-00*-1* 43,500 32,000 12.5 11 517624 ARPT049-00*-1* 44,000 33,000 13 11.5 517628 AEPT060-00*-1* 44,500 33,400 13.5 12 517634 CHPF060D2*+G*V81155C** 45,000 33,700 13.5 12 521184 CHPF060D2*+G*V80905C** 45,000 33,700 13.5 12 521186 CA*F061*2*+G*V81155C** 45,000 33,700 13.5 12 521191 CA*F061*2*+G*V80905C** 45,000 33,700 13.5 12 521197 H61F+G*V91155D** 45,000 33,700 13.5 12 527374 H61F+G*V81155C** 45,000 33,700 13.5 12 527378 CLT60-1* CA*F061*2*+EEP 52,000 39,700 13 11.5 504037 74 CA*F061*2*+G*V91155D** 53,000 40,200 13.3 11.8 504038 CHPF060D2*+EEP 52,000 39,700 13 11.5 504042 CHPF060D2*+G*V91155D** 53,000 40,200 13.3 11.8 504043 H61F+EEP 52,000 39,700 13 11.5 504047 AEPT060-00*-1* 53,000 40,200 13 11.8 517619 ARUF060-00*-1* 52,000 39,700 12 10.5 517629 ARPT061-00*-1* 53,000 40,200 12.5 11 517630 ARUF061-00*-1* 53,000 40,200 12.5 11 517632 CHPF060D2*+G*V90905D** 53,000 40,200 13.3 11.8 520816 CA*F061*2*+G*V90905D** 53,000 40,200 13.3 11.8 520826 CHPF060D2*+G*V80905C** 53,000 40,200 13.3 11.8 521175 CA*F061*2*+G*V81155C** 53,000 40,200 13.3 11.8 521178 CA*F061*2*+G*V80905C** 53,000 40,200 13.3 11.8 521179 CHPF060D2*+G*V81155C** 53,000 40,200 13.3 11.8 521189 H61F+G*V91155D** 53,000 40,200 13.3 11.8 527365 H61F+G*V81155C** 53,000 40,200 13.3 10.78 527377 NOTES: 1) Seasonal Energy Efficiency Ratio 2) Energy Efficiency Ratio @ 80 °F/67 °F Inside - 95 °F 3) When matching the outdoor unit to the indoor unit, use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit. 4) Note: XX of a model designates Electric Heat Quantity. 5) EEP - Order From Service Dept. Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. The Goodman Gas Furnace contains the EEP cooling time delay. 41 PRODUCT SPECIFICATIONS CRT FORMED INTO BOTTOM PAN ELEVATED CHANNEL ADDITIONAL 1 -1/2" LIQUID CONN. 29" CRT24 = 25" CRT36 = 30" 7/8" DIA. CONTROL CRT30 = 30" 1-1/8" DIA. POWER SUCTION CONN. 29" CRT48 = 40" CRT60 = 40" CRT42 = 37.5” SPECIFICATIONS DIMENSIONS CRT18-1 CRT24-1 CRT24-1A CRT30-1 CRT36-1 CRT36-1A CRT42-1 CRT48-1 CRT60-1 Capacities Nominal Cooling (BTU/h) 19,000 22,400 23,000 28,000 36,000 36,000 41,000 45,000 53,000 SEER 13 13 13 13 13 13 13 13 13 Decibels 78 74 78 74 74 74 74 74 74 Compressor RLA 6.2 9.6 7.7 12.2 14.8 14.8 16.6 18 22.1 LRA 35 45 40 63 83 83 95 104 137 Condenser Fan Motor Horsepower 1 /6 1 /6 1 /6 1 /6 ¼ ¼ ¼ ¼ ¼ FLA 1.5 0.9 1.5 1.1 1.6 1.6 1.6 1.6 1.6 Refrigeration System Liquid Valve Size (“O.D.) Ǫ” Ǫ” Ǫ” Ǫ” Ǫ” Ǫ” Ǫ” Ǫ” Ǫ” Suction Valve Size (“O.D.) ¾” ¾” ¾” ¾” ¾” ¾” Ǭ” Ǭ” Ǭ” Valve Type Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Refrigerant Charge 94 99 102 107 140.12 140.12 125 145 139.13 Shipped with Orifice Size 0.055 0.055 0.059 0.065 0.074 0.074 0.080 0.082 0.088 Electrical Data Voltage-Hz / Phase 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 Min. Circuit Ampacity 1 9.3 12.9 11.2 16.4 20.1 20.1 22.4 24.1 29.2 MOD* (amps) 2 15 20 20 20 30 30 30 40 50 Min / Max Volts 197/253 197/253 197/253 197/253 197/253 197/253 197/253 197/253 197/253 Power Supply Conduit Size ¾” ¾” ¾” ¾” ¾” ¾” ¾” ¾” ¾” Ship Weight (lbs) 173 173 208 208 209 195 258 270 271 Notes: 1 Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. 2 May use fuses or HACR-type circuit breakers of the same size as noted. * Maximum Overcurrent Device 15 42 PRODUCT SPECIFICATIONS CRT PERFORMANCE RATINGS Condenser Indoor Model Total BTU/h Sensible BTU/h SEER¹ EER² ARI Ref. # dBs CRT18-1* AC18-XX / ACNF18XX1A* 18,000 13,500 13 11.5 798615 78 AEPT030-00*-1* 19,000 14,250 14 12.2 798610 ARPF036-00B-1* 19,000 14,250 13 11.5 823883 ARPT032-00*-1* 19,000 14,250 13 11.5 823880 ARUF032-00*-1* 19,000 14,250 13 11.5 823885 AWB24-XX 18,000 13,500 13 11.5 798612 AWUF18XX1A* 18,000 13,500 13 11.5 798613 CA*F030*2*+EEP 19,000 14,250 13 11.5 823881 CA*F030*2*+G*V80704B** 19,000 14,250 14 12.2 798617 CA*F030*2*+G*V90704C** 19,000 14,250 14 12.2 798614 CHPF030A2*+EEP 19,000 14,250 13 11.5 823878 CHPF042B2*+G*V80704B** 19,600 14,700 14 12.2 798611 CHPF042B2*+G*V90704C** 19,600 14,700 14 12.2 823879 H36F+EEP 19,000 14,250 13 11.5 798616 H36F+G*V80704B** 19,000 14,250 14 12.2 823884 H36F+G*V90704C** 19,000 14,250 14 12.2 823882 CRT24-1 AC24-XX 21,000 15,500 12 10.5 539687 76 AEPT030-00*-1* 22,400 16,800 14 12.5 539795 ARPT024-00*-1* 21,000 15,500 12 10.5 539712 ARPT032-00*-1* 22,000 16,500 13 11.5 539710 ARUF024-00*-1* 21,000 15,500 12 10.5 539814 ARUF032-00*-1* 22,000 16,500 13 11.5 539784 AWB24-XX 22,000 16,500 12 10.5 539772 AWB36-XX 22,000 16,500 13 11.5 539794 CA*F030*2*+EEP 21,000 15,500 12 10.5 539323 CA*F030*2*+G*V80704B** 22,000 16,200 14 12.5 551600 CA*F037*2*+EEP 22,000 16,500 13 11.5 539334 CA*F042*2*+G*V80704B** 22,400 16,800 14 12.5 551586 CA*F042*2*+G*V90704C** 22,400 16,800 14 12.5 539819 CA*F048*2*+EEP 22,400 16,800 13 11.5 539332 CHPF024A2*+EEP 21,000 15,500 12 10.5 539322 CHPF030A2*+EEP 22,000 16,500 13 11.5 539327 CHPF030A2*+G*V80704B** 22,000 16,500 14 12.5 551602 CHPF036B2*+EEP 22,400 16,800 13 11.5 539335 CHPF042B2*+G*V80704B** 22,400 16,800 14 12.5 551576 CHPF042B2*+G*V90704C** 22,400 16,800 14 12.5 539703 H24F+EEP 21,000 15,500 12 10.5 539319 H36F+EEP 22,000 16,500 13 11.5 539321 H36F+G*V80704B** 22,000 16,500 14 12.5 551568 H36F+GV90453B** 22,000 16,500 14 12.5 539722 H49F+EEP 22,400 16,800 13 11.5 539325 43 PRODUCT SPECIFICATIONS CRT PERFORMANCE RATINGS (CONT.) Condenser Indoor Model Total BTU/h Sensible BTU/h SEER¹ EER² ARI Ref. # dBs CRT24-1* AEPT030-00*-1* 23,600 17,700 14 12.2 830395 78 ARPT032-00*-1* 23,000 17,250 13 11.5 830401 ARUF032-00*-1* 23,000 17,250 13 11.5 830400 AWB36-XX 23,000 17,250 13 11.5 830396 CA*F030*2*+EEP 23,000 17,250 13 11.5 830404 CA*F030*2*+G*V80704B** 23,000 17,250 14 12.2 830412 CA*F030*2*+G*V90704C** 23,000 17,250 14 12.2 830405 CA*F037*2*+EEP 23,400 17,550 13 11.5 830411 CA*F037*2*+G*V80704B** 23,400 17,550 14 12.2 830409 CA*F037*2*+G*V90704C** 23,400 17,550 14 12.2 830406 CA*F042*2*+EEP 23,600 17,700 13 11.5 830408 CHPF030A2*+EEP 23,000 17,250 13 11.5 830397 CHPF030A2*+G*V80704B** 23,000 17,250 14 12.2 830403 CHPF042B2*+G*V80704B** 23,400 17,550 14 12.2 830410 CHPF042B2*+G*V90704C** 23,400 17,550 14 12.2 830399 H36F+EEP 23,000 17,250 13 11.5 830398 H36F+G*V90704C** 23,000 17,250 14 12.2 830394 H36F+GV80704B** 23,000 17,250 14 12.2 830407 H49F+EEP 23,600 17,700 13 11.5 830402 CRT30-1* AC30-XX 26,000 19,250 12.6 11 539689 76 AEPT036-00*-1* 28,000 21,000 14 12.5 539698 ARPT032-00*-1* 26,600 20,100 13 11.5 539756 ARPT036-00*-1* 26,000 19,250 12.5 11 539695 ARUF030-00*-1* 25,600 18,950 12 10.5 539783 ARUF032-00*-1* 26,600 20,100 13 11.5 539732 ARUF036-00*-1* 26,000 19,250 12.5 11 539734 AWB30-XX 25,600 18,950 12 10.5 539728 AWB36-XX 26,000 19,250 12.5 11 539770 CA*F030*2*+EEP 26,600 20,100 13 11.5 539337 CA*F030*2*+G*V80704B** 27,000 20,400 14 12.5 551567 CA*F042*2*+EEP 27,000 20,250 13 11.5 539330 CA*F042*2*+G*V80704B** 27,000 20,250 14 12.5 551598 CA*F042*2*+G*V90704C** 27,000 20,250 14 12.5 539705 CHPF030A2*+EEP 26,600 20,100 13 11.5 539333 CHPF030A2*+G*V80704B** 27,000 20,400 14 12.5 551579 CHPF036B2*+EEP 27,000 20,250 13 11.5 539320 CHPF042B2*+EEP 28,400 21,300 13 11.5 539329 CHPF042B2*+G*V80704B** 27,000 20,250 14 12.5 551592 CHPF042B2*+G*V90704C** 27,000 20,250 14 12.5 539803 H36F+EEP 26,600 20,100 13 11.5 539331 H49F+EEP 28,400 21,300 13 11.5 539326 H49F+G*V80704B** 27,000 20,250 14 12.5 551596 H49F+G*V90704C** 27,000 20,250 14 12.5 539740 44 PRODUCT SPECIFICATIONS CRT PERFORMANCE RATINGS (CONT.) Condenser Indoor Model Total BTU/h Sensible BTU/h SEER¹ EER² ARI Ref. # dBs CRT36-1* AC36-XX 33,800 23,600 12 10.5 539749 76 AEPT036-00*-1* 36,000 26,200 14 12.5 539684 ARPT036-00*-1* 34,000 23,800 12 10.5 539715 ARPT049-00*-1* 36,000 26,200 13 11.5 539796 ARUF036-00*-1* 34,000 23,800 12 10.5 539778 ARUF042-00*-1* 35,000 24,800 12.5 11 539729 ARUF048-00*-1* 36,000 26,200 13 11.5 539804 AWB36-XX 34,000 23,800 12 11 539713 CA*F036*2*+EEP 34,000 23,800 12 10.5 539336 CA*F042*2*+EEP 35,000 24,800 12.5 11 539324 CA*F048*2*+EEP 36,000 26,200 13 11.5 539760 CA*F048*2*+G*V80905C** 36,000 26,200 14 12.5 539686 CA*F048*2*+G*V81155C** 36,000 26,200 14 12.5 539747 CA*F048*2*+G*V90905D** 36,000 26,200 14 12.5 539725 CA*F048*2*+G*V91155D** 36,000 26,200 14 12.5 539748 CHPF036B2*+EEP 33,800 23,660 12.5 11 539328 CHPF048D2*+EEP 36,000 26,200 13 11.5 539721 CHPF048D2*+G*V80905C** 36,000 26,000 14 12.5 539706 CHPF048D2*+G*V91155D** 36,000 26,200 14 12.5 539818 H49F+EEP 35,000 24,800 12.5 11 539805 H60F+EEP 36,000 26,200 13 11.5 539766 H60F+G*V80905C** 36,000 26,200 14 12.5 539738 H60F+G*V90905D** 36,000 26,200 14 12.5 539812 H61F+EEP 36,000 26,200 13 11.5 539811 CRT42-1* AEPT060-00*-1* 41,000 30,000 14 12.5 539753 76 ARPT042-00*-1* 39,000 28,000 12 10.5 539817 ARPT049-00*-1* 41,000 30,000 13 11.5 539759 ARUF042-00*-1* 39,000 28,000 12 10.5 539768 ARUF048-00*-1* 40,000 29,000 12.5 11 539755 ARUF049-00*-1* 41,000 30,000 13 11.5 539692 CA*F042*2*+EEP 39,000 28,000 12 10.5 539696 CA*F060*2*+EEP 40,000 29,000 12.5 11 539739 CA*F061*2*+EEP 41,000 30,000 13 11.5 539767 CA*F061*2*+G*V80905C** 41,000 30,000 14 12.5 539691 CA*F061*2*+G*V81155C** 41,000 30,000 14 12.5 539724 CA*F061*2*+G*V90905D** 41,000 30,000 14 12.5 539799 CA*F061*2*+G*V91155D** 41,000 30,000 14 12.5 539791 CHPF042B2A+EEP 39,000 28,000 12 10.5 539700 CHPF048D2*+EEP 40,000 29,000 12.5 11 539779 CHPF060D2*+EEP 41,000 30,000 13 11.5 539697 CHPF060D2*+G*V80905C** 41,000 30,000 14 12.5 539769 CHPF060D2*+G*V81155C** 41,000 30,000 14 12.5 539789 CHPF060D2*+G*V90905D** 41,000 30,000 14 12.5 539714 45 PRODUCT SPECIFICATIONS CRT PERFORMANCE RATINGS (CONT.) Condenser Indoor Model Total BTU/h Sensible BTU/h SEER¹ EER² ARI Ref. # dBs CRT42-1* (cont.) CHPF060D2*+G*V91155D** 41,000 30,000 14 12.5 539781 76 H49F+EEP 39,000 28,000 12 10.5 539777 H60F+EEP 40,000 29,000 12.5 11 539744 H61F+EEP 41,000 30,000 13 11.5 539816 CRT48-1* AEPT060-00*-1* 44,500 33,400 13.5 12 539785 76 ARPT049-00*-1* 44,000 33,000 13 11.5 539730 ARUF048-00*-1* 43,500 32,000 12.5 11 539727 ARUF049-00*-1* 44,000 33,000 13 11.5 539720 CA*F048*2*+EEP 43,000 31,000 12.5 11 539774 CA*F060*2*+EEP 44,000 33,000 12.5 11 539718 CA*F061*2*+EEP 45,000 33,700 13 11.5 539737 CA*F061*2*+G*V80905C** 45,000 33,700 13.5 12 539733 CA*F061*2*+G*V81155C** 45,000 33,700 13.5 12 539702 CA*F061*2*+G*V90905D** 45,000 33,700 13.5 12 539764 CA*F061*2*+G*V91155D** 45,000 33,700 13.5 12 539754 CHPF048D2*+EEP 44,000 33,000 12.5 11 539797 CHPF060D2*+EEP 45,000 33,700 13 11.5 539788 CHPF060D2*+G*V80905C** 45,000 33,700 13.5 12 539731 CHPF060D2*+G*V81155C** 45,000 33,700 13.5 12 539763 CHPF060D2*+G*V90905D** 45,000 33,700 13.5 12 539782 CHPF060D2*+G*V91155D** 45,000 33,700 13.5 12 539741 H49F+EEP 43,000 31,000 12.5 11 539786 H60F+EEP 44,000 33,000 12.5 11 539716 H61F+EEP 45,000 33,700 13 11.5 539743 H61F+G*V81155C** 45,000 33,700 13.5 12 539773 H61F+G*V91155D** 45,000 33,700 13.5 12 539758 CRT60-1* AEPT060-00*-1* 53,000 40,200 13 11.8 531546 76 ARPT061-00*-1* 53,000 40,200 12.5 11 531553 ARUF060-00*-1* 52,000 39,700 12 10.5 531539 ARUF061-00*-1* 53,000 40,200 12.5 11 532385 CA*F061*2*+EEP 52,000 39,700 13 11.5 531558 CA*F061*2*+G*V80905C** 53,000 40,200 13.3 11.8 531555 CA*F061*2*+G*V81155C** 53,000 40,200 13.3 11.8 531557 CA*F061*2*+G*V90905D** 53,000 40,200 13.3 11.8 531560 CA*F061*2*+G*V91155D** 53,000 40,200 13.3 11.8 531535 CHPF060D2*+EEP 52,000 39,700 13 11.5 531540 CHPF060D2*+G*V80905C** 53,000 40,200 13.3 11.8 531552 CHPF060D2*+G*V81155C** 53,000 40,200 13.3 11.8 531538 CHPF060D2*+G*V90905D** 53,000 40,200 13.3 11.8 531550 CHPF060D2*+G*V91155D** 53,000 40,200 13.3 11.8 531537 H61F+EEP 52,000 39,700 13 11.5 531534 H61F+G*V81155C** 53,000 40,200 13.3 11.8 531543 H61F+G*V91155D** 53,000 40,200 13.3 11.8 531561 46 PRODUCT SPECIFICATIONS TWC D ALTERNATE SUCTÌON & LÌQUÌD LÌNE KNOCKOUTS SERVÌCE GAUGE ACCESS HOLES LOW VOLTAGE ALTERNATE HÌGH & LOW VOLTAGE KNOCKOUTS 3/4" SUCTÌON & LÌQUÌD LÌNE KNOCKOUTS H HÌGH VOLTAGE W 3/8" 3K\VLFDO'DWD (OHFWULFDO'DWD 'LPHQVLRQV 1) Wire size should be determined in accordance with National llectrical Codes. lxtensive wire runs will require larger wire sizes. 2) Mav use fuses or HACR tvpe Circuit Breakers of the same size as noted. 3) 1he -1B models are painted Architectural Orav. All other models are painted Bahama Beige. hodeI NominaI CooIing Capacity (ßTUH) ( ) ( ) Service VaIve Compressor Condenser Fan Shipping Weight (pounds) Liquid Suction Connection Type yp PLA LPA Type HP FLA TWC18·1A/·18 18.000 J/8" J/4" Sweat 8.6 49 Peciprocating 1/4 1.2 185 TWC24·1/·18 24.000 J/8" J/4" Sweat 11.85 59 Scroll 1/4 1.2 185 TWCPJ0·1/·18 27.400 J/8" J/4" Sweat 1J.6 67 Scroll 1/4 1.2 190 hodeI hinimum Circuit Ampacity haximum Dvercurrent Protection (amps) ( p ) ( p ) VoItage-Phase hinimum VoIts haximum VoIts TWC18·1A/·18 12 20 208/2J0·1 197 25J TWC24·1/·18 16 20 208/2J0·1 197 25J TWCPJ0·1/·18 18.2 J0 208/2J0·1 197 25J hodeI Width 0epth Height TWC18·1A/·18 24" 18·J/4" J2" TWC24·1/·18 24" 18·J/4" J2" TWCPJ0·1/·18 24" 18·J/4" J2" 47 PRODUCT SPECIFICATIONS 1) Seasonal lnergv lfficiencv Ratio 2) lnergv lfficiencv Ratio · oO l/67 l lnside, 95 l outside 3) When matching the outdoor unit to the indoor unit, refer to the piston kit chart for proper piston selection. 1) 1he XX of a model number designates electric heat quantitv. 3HUIRUPDQFH5DWLQJV Condenser Evaporator Vodel Total 8TUH Sensible 8TUH SEEP EEP APÌ Pef. # 0ecibel TWC18·1/·18 AC18·XX 18.000 1J.000 10.0 9.0 50416J 75 ACHP1819·1 17.400 12.400 10.0 9.0 504157 75 AH2429·1 18.000 1J.000 10.0 9.0 504162 75 APUF018·00A·1 17.000 12.J00 10.0 9.0 504161 75 AW818·XX 17.400 12.400 10.0 9.0 2JJ774 75 CA*F018*2A+EEP 17.000 12.J00 10.0 9.0 467684 75 TWC24·1/·18 AC24·XX 2J.400 17.000 10.0 9.0 2JJ79J 7J ACJ0·XX 24.000 17.600 10.0 9.0 2JJ795 7J ACHJ0 2J.400 17.000 10.0 9.0 2JJ787 7J ACHPJ028·1 2J.400 17.000 10.0 9.0 292095 7J AHJ04J·1 2J.400 17.000 10.0 9.0 2JJ801 7J APUF024·00A·1 2J.000 16.800 10.0 9.0 461471 7J AW824·XX 2J.400 17.000 10.0 9.0 2JJ788 7J CA*F0J0*2A+EEP 24.000 17.600 10.0 9.0 467685 7J TWCJ0·1/·18 AEPT0J0·00A·1 27.400 20.200 10.0 9.0 461474 7J TWC 48 PRODUCT SPECIFICATIONS HDC ELECTRICAL DATA POWER SUPPLY COMPRESSOR COND. FAN MOTOR MODEL VOLTS PH HZ +MINIMUM CIRCUIT AMPACITY *MAXIMUM OVERCURRENT PROTECTION MAXIMUM VOLTS MINIMUM VOLTS RLA LRA FLA HP HDC12-1A 208/240 1 60 8.0 15 253 197 5.9 29 .6 1/15 HDC18-1A 208/240 1 60 14.2 20 253 197 10.9 60 .6 1/15 HDC24-1A 208/240 1 60 16.6 30 253 197 12.8 61 .6 1/15 *May use fuses or HACR type Circuit Breakers of the same size as noted. +Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. COOLING PERFORMANCE RATING MODEL 95F OD \ 80/67F ID BTUH OUTDOOR INDOOR TOTAL SENSIBLE KWI SEER Sound Rating Bels HDC12-1A WMC12-1A ARUF/AW18-XX 11,400 12,000 8,600 7,900 1.22 1.22 10 7.4 HDC18-1A WMC18-1A ARUF/AW18-XX ARUF/AW24-XX 16,800 16,600 17,400 13,200 13,000 13,700 1.80 1.83 1.91 10 7.4 HDC24-1A WMC24-1A ARUF24-XX AWM25F-KFAD 20,000 22,000 21,000 15,720 17,000 15,800 2.15 2.39 2.26 10 7.4 SEER = SEASONAL ENERGY EFFICIENCY RATIO KWI = COMPRESSOR + INDOOR BLOWER + OUTDOOR FAN WATTS OD = OUTDOOR DRY BULB TEMPERATURE -DEGREE F ID = INDOOR DRY BULB / WET BULB TEMPERATURE - DEGREE F PHYSICAL DATA ITEM HDC12-1A HDC18-1A HDC24-1A FAN DIAMETER 16” 18” 18” RPM 950 950 950 COIL FACE AREA FT 2 4.9 6.1 6.5 TUBE DIAMETER 3/8” 3/8” 3/8” NO. ROWS/FINS PER IN 19 19 19 NO. OF TUBES 16 20 20 FIN TYPE RIPPLED RIPPLED RIPPLED REFRIGERANT CONNECTION LIQUID DIAMETER 3/8” 3/8” 3/8” SUCTION DIAMETER 5/8” 5/8” 5/8” TYPE FLARE FLARE FLARE WEIGHT (pounds) 115 125 130 WIRING DIAGRAM - LINE VOLTAGE CONTROL CIRCUIT (TYPICAL WIRING FOR USE WITH DUCTLESS INDOOR SECTION) WIRING DIAGRAM - LOW VOLTAGE CONTROL CIRCUIT (TYPICAL WIRING FOR USE WITH DUCTED INDOOR SECTION *NOTE 24 VOLT CONTACTOR IS FIELD SUPPLIED DIMENSIONAL DATA NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE. 49 PRODUCT SPECIFICATIONS CPLE Electrical Data Specifications 1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes 2) May use fuses or HACR type Circuit Breakers of the same size as noted * With Crankcase Heat **Uses Scroll Compressor Model Nominal Cooling Capacity (BTUH) Nominal Heating Capacity (BTUH Service Valve Compressor Condenser Fan Shipping Weight (pounds) Liquid Suction Connection Type RLA LRA HP FLA CPLE18-1C 17,400 18,000 3/8” 3/4” Sweat 9.4 49 1/6 1.3 127 CPLE24-1C 22,800 22,800 3/8” 3/4” Sweat 13 56 1/6 1.3 137 CPLE30-1C 28,000 29,000 3/8” 3/4” Sweat 13.7 75 1/6 1.3 140 CPLE36-1C 35,000 33,200 3/8” 3/4” Sweat 16.2 96 1/4 1.8 152 CPLE42-1C 41,000 41,500 3/8” 7/8” Sweat 17.1 105 1/4 1.8 162 CPLE48-1C 45,000 45,000 3/8” 7/8” Sweat 18.3 102 1/4 1.8 178 CPLE48-3C 45,000 45,000 3/8” 7/8” Sweat 12.6 91 1/4 1.8 178 CPLE60-1C 55,000 55,000 3/8” 7/8” Sweat 25 150 1/4 1.8 210 CPLE60-3C 55,000 55,000 3/8” 7/8” Sweat 15.4 124 1/4 1.8 210 Model Minimum Circuit Ampacity Maximum Overcurrent Protection Voltage-Phase Minimum Volts Maximum Volts CPLE18-1C 13.1 20 208/230-1 197 253 CPLE24-1C 17.6 30 208/230-1 197 253 CPLE30-1C 18.4 30 208/230-1 197 253 CPLE36-1C 22.1 30 208/230-1 197 253 CPLE42-1C 23.2 40 208/230-1 197 253 CPLE48-1C 24.6 40 208/230-1 197 253 CPLE48-3C 17.6 30 208/230-3 197 253 CPLE60-1C 33.1 50 208/230-1 197 253 CPLE60-3C 21.1 30 208/230-3 197 253 50 PRODUCT SPECIFICATIONS CPLE Dimensions ADDITIONAL 1-1/2’’ LIQUID CONN. ELEVATED CHANNEL SUCTION CONN. 1-1/8" DIA. POWER 7/8" DIA. CONTROL SMALL CHASSIS = 23’’ LARGE CHASSIS = 29’’ SMALL CHASSIS = 23’’ LARGE CHASSIS = 29’’ CPLE48, 60 = 32.5’’ CPLE42 = 30’’ CPLE36 = 25’’ SMALL CHASSIS LARGE CHASSIS Model Width Depth Height CPLE18-1C 23” 23” 24” CPLE24-1C 23” 23” 31.5” CPLE30-1C 23” 23” 31.5” CPLE36-1C 29” 29” 26.5” CPLE42-1C 29” 29” 31.5” CPLE48-1C 29” 29” 34” CPLE48-3C 29” 29” 34” CPLE60-1C 29” 29” 34” CPLE60-3C 29” 29” 34” 51 PRODUCT SPECIFICATIONS CPLE Performance Ratings 1) Certified per ARI 240 @ 80 °F/67 °F/95 °F 2) TVA Rating 3) Seasonal Energy Efficiency Ratio 4) Energy Efficiency Ratio @ 80 °F/67 °F/95 °F 5) HSPF = Heating Seasonal Performance Factor 6) Order the EEP from the Service Department using Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. When mix-matching outdoor and indoor units, the indoor unit check-flowrator must match the outdoor unit size. See the AR series air handler for coil instructions. Heat Pump Coil or Air Handler Total BTUH Sensible BTUH EER SEER 47° F Heat Cap. (Btuh) 47°F Coeff. of Perf. (COP) Region IV HSPF Rating 17°F Heat Cap. (Btuh) 17°F Coeff. of Perf. (COP) ARI Ref. # Decibels CPLE18-1* AC18-XX 16,200 11,400 9.0 10.0 16,000 3 6.8 9,200 2.2 467302 77 AH18 16,200 11,400 9.0 10.0 16,000 3 6.8 10,200 2.2 467330 77 AH24 17,400 13,000 9.5 10.5 18,000 3 7 11,000 2.2 467338 77 ARPF024-00B-1* 17,400 13,000 9.5 10.5 17,000 3 7 11,000 2.22 517358 77 ARPT024-00*-1* 17,400 13,000 9.5 10.5 18,000 3 7 11,000 2.22 517376 77 ARUF018-00*-1* 17,000 11,700 9.0 10.0 17,400 3 6.8 10,600 2.22 517357 77 ARUF024-00*-1* 17,400 13,000 9.5 10.5 18,000 3 7 11,000 2.22 517370 77 AWB18-XX 16,200 11,400 9.0 10.0 17,000 3 6.8 10,200 2.2 467325 77 AWB24-XX 17,000 12,600 9.0 10.5 17,600 3 6.8 10,600 2.2 467300 77 CA*F018*2*+EEP 17,000 11,700 9.0 10.0 17,400 3 6.8 10,600 2.19 504120 77 CA*F024*2*+EEP 17,400 13,000 9.5 10.5 18,000 3 7 11,000 2.19 504121 77 CHPF024A2*+EEP 17,000 11,700 9.0 10.0 17,400 3 6.8 10,600 2.19 504123 77 CHPF030A2*+EEP 17,400 13,000 9.5 10.5 18,000 3 7 11,000 2.19 504124 77 H36F+EEP 17,400 13,000 9.5 10.5 18,000 3 7 11,000 2.2 467244 77 CPLE24-1* AC24-XX 21,800 16,000 9.0 10.0 21,400 3 6.8 12,000 2 467344 77 AC30-XX 22,800 17,400 9.5 10.5 22,800 3 7 13,000 2 467343 77 AH24 21,800 16,000 9.0 10.0 21,400 3 7 12,400 2 467334 77 AH30 22,400 17,000 9.0 10.0 22,400 3 7 13,000 2 467346 77 ARPF024-00B-1* 22,000 16,400 9.0 10.0 21,000 3 7 12,800 2.01 517354 77 ARPT024-00*-1* 22,000 16,400 9.0 10.0 21,000 3 7 12,800 2.01 517363 77 ARPT032-00*-1* 22,800 17,400 9.5 10.5 22,800 3 7 13,000 2.01 517361 77 ARUF024-00*-1* 22,000 16,400 9.0 10.0 22,000 3 7 12,800 2 517364 77 ARUF030-00*-1* 22,400 17,000 9.0 10.0 22,400 3 7 13,000 2 517356 77 AWB24-XX 21,800 16,000 9.0 10.0 21,800 3 7 12,400 2 467357 77 AWB30-XX 22,400 17,000 9.0 10.0 22,400 3 7 13,000 2 467297 77 AWB36-XX 22,800 17,400 9.5 10.5 22,800 3 7 13,000 2 467308 77 CA*F024*2*+EEP 22,000 16,400 9.0 10.0 22,000 3 7 12,800 2.01 504239 77 CA*F030*2*+EEP 22,800 17,400 9.5 10.5 22,800 3 7 13,000 2.01 504241 77 CHPF024A2*+EEP 22,000 16,400 9.0 10.0 22,000 3 7 12,800 2.01 504288 77 CHPF030A2*+EEP 22,800 17,400 9.5 10.5 22,800 3 7 13,000 2.01 504289 77 H36F+EEP 22,800 17,400 9.5 10.5 22,800 3 7 13,000 2 467247 77 CPLE30-1* AC30-XX 27,000 19,000 9.0 10.0 26,000 3 6.8 15,000 2 467296 77 ARPF036-00B-1* 28,000 21,000 9.5 10.5 28,000 3 7 17,000 2.01 517360 77 ARPT032-00*-1* 28,000 21,000 9.5 10.5 29,000 3 7 17,000 2.01 517373 77 ARUF030-00*-1* 27,400 19,400 9.0 10.0 28,600 3 6.8 16,600 2 517362 77 ARUF032-00*-1* 28,000 21,000 9.5 10.5 29,000 3 7 17,000 2 517372 77 AWB30-XX 27,400 19,400 9.0 10.0 28,000 3 6.8 16,000 2 467351 77 AWB36-XX 28,000 21,000 9.5 10.5 29,000 3 7 17,000 2 467311 77 CA*F024*2*+EEP 27,000 19,000 9.0 10.0 27,000 3 6.8 16,000 2.01 504240 77 CA*F030*2*+EEP 28,000 21,000 9.5 10.5 29,000 3 7 17,000 2.01 504242 77 CHPF030A2*+EEP 27,000 19,000 9.0 10.0 27,000 3 6.8 16,000 2.01 504290 77 CHPF042B2*+EEP 28,000 21,000 9.5 10.5 29,000 3 7 17,000 2.01 504296 77 H36F+EEP 27,400 19,400 9.5 10.5 28,600 3 6.8 16,600 2 467278 77 H48F+EEP 28,000 21,000 9.5 10.5 29,000 3 7 17,000 2 467279 77 CPLE36-1* AC36-XX 32,600 22,900 9.0 10.0 31,000 2.8 6.8 17,000 2 467309 80 ARPF036-00B-1* 32,600 22,900 9.0 10.0 31,000 2.82 6.8 17,000 2.01 517375 80 ARPT036-00*-1* 33,000 23,400 9.0 10.0 33,000 3.09 7.3 18,600 2.1 517367 80 ARPT042-00*-1* 35,000 26,200 9.5 10.5 34,200 3.21 7.5 18,800 2.1 517371 80 ARUF036-00*-1* 33,000 23,400 9.0 10.0 33,000 3.08 7.3 18,600 2 517366 80 ARUF042-00*-1* 35,000 26,200 9.5 10.5 34,200 3.2 7.5 18,800 2.1 517369 80 AWB36-XX 33,000 23,400 9.0 10.0 33,000 3.1 7.3 18,600 2.1 467329 80 CA*F036*2*+EEP 33,000 23,200 9.0 10.0 33,000 3.09 7.3 18,600 2.1 504238 80 CA*F042*2*+EEP 35,000 26,200 9.5 10.5 33,200 3.18 7.5 18,800 2.1 504245 80 CHPF030A2*+EEP 33,000 23,400 9.0 10.0 33,000 3.09 7.3 18,600 2.1 504291 80 CHPF036B2*+EEP 32,000 22,500 9.0 10.0 33,000 3 7 17,600 2.01 504295 80 CHPF042B2*+EEP 34,000 24,400 9.0 10.0 33,200 3.09 7.3 18,800 2.1 504297 80 H49F+EEP 35,000 26,200 9.5 10.5 33,200 3.2 7.5 18,800 2.1 467277 80 CPLE42-1* ARPF048-00B-1* 41,000 31,800 9.5 10.5 41,500 3.3 7.5 22,000 2.22 517359 80 ARPT042-00*-1* 40,000 29,600 9.0 10.0 40,000 3.21 7.5 20,800 2.1 517365 80 ARPT049-00*-1* 41,000 31,800 9.5 10.5 41,500 3.3 7.5 22,000 2.22 517355 80 ARUF048-00*-1* 40,000 31,600 9.0 10.0 41,000 3.2 7.5 21,000 2.1 517368 80 ARUF049-00*-1* 41,000 31,800 9.5 10.5 41,500 3.3 7.5 22,000 2.22 517390 80 CA*F048*2*+EEP 40,000 29,600 9.0 10.0 41,000 3.18 7.5 21,000 2.1 504249 80 CHPF042B2*+EEP 39,000 29,000 9.0 10.0 39,000 3 7.3 20,000 2.01 504298 80 CHPF048D2*+EEP 41,000 31,600 9.5 10.5 41,000 3.18 7.5 21,000 2.1 504301 80 H49F+EEP 41,000 31,600 9.5 10.5 41,000 3.2 7.5 21,000 2.1 467291 80 52 PRODUCT SPECIFICATIONS CPLE Performance Ratings (cont.) 1) Certified per ARI 240 @ 80 °F/67 °F/95 °F 2) TVA Rating 3) Seasonal Energy Efficiency Ratio 4) Energy Efficiency Ratio @ 80 °F/67 °F/95 °F 5) HSPF = Heating Seasonal Performance Factor 6) Order the EEP from the Service Department using Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. When mix-matching outdoor and indoor units, the indoor unit check-flowrator must match the outdoor unit size. See the AR series air handler for coil instructions. Heat Pump Coil or Air Handler Total BTUH Sensible BTUH EER SEER 47° F Heat Cap. (Btuh) 47°F Coeff. of Perf. (COP) Region IV HSPF Rating 17°F Heat Cap. (Btuh) 17°F Coeff. of Perf. (COP) ARI Ref. # Decibels CPLE48-1* ARPF048-00B-1* 44,000 34,600 9.0 10.0 43,000 3.12 7.5 25,400 2.1 517380 80 ARPF060-00B-1* 45,000 35,000 9.0 10.0 44,000 3.18 7.5 26,000 2.16 517396 80 ARPT049-00*-1* 44,000 34,600 9.0 10.0 43,000 3.12 7.5 25,400 2.1 517384 80 ARPT061-00*-1* 45,000 35,000 9.0 10.0 44,000 3.12 7.5 26,000 2.16 517385 80 ARUF049-00*-1* 44,000 34,600 9.0 10.0 43,000 3.12 7.5 25,400 2.1 517379 80 ARUF061-00*-1* 45,000 35,000 9.0 10.0 44,000 3.12 7.5 26,000 2.16 517383 80 CA*F060*2*+EEP 44,000 34,600 9.0 10.0 43,000 3.09 7.5 25,400 2.1 516556 80 CA*F061*2*+EEP 45,000 35,000 9.0 10.0 44,000 3.15 7.5 26,000 2.13 516565 80 CHPF048D2*+EEP 44,000 34,600 9.0 10.0 43,000 3.09 7.5 25,400 2.1 516552 80 CHPF060D2*+EEP 45,000 35,000 9.0 10.0 44,000 3.15 7.5 26,000 2.13 516570 80 H60F+EEP 44,000 34,600 9.0 10.0 43,000 3.03 7.5 25,400 2.1 516559 80 H61F+EEP 45,000 35,000 9.0 10.0 44,000 3.03 7.5 26,000 2.16 516560 80 CPLE48-3* ARPF048-00B-1* 44,000 34,600 9.0 10.0 43,000 3.12 7.5 25,400 2.1 517393 80 ARPF060-00B-1* 45,000 35,000 9.0 10.0 44,000 3.12 7.5 26,000 2.13 517395 80 ARPT049-00*-1* 44,000 34,600 9.0 10.0 43,000 3.12 7.5 25,400 2.1 517391 80 ARPT061-00*-1* 45,000 35,000 9.0 10.0 44,000 3.12 7.5 26,000 2.13 517389 80 ARUF049-00*-1* 44,000 34,600 9.0 10.0 43,000 3.12 7.5 25,400 2.1 517381 80 ARUF061-00*-1* 45,000 35,000 9.0 10.0 44,000 3.12 7.5 26,000 2.1 517392 80 CA*F060*2*+EEP 44,000 34,600 9.0 10.0 43,000 3.09 7.5 25,400 2.1 516568 80 CA*F061*2*+EEP 45,000 35,000 9.0 10.0 44,000 3.15 7.5 26,000 2.13 516554 80 CHPF048D2*+EEP 44,000 34,600 9.0 10.0 43,000 3.09 7.5 25,400 2.1 516558 80 CHPF060D2*+EEP 45,000 35,000 9.0 10.0 44,000 3.15 7.5 26,000 2.13 516585 80 H60F+EEP 44,000 34,600 9.0 10.0 43,000 3.09 7.5 25,400 2.1 516572 80 H61F+EEP 45,000 35,000 9.0 10.0 44,000 3.18 7.5 26,000 2.16 516587 80 CPLE60-1* ARPF060-00B-1* 55,000 39,900 9.0 10.0 55,000 3.3 8 32,000 2.31 517387 77 ARPT061-00*-1* 55,000 39,900 9.0 10.0 55,000 3.3 8 32,000 2.31 517386 77 ARUF061-00*-1* 55,000 39,900 9.0 10.0 55,000 3.3 8 32,000 2.3 517388 77 CA*F061*2*+EEP 54,000 39,900 9.0 10.0 52,000 3.3 8 32,000 2.28 516597 77 CHPF060D2*+EEP 54,000 39,900 9.0 10.0 52,000 3.3 8 32,000 2.28 516574 77 H61F+EEP 55,000 39,900 9.0 10.0 55,000 3.3 8 32,000 2.31 516579 77 CPLE60-3* ARPF060-00B-1* 55,000 39,900 9.0 10.0 55,000 3.3 8 32,000 2.31 517397 77 ARPT061-00*-1* 55,000 39,900 9.0 10.0 55,000 3.3 8 32,000 2.31 517382 77 ARUF061-00*-1* 55,000 39,900 9.0 10.0 55,000 3.3 8 32,000 2.3 517394 77 CA*F061*2*+EEP 54,000 39,900 9.0 10.0 52,000 3.3 8 32,000 2.28 516592 77 CHPF060D2*+EEP 54,000 39,900 9.0 10.0 52,000 3.3 8 32,000 2.28 516590 77 H61F+EEP 55,000 39,900 9.0 10.0 55,000 3.3 8 32,000 2.31 516589 77 53 PRODUCT SPECIFICATIONS CPLE MODEL CPLE24-1* W: AWB24-XX Heating Performance Expanded Ratings @ 70 ˚F Indoor Ambient MODEL CPLE24-1* W: ARPF036/ARPT032, ARUF032, H36F+EEP, CA*F030*2*/CHPF030A2*+EEP MODEL CPLE18-1* W: AC18-XX, AH18 MODEL CPLE18-1* W: AWB18-XX MODEL CPLE18-1* W: ARUF018 MODEL CPLE18-1* W: AWB24-XX MODEL CPLE18-1* W: ARPF024/ARPT024, ARUF024, H36F+EEP MODEL CPLE24-1* W: AC24-XX MODEL CPLE24-1* W: ARPF024, ARPT024, ARUF032, CA*F024*2*/CHPF024A2*+EEP MODEL CPLE24-1* W: ARUF030, AWB30-XX MODEL CPLE30-1* W: AC30-XX, AH30 MODEL CPLE30-1* W: CA*F024*2*/CHPF030A2*+EEP MODEL CPLE30-1* W: AWB30-XX MODEL CPLE30-1* W: ARUF030, H36F+EEP MODEL CPLE30-1* W: ARPF036/RPT032, ARUF032, 31+EEP, CA*F030*2*/CHPF030A2*+EEP 54 PRODUCT SPECIFICATIONS CPLE Heating Performance Expanded Ratings @ 70 ˚F Indoor Ambient (cont.) MODEL CPLE36-1* W: CHPF036B2*+EEP MODEL CPLE36-1* W: AC36-XX, AH36 MODEL CPLE36-1* W: CHPF042B2*+EEP MODEL CPLE42-1* W: CHPF048D2*+EEP MODEL CPLE42-1* W: ARPT042/ARUF042 MODEL CPLE42-1* W: ARPF0498/ARPT049/ARUF049 MODEL CPLE60-1*/-3* W: ARPF060/ARPT061/ARUF061, H61F +EEP MODEL CPLE60-1*/-3* W: CA*F060*2*/CHPF048D2*+EEP MODEL CPLE36-1* W: ARPT036/ARUF036, AWB36, CA*F036*2*/CHPF030A2*+EEP MODEL CPLE36-1* W: ARPT042/ARUF042, CA*F042*2*+EEP MODEL CPLE42-1* W: ARUF048, H49F+EEP, CA*F048*2*/ CHPF048D2*+EEP MODEL CPLE48-1* W: ARPF048/ARPT049/ARUF049, H60F+EEP, CA*F060*2*/CHPF048D2*+EEP MODEL CPLE48-1* W: ARPF060/ARPT061/ARUF061, H61+EEP, CA*F060*2*/CHPF048D2*+EEP 55 PRODUCT SPECIFICATIONS CPLE090-120 Specifications Model Service Valve Type Approximate Shipping Weight (pounds) Liquid Suction CPLE090-3/-3C 5/8” 1-3/8” Sweat 390 CPLE090-4/-4C 5/8” 1-3/8” Sweat 390 CPLE120-3/-3C 5/8” 1-3/8” Sweat 440 CPLE120-4/-4C 5/8” 1-3/8” Sweat 440 Model Fan Diameter Fan RPM CFM Tube Diameter Face Area (Ft 2 ) Rows Deep Fins Per Inch Fin Type R-22 Holding Charge (pounds) CPLE090-3/-4/-3C/-4C 26” 1,100 6,600 3/8” 30 1 19 Ripple 2 CPLE120-3/-4/-3C/-4C 26” 1,100 6,600 3/8” 30 2 16 Ripple 2 Dimensions Electrical Data Model Volts Ph Hz Minimum Circuit Amps 1 Maximum Overcurrent Protection 2 Minimum Volts Maximum Volts Compressor Condenser Fan RLA LRA FLA HP CPLE090-3/-3C 208/230 3 60 37.8 60 197 253 25.7 196 5.6 1 CPLE090-4/-4C 460 3 60 18.8 30 414 506 12.8 100 2.8 1 CPLE120-3/-3C 208/230 3 60 43.3 60 197 253 30.1 225 5.6 1 CPLE120-4/-4C 460 3 60 22.2 35 414 506 15.5 114 2.8 1 1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes. 2) May use fuses or HACR type Circuit Breakers of the same size as noted. 3) The -3C and -4C models are painted Architectural Gray. All other models are painted Bahama Beige. 56 PRODUCT SPECIFICATIONS CPLE090-120 Expanded Ratings (Heating) Model Evaporator Model Total Cooling BTUH @ 95 ºF Sensible Cooling BTUH @ 95 ºF EER 1 Heating BTUH @ 47 ºF COP @ 47 ºF Heating BTUH @ 17 ºF COP @ 17 ºF SRN/ BELS CPLE090-3/-4/-3C/-4C AR090 87,000 63,500 10.1 82,000 3.2 53,000 2.2 8.4 CPLE120-3/-4/-3C/-4C AR120 109,000 78,000 10.1 105,500 3.2 68,500 2.2 8.4 Performance Ratings at ARI Conditions OD Temp BTUH COP Watts 62 113,300 3.85 8.64 57 101,500 3.68 8.08 52 91,000 3.46 7.72 47 82,000 3.20 7.51 42 74,300 2.94 7.41 37 67,800 2.69 7.39 32 62,500 2.48 7.38 27 58,300 2.32 7.35 22 55,100 2.22 7.26 17 53,000 2.20 7.06 12 49,900 2.11 6.92 7 47,300 2.05 6.78 2 44,000 1.96 6.57 -3 41,900 1.91 6.43 COP Plot CPLE090-3/-4/-3C/-4C COP Plot CPLE120-3/-4/-3C/-4C OD Temp BTUH COP Watts 62 145,800 3.85 11.0 57 130,800 3.68 10.4 52 117,400 3.46 9.96 47 105,500 3.20 9.66 42 95,200 2.94 9.50 37 86,500 2.69 9.43 32 79,500 2.48 9.40 27 74,100 2.32 9.37 22 70,400 2.22 9.29 17 68,500 2.20 9.13 12 64,500 2.11 8.94 7 61,200 2.05 8.76 2 56,900 1.97 8.49 -3 54,100 1.91 8.30 1) Energy Efficiency Ratio @ 80 °F/67 °F/95 °F = Capacity BTUH @95 F / kW i (kW i = Compressor + Indoor Blower Motor + Outdoor Fan Motor Note: For 3-models, reduce BTUH by 2,000 @ 208V 57 PRODUCT SPECIFICATIONS CPLE090-120 INDOOR CONDENSER AIR TEMPERATURE AIR SCFM WB 75°F 85°F 95°F 105°F 115°F TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH 2465 72 100.9 47.6 8.10 96.6 45.7 8.53 91.4 43.8 8.87 86.1 41.9 9.30 80.9 40.0 9.73 67 92.2 59.1 7.58 87.9 57.2 7.92 83.5 55.2 8.36 78.3 53.3 8.79 73.1 53.3 9.22 62 85.3 69.9 7.06 80.9 67.9 7.49 78.7 66.0 7.92 76.6 64.1 8.36 72.2 61.6 8.70 57 81.8 75.6 6.89 78.3 72.4 7.32 74.8 69.2 7.75 70.5 65.4 8.27 67.0 61.6 8.61 2900 72 105.3 52.7 8.36 100.1 50.8 8.70 94.8 48.9 9.13 89.6 47.6 9.56 83.5 45.1 9.99 67 96.6 67.3 7.84 92.2 65.4 8.18 87.0 63.5 8.61 81.8 61.6 9.04 76.6 59.7 9.48 62 89.6 80.6 7.41 85.3 78.1 7.75 80.9 74.9 8.18 77.4 71.1 8.61 73.1 67.3 9.13 57 88.7 81.9 7.32 84.4 78.7 7.75 80.9 74.9 8.18 77.4 71.1 8.61 73.1 67.3 9.13 3335 72 107.9 57.2 8.53 102.7 55.2 8.87 97.4 53.3 9.30 91.4 51.4 9.73 86.1 50.2 10.16 67 100.1 74.3 8.01 94.8 73.0 8.36 89.6 71.1 8.79 84.4 68.6 9.22 79.2 66.7 9.65 62 94.0 87.0 7.67 90.5 83.2 8.10 85.3 79.4 8.53 81.8 75.6 8.96 76.6 71.1 9.48 57 94.0 87.0 7.67 90.5 83.2 8.10 85.3 79.4 8.53 81.8 75.6 8.96 76.6 71.1 9.48 INDOOR CONDENSER AIR TEMPERATURE AIR SCFM WB 75°F 85°F 95°F 105°F 115°F TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH 3230 72 126.4 58.9 10.14 121.0 56.5 10.68 114.5 54.2 11.12 107.9 51.8 11.66 101.4 49.5 12.20 67 115.5 73.0 9.50 110.1 70.7 9.93 104.6 68.3 10.47 98.1 65.9 11.01 91.6 65.9 11.55 62 106.8 86.4 8.85 101.4 84.0 9.39 98.6 81.6 9.93 95.9 79.3 10.47 90.5 76.1 10.90 57 102.5 93.4 8.63 98.1 89.5 9.17 93.7 85.6 9.71 88.3 80.9 10.36 83.9 76.1 10.79 3800 72 131.9 65.2 10.47 125.4 62.8 10.90 118.8 60.4 11.44 112.3 58.9 11.98 104.6 55.7 12.52 67 121.0 83.2 9.82 115.5 80.9 10.25 109.0 78.5 10.79 102.5 76.1 11.33 95.9 73.8 11.87 62 112.3 99.7 9.28 106.8 96.6 9.71 101.4 92.6 10.25 97.0 87.9 10.79 91.6 83.2 11.44 57 111.2 101.3 9.17 105.7 97.3 9.71 101.4 92.6 10.25 97.0 87.9 10.79 91.6 83.2 11.44 4370 72 135.2 70.7 10.68 128.6 68.3 11.12 122.1 65.9 11.66 114.5 63.6 12.20 107.9 62.0 12.73 67 125.4 91.8 10.04 118.8 90.3 10.47 112.3 87.9 11.01 105.7 84.8 11.55 99.2 82.4 12.09 62 117.7 107.5 9.60 113.4 102.8 10.14 106.8 98.1 10.68 102.5 93.4 11.22 95.9 87.9 11.87 57 117.7 107.5 9.60 113.4 102.8 10.14 106.8 98.1 10.68 102.5 93.4 11.22 95.9 87.9 11.87 INDOOR UNIT CPLE120-3/-4/-3C/-4C INDOOR UNIT AR120 OUTDOOR UNIT CPLE090-3/-4/-3C/-4C INDOOR UNIT AR090 Sensible heat capacities shown are based on 80 °F DB entering air at the evaporator coil. For sensible heat capacities at other than 80 °F DB, deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 °F, or add 84 BTUH per 100 CFM of evaporator coil air per degree above 80 °F. Capacities at 95 °F OUTDOOR, 75 °F DB and 63 °F WB INDOOR TOTAL MBTUH 82.1 SENSIBLE MBTUH 60.5 LATENT MBTUH 21.7 Sensible heat capacities shown are based on 80 °F DB entering air at the evaporator coil. For sensible heat capacities at other than 80 °F DB, deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 °F, or add 84 BTUH PER 100 CFM of evaporator coil air per degree above 80 °F. CAPACITIES AT 95 °F OUTDOOR, 75 °F DB AND 63 °F WB INDOOR TOTAL MBTUH 102.9 SENSIBLE MBTUH 74.5 LATENT MBTUH 28.4 58 PRODUCT SPECIFICATIONS CPLJ Electrical Data 1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes 2) May use fuses or HACR type Circuit Breakers of the same size as noted Specifications Dimensions ELEVATED CHANNEL ADDITIONAL 1-1/2“ LIQUID CONN. W 7/8" DIA. CONTROL H 1-1/8" DIA. POWER SUCTION CONN. D Model Nominal Cooling Nominal Heating Service Valve Compressor Ship Weight (lbs.) Liquid Suction Connect Type RLA LRA Type HP FLA CPLJ18-1B 18,000 18,000 3/8” 3/4” Sweat 8.6 49 Reciprocating 1/6 0.9 127 CPLJ24-1B 23,000 23,000 3/8” 3/4” Sweat 9.8 56 Reciprocating 1/6 0.9 147 CPLJ30-1B 30,000 30,000 3/8” 3/4” Sweat 13.5 72.5 Scroll 1/6 1.1 142 CPLJ36-1B 35,000 35,000 3/8” 3/4” Sweat 14.7 83 Scroll 1/6 0.9 152 CPLJ42-1B 41,000 40,000 3/8” 7/8” Sweat 18.4 95 Scroll 1/4 1.8 162 CPLJ48-1B 46,000 46,000 3/8” 7/8” Sweat 18.3 109 Scroll 1/4 1.8 178 CPLJ60-1B 56,000 56,000 3/8” 7/8” Sweat 25 148 Scroll 1/3 2.5 182 Model Minimum Circuit Ampacity Maximum Overcurrent Protection Voltage-Phase Minimum Volts Maximum Volts CPLJ18-1B 11.7 20 208/230-1 197 253 CPLJ24-1B 13.2 20 208/230-1 197 253 CPLJ30-1B 18 30 208/230-1 197 253 CPLJ36-1B 19.3 30 208/230-1 197 253 CPLJ42-1B 24.8 40 208/230-1 197 253 CPLJ48-1B 24.7 40 208/230-1 197 253 CPLJ60-1B 33.8 50 208/230-1 197 253 Model Width Depth Height CPLJ18-1B 23” 23” 34” CPLJ24-1B 29” 29” 26.5” CPLJ30-1B 29” 29” 26.5” CPLJ36-1B 29” 29” 31.5” CPLJ42-1B 29” 29” 39” CPLJ48-1B 29” 29” 41.5” CPLJ60-1B 29” 29” 41.5” 59 PRODUCT SPECIFICATIONS CPLJ COOLING AND HEATING PERFORMANCE DATA MODEL OUTDOOR MODEL INDOOR TOTAL COOLING SENSIBLE COOLING (2) BTUH @ 75ºF/63ºF-95ºF COOLING COOLING HEATING BTUH HEATING COP HEATING BTUH HEATING COP HEATING SRN/ SECTION SECTION BTUH (1) BTUH TOTAL SENS. SEER(4) EER (3) 47°F 47ºF 17ºF 17ºF HSPF BELS CPLJ18-1 AC18-XX AC24-XX AR18-1/AW18-XX AWB18-XX AWB24/AW24-XX U/UC32+EEP HT3236/H36F+EEP AR32-1 AE24-XX/AER24-1 16400 16800 17000 17000 17400 18000 18000 18000 18000 12300 12600 12700 12700 13100 14200 14200 14200 14200 15500 15800 16000 16000 16400 17000 17000 17000 17000 11800 12000 12200 12200 12600 13700 13700 13700 13700 11.50 12.00 11.00 11.00 12.00 12.00 12.00 12.00 13.00 10.50 11.00 10.00 10.00 11.00 11.00 11.00 11.00 12.00 16000 16400 17000 17000 17400 18000 18000 18000 18000 2.80 3.00 3.00 3.00 3.00 3.50 3.50 3.50 3.50 9000 9400 9400 9400 9600 10000 10000 10000 10000 2.00 2.00 2.00 2.00 2.00 2.20 2.20 2.20 2.20 7.00 7.00 7.00 7.00 7.00 7.30 7.30 7.30 7.50 8.0 CPLJ24-1 AC24-XX AC30-XX AWB24-XX AR24-1/AW24-XX U/UC32+EEP U/UC42+EEP HT3236/H36F+EEP AWB36-XX AR32-1/AR42-1 AE24-XX/AER24-1 21200 22000 22400 22400 23000 23000 23000 23000 23000 23000 15900 16500 16800 16800 18000 18000 18000 18000 18000 18000 20000 20700 21100 21100 21700 21700 21700 21700 21700 21700 15500 16000 16400 16400 17400 17400 17400 17400 17400 17400 11.50 12.00 11.50 11.50 12.00 12.00 12.00 12.00 12.00 13.00 10.50 11.00 10.50 10.50 11.00 11.00 11.00 11.00 11.00 12.00 20200 21000 22000 22000 23000 23000 23000 23000 23000 23000 2.80 2.80 3.00 3.00 3.30 3.30 3.30 3.30 3.30 3.30 11800 12000 12100 12100 13600 13600 13600 13600 13600 13600 2.00 2.20 2.20 2.20 2.60 2.60 2.60 2.60 2.60 2.60 7.00 7.00 7.00 7.00 7.50 7.50 7.50 7.50 7.80 8.00 8.2 CPLJ30-1 AC30-XX AC36-XX AWB30-XX AR30-1/AW30-XX HT3236/U/UC32+EEP U/UC42+EEP HT4248/H36F+EEP AWB36-XX AR32-1/AR42-1 AER30-1 AE36-XX/AER36-1 27000 27400 27200 27200 29000 29000 29000 29000 29000 29000 30000 20200 20500 20400 20400 21600 21600 21600 21600 21600 21600 22300 24600 25000 24800 24800 27400 27400 27400 27400 27400 26800 29300 18900 19100 19100 20700 20700 20700 20700 20700 20700 21200 19000 11.50 12.00 11.30 11.30 12.00 12.00 12.00 12.00 12.00 12.50 13.00 10.50 11.00 10.50 10.50 11.00 11.00 11.00 11.00 11.00 11.50 12.00 26000 26400 27000 27000 29400 29400 29400 29400 29400 29400 30000 2.80 2.80 3.00 3.00 3.30 3.30 3.30 3.30 3.30 3.30 3.50 14000 14600 14800 14800 17000 17000 17000 17000 17000 17000 18000 2.20 2.20 2.20 2.20 2.40 2.40 2.40 2.40 2.40 2.40 2.40 7.00 7.00 7.00 7.00 7.50 7.50 7.50 7.50 7.80 7.80 7.80 8.2 CPLJ36-1 AC36-XX AWB36-XX/AR36-1 U/UC42+EEP HT4248/H49F+EEP AR42-1 AE36-XX/AER36-1 32000 33000 34000 34000 34000 35000 23000 23800 24500 24500 24500 25900 30200 31150 32100 32100 32100 34000 24000 24900 23300 23300 23300 24600 11.00 11.30 12.00 12.00 12.00 13.00 10.00 10.30 11.00 11.00 11.00 12.00 31000 33000 35000 35000 35000 35000 2.80 3.20 3.50 3.50 3.50 3.50 17000 19000 20000 20000 20000 20000 2.00 2.10 2.30 2.30 2.30 2.30 7.00 7.50 7.80 7.80 7.80 8.00 8.2 CPLJ42-1 AR42-1 U/UC60+EEP HT61/H61F+EEP AR49-1 AE48-XX/AER48-1 38500 40000 40000 40000 41000 27600 30400 30400 30400 31000 36200 37800 37800 37800 37800 29300 29300 29000 29300 29900 11.30 12.00 12.00 12.00 13.00 10.30 11.00 11.00 11.00 12.00 38500 40000 40000 40000 40000 3.30 3.50 3.50 3.50 3.50 21000 22400 22400 22400 23000 2.10 2.30 2.30 2.30 2.30 7.50 8.00 8.00 8.00 8.30 8.2 CPLJ48-1 AR48-1 AR49-1 U/UC60+EEP HT61/H61F+EEP AE48-XX/AER48-1 AR61-1 44000 44000 44000 44000 46000 46000 32500 32500 32500 32500 35000 35000 41500 41500 41500 41500 43400 43400 31000 31000 31000 31000 33600 33600 11.50 12.00 12.00 12.00 12.50 12.00 10.50 11.00 11.00 11.00 11.50 11.00 44000 45000 45000 45000 46000 46000 3.30 3.50 3.50 3.50 3.60 3.60 24000 25000 25000 25000 27000 27000 2.20 2.30 2.30 2.30 2.40 2.40 7.50 8.00 8.00 8.00 8.50 8.00 8.4 CPLJ60-1A AR60-1 U/UC62+EEP AR61-1 HT61/U/UC61+EEP H61F+EEP AE60-XX/AER60-1 55000 55000 56000 56000 56000 56000 39600 39600 40300 40300 40300 40300 51900 51900 52600 52600 52600 52600 37000 37000 37700 37700 37700 37700 11.30 11.50 12.00 12.00 12.00 12.00 10.30 10.50 11.00 11.00 11.00 11.00 55000 55000 56000 56000 56000 56000 3.30 3.20 3.30 3.30 3.30 3.30 30000 30000 31000 31000 31000 31000 2.10 2.30 2.30 2.30 2.30 2.30 7.50 8.00 8.00 8.00 8.00 8.50 8.4 XX designates electric heat quantity. HSPF = heating seasonal performance factor. When mix matching outdoor and indoor units, the indoor unit check-flowrator must match the outdoor unit size. See “AR” unit for coil instructions. EEP - Order from service dept. part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. T he Gas Furnace contains the EEP cooling time delay. (1) Certified per ARI 240 @ 80ºF/67ºF -95ºF (2) TVA Rating (3) Energy Efficiency Ratio @ 80ºF/67ºF -95ºF (4) Seasonal Energy Efficiency Ratio 60 PRODUCT SPECIFICATIONS CPLJ ELECTRICAL DATA MODEL VOLTS PH HZ +MINIMUM CIRCUIT *MAXIMUM OVERCURRENT MINIMUM MAXIMUM COMPRESSOR COND. FAN AMPS PROTECTION VOLTS VOLTS RLA LRA FLA HP †CPLJ18-1 208/230 1 60 10.9 20 197 253 7.7 48.0 0.9 1/6 †CPLJ24-1 208/230 1 60 15.3 20 197 253 11.5 60.0 0.9 1/6 †CPLJ30-1 208/230 1 60 19.3 30 197 253 14.7 74.0 0.9 1/6 †CPLJ36-1 208/230 1 60 18.5 30 197 253 14.1 79.0 0.9 1/6 †CPLJ42-1 208/230 1 60 24.2 40 197 253 17.9 87.0 1.8 1/4 CPLJ48-1 208/230 1 60 24.7 40 197 253 18.3 109.0 1.8 1/4 **CPLJ60-1A 208/230 1 60 33.1 50 197 253 25.0 169.0 1.8 1/3 † With Crankcase Heat. * May use fuses or HACR type Circuit Breakers of the same size as noted. + Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. **With Scroll Compressor MODEL CPLJ18-1 W: AC18-XX 0 5000 10000 15000 20000 25000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ18-1 W: AC24-XX 0 5000 10000 15000 20000 25000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ18-1 W: AR18-1/AW/AWB18-XX 0 5000 10000 15000 20000 25000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ18-1 W: AW/AWB24-XX 0 5000 10000 15000 20000 25000 30000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ18-1 W: U/UC32+EEP, HT3236/H36F+EEP, AR32-1, AE24-XX, AER24-1 0 5000 10000 15000 20000 25000 30000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ24-1 W: AC24-XX 0 5000 10000 15000 20000 25000 30000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ24-1 W: AC30-XX 0 5000 10000 15000 20000 25000 30000 35000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ24-1 W: AR24-1/AW/AWB24-XX 0 5000 10000 15000 20000 25000 30000 35000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ24-1 W: U/UC32+EEP, U/UC42/+EEP, HT3236/H36F+EEP, AWB36-XX, AR32-1, AR 42-1, AE24-XX, AER24-1 0 5000 10000 15000 20000 25000 30000 35000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ30-1 W: AC30-XX 0 10000 20000 30000 40000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ30-1 W: AC36-XX 0 10000 20000 30000 40000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ30-1 W: AR30-1/AW/AWB30-XX 0 10000 20000 30000 40000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P HEATING PERFORMANCE EXPANDED RATINGS @70ºF INDOOR AMBIENT 61 PRODUCT SPECIFICATIONS CPLJ MODEL CPLJ30-1 W: HT3236/U/UC32+EEP, U/UC42 +EEP, HT4248/H36F+EEP, AR32-1, AR42-1, AER30-1,AWB36-XX 0 10000 20000 30000 40000 50000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ30-1 W: AE36-XX/AER36-1 0 10000 20000 30000 40000 50000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ36-1 W: AC36-XX 0 10000 20000 30000 40000 50000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 C O P MODEL CPLJ36-1 W: AR36-1/AWB36-XX 0 10000 20000 30000 40000 50000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ36-1 W: U/UC42+EEP, HT4248/H49F+EEP, AR42-1, AE36-XX/AER36- 1 0 10000 20000 30000 40000 50000 60000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ42-1 W: AR42-1 0 10000 20000 30000 40000 50000 60000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ42-1 W: U.UC60+EEP, HT61/H61F+EEP, AR49-1 0 10000 20000 30000 40000 50000 60000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ42-1 W: AR48-XX/AER48-1 0 10000 20000 30000 40000 50000 60000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ48-1 W: AR48-1 0 10000 20000 30000 40000 50000 60000 70000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ60-1A W: U/UC62+EEP 0 20000 40000 60000 80000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ60-1A W: AR61-1, U/UC61+EEP, HT61/H61F+EEP, AE60-XX/AER60-1 0 20000 40000 60000 80000 100000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ48-1 W: AR49-1, U/UC60+EEP, HT61/HT61F+EEP 0 10000 20000 30000 40000 50000 60000 70000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ48-1 W: AE48-XX/AER48-1, AR61-1 0 10000 20000 30000 40000 50000 60000 70000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P MODEL CPLJ60-1A W: AR60-1 0 20000 40000 60000 80000 62 52 42 32 22 12 2 OUTSIDE deg F H E A T I N G B T U H 0 1 2 3 4 5 C O P HEATING BTUH COP HEATING PERFORMANCE EXPANDED RATINGS @70ºF INDOOR AMBIENT 62 PRODUCT SPECIFICATIONS CPRT Specifications Model C P R T 2 4 - 1 C P R T 3 0 - 1 C P R T 3 6 - 1 C P R T 4 2 - 1 C P R T 4 8 - 1 C P R T 6 0 - 1 Service Valve Liquid 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction 3/4” 3/4” 7/8” 7/8” 7/8” 7/8” Type Sweat Sweat Sweat Sweat Sweat Sweat Shipping Weight (lbs) 137 142 152 162 249 337 Electrical Data Volts 208/230 208/230 208/230 208/230 208/230 208/230 Phase 1 1 1 1 1 1 Hz 60 60 60 60 60 60 Minimum Circuit Amps 1 14.5 17.8 20.1 23 24.6 29.2 Maximum Overcurrent Protection 2 20 30 30 40 40 50 Minimum Volts 197 197 197 197 197 197 Maximum Volts 253 253 253 253 253 253 Compressor RLA 10.9 13.5 14.8 17.1 18.4 22.1 LRA 54 72.5 83 95 109 137 Condenser Fan FLA 0.9 0.9 1.6 1.6 1.6 1.6 HP 1/6 1/6 1/6 1/6 1/6 1/6 1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes 2) May use fuses or HACR type Circuit Breakers of the same size as noted 63 PRODUCT SPECIFICATIONS CPRT Dimensions for CPRT24-42 Models FORMED INTO BOTTOM PAN ELEVATED CHANNEL ADDITIONAL 1-1/2" LIQUID CONN. 29" CPRT24 = 30" CPRT36 = 27.5" CPRT42 = 30" 7/8" DIA. CONTROL CPRT30 = 25" 1-1/8" DIA. POWER SUCTION CONN. 29" CPRT48-1 = 30" CPRT60-1 = 35" 35.5" 35.5" ADDITIONAL 1-1/2" ELEVATED CHANNEL FORMED INTO BOTTOM PAN SUCTION CONN. LIQUID CONN. 1-1/8" DIA. POWER 7/8" DIA. CONTROL Dimensions for CPRT48-60 Models 64 PRODUCT SPECIFICATIONS CPRT Performance Ratings 1) Certified per ARI 210/240 @ 80 °F/67 °F/95 °F 2) TVA Rating 3) Seasonal Energy Efficiency Ratio 4) Energy Efficiency Ratio @ 80 °F/67 °F/95 °F 5) HSPF = Heating Seasonal Performance Factor 6) Order the EEP from the Service Department using Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. XX designates electric heat quantity When mix-matching outdoor and indoor units, the indoor unit check-flowrator must match the outdoor unit size. Model Coil / Air Handler Cooling Capacity Heating Capacity ARI Ref. # D e c i b e l s Total BTUH S e n s i b l e B T U H S E E R E E R 47°F (BTUH) 47°F COP H S P F 17°F (BTUH) 17°F COP C P R T 2 4 - 1 AEPT030-00*-1* 22,800 17,000 14 12.6 23,000 3.5 7.5 11,500 2.5 539694 74 ARPT032-00*-1* 22,800 17,000 13 11.6 23,000 3.3 7.7 11,500 2.3 539735 ARUF032-00*-1* 22,800 17,000 13 11.6 23,000 3.3 7.7 11,500 2.3 539765 CA*F030*2*+EEP 22,800 17,000 13 11.6 23,000 3.3 7.3 11,500 2.28 539685 CA*F042*2*+EEP 22,800 17,000 13 11.6 23,000 3.3 7.3 11,500 2.28 539746 CHPF030A2*+EEP 22,800 17,000 13 11.6 23,000 3.3 7.3 11,500 2.28 539717 CHPF042B2*+EEP 22,800 17,000 13 11.6 23,000 3.3 7.3 11,500 2.28 539808 H36F+EEP 22,800 17,000 13 11.6 23,000 3.3 7.5 11,500 2.3 539771 C P R T 3 0 - 1 AEPT030-00*-1* 29,000 22,300 13.5 12 30,000 3.42 8 18,000 2.52 539719 79 AEPT036-00*-1* 30,000 26,000 14 12.5 31,000 3.5 8.5 19,000 2.6 539708 ARPT032-00*-1* 29,000 22,300 13 11.6 30,000 3.3 8 18,000 2.4 539801 ARUF032-00*-1* 29,000 22,300 13 11.6 30,000 3.3 8 18,000 2.4 539793 CA*F030*2*+EEP 30,000 23,000 13 11.6 30,000 3.3 7.8 18,000 2.4 539762 CA*F042*2*+EEP 30,000 23,000 13 11.6 30,000 3.3 7.8 18,000 2.4 539751 CHPF030A2*+EEP 30,000 22,300 13 11.6 30,000 3.3 7.8 18,000 2.4 539757 CHPF042B2*+EEP 30,000 22,300 13 11.6 30,000 3.3 7.8 18,000 2.4 539752 H36F+EEP 29,000 22,300 13 11.6 30,000 3.3 7.8 18,000 2.4 539761 C P R T 3 6 - 1 AEPT036-00*-1* 35,000 25,300 14 12.6 37,000 3.5 8.5 21,000 2.3 539780 79 ARPT049-00*-1* 35,000 25,300 13 11.6 36,000 3.5 8 20,000 2.3 539787 ARUF048-00*-1* 35,000 25,300 13 11.6 36,000 3.5 8 20,000 2.3 539809 ARUF049-00*-1* 35,000 25,300 13 11.6 36,000 3.5 8 20,000 2.3 539775 CA*F048*2*+EEP 35,000 25,300 13 11.6 36,000 3.48 8 20,000 2.28 539807 CHPF048D2*+EEP 35,000 25,300 13 11.6 36,000 3.48 8 20,000 2.28 539736 H60F+EEP 35,000 25,300 13 11.6 36,000 3.5 8 20,000 2.3 539792 65 PRODUCT SPECIFICATIONS CPRT Model Coil / Air Handler Cooling Capacity Heating Capacity ARI Ref. # D e c i b e l s Total BTUH S e n s i b l e B T U H S E E R E E R 47°F (BTUH) 47°F COP H S P F 17°F (BTUH) 17°F COP C P R T 4 2 - 1 AEPT060-00*-1* 40,000 30,400 14 12.6 41,000 3.8 8.5 23,000 2.5 539742 79 ARPT049-00*-1* 39,000 29,600 13 11.6 40,000 3.6 8.4 22,400 2.3 539709 ARUF049-00*-1* 39,000 29,600 13 11.6 40,000 3.6 8.4 22,400 2.3 539802 CA*F060*2*+EEP 39,000 29,600 13 11.6 40,000 3.6 8.4 22,400 2.28 539776 CHPF060D2*+EEP 39,000 29,600 13 11.6 40,000 3.6 8.4 22,400 2.28 539723 H61F+EEP 39,000 29,600 13 11.6 40,000 3.6 8.4 22,400 2.3 539806 C P R T 4 8 - 1 AEPT060-00*-1* 46,500 33,500 13.5 12 46,000 3.5 8.6 30,400 2.6 531554 79 ARPT061-00*-1* 46,500 33,500 13 11.6 46,000 3.5 8.5 30,400 2.5 531549 ARUF061-00*-1* 46,500 33,500 13 11.6 46,000 3.5 8.5 30,400 2.5 531544 CA*F048*2*+EEP 42,500 30,600 12 10.6 42,000 3.48 8 28,000 2.28 531542 CA*F060*2*+EEP 43,500 31,400 12.5 11 43,000 3.48 8.2 28,000 2.28 531559 CA*F061*2*+EEP 46,000 33,000 13 11.6 45,000 3.48 8.4 30,000 2.28 532778 CHPF060D2*+EEP 46,000 33,000 13 11.6 45,000 3.48 8.4 33,000 2.28 531545 H61F+EEP 46,000 33,000 13 11.6 45,000 3.5 8.4 30,000 2.3 531536 C P R T 6 0 - 1 AEPT060-00*-1* 55,000 40,000 13 11.6 55,000 3.5 8.5 35,000 2.6 531533 79 ARPT061-00*-1* 55,000 40,000 13 11.6 55,000 3.5 8.4 35,000 2.5 531532 ARUF061-00*-1* 55,000 40,000 13 11.6 55,000 3.5 8.4 35,000 2.5 531547 CA*F061*2*+EEP 54,000 39,400 13 11.6 54,000 3.4 8.4 34,000 2.4 531548 CHPF060D2*+EEP 54,000 39,400 13 11.6 54,000 3.48 8.4 34,000 2.4 531551 H61F+EEP 54,000 39,400 13 11.6 54,000 3.5 8.4 34,000 2.4 531541 1) Certified per ARI 210/240 @ 80 °F/67 °F/95 °F 2) TVA Rating 3) Seasonal Energy Efficiency Ratio 4) Energy Efficiency Ratio @ 80 °F/67 °F/95 °F 5) HSPF = Heating Seasonal Performance Factor 6) Order the EEP from the Service Department using Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. XX designates electric heat quantity When mix-matching outdoor and indoor units, the indoor unit check-flowrator must match the outdoor unit size. Performance Ratings 66 PRODUCT SPECIFICATIONS CPRT Heating Performance Expanded Ratings @ 70 °F Indoor Ambient CP * T 3 0 - 1 V S . AEPT030/AE30-XX 0 50 00 1 00 00 1 50 00 2 00 00 2 50 00 3 00 00 3 50 00 4 00 00 4 50 00 62 5 7 52 47 4 2 3 7 32 27 2 2 17 1 2 7 2 - 3 OU T S I D E de g F 0 1 2 3 4 5 CP* T30-1 VS. U/ UC32+EEP, U/ UC42+EEP, H 36F + E E P , 0 5000 1 0000 1 5000 2 0000 2 5000 3 0000 3 5000 4 0000 4 5000 62 57 52 47 42 37 32 27 22 17 12 7 2 - 3 OU T S I D E d e g F 0 1 2 3 4 5 CP* T24-1 VS. AEPT024, AE24XX 0 5 000 1 0 000 1 5 000 2 0 000 2 5 000 3 0 000 3 5 000 62 57 52 47 42 3 7 32 2 7 22 17 12 7 2 - 3 OU T S I D E d e g F 0 1 2 3 4 5 CP* T 2 4- 1 VS. U/ UC32 +E E P, U/ UC4 2 +EEP, H 3 6 F + E EP, ARPF036, ARPT032, ARUF032 0 50 00 1 00 00 1 50 00 2 00 00 2 50 00 3 00 00 3 50 00 62 57 5 2 47 4 2 3 7 32 27 2 2 17 1 2 7 2 - 3 OU T S I D E d e g F 0 1 2 3 4 5 C P * T 3 6 - 1 VS. U / U C 4 9 + E E P , H 6 0 F + EEP , ARUF048 0 1 000 0 2 000 0 3 000 0 4 000 0 5 000 0 6 000 0 62 5 7 52 47 4 2 37 32 2 7 2 2 17 1 2 7 2 - 3 OU T S I D E d e g F 0 1 2 3 4 5 C P * T 36 - 1 V S . AEPT036/AE36-XX 0 1 0000 2 0000 3 0000 4 0000 5 0000 6 0000 62 57 52 47 42 37 32 27 22 17 12 7 2 - 3 O U T S I D E de g F 0 1 2 3 4 5 C P * T 4 2 - 1 VS. U / U C 6 0 + EEP, H 6 1 F +EEP, 0 10000 20000 30000 40000 50000 60000 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 O U T S I D E de g F 0 1 2 3 4 5 C P * T 42- 1 V S . 0 1 000 0 2 000 0 3 000 0 4 000 0 5 000 0 6 000 0 6 2 5 7 5 2 4 7 42 37 32 27 22 17 12 7 2 - 3 O U T S I D E de g F 0 1 2 3 4 5 HEA TING BTUH COP TI NG CP * T 3 0 - 1 V AEPT036/AE36 -XX S. 0 5 000 1 0 000 1 5 000 2 0 000 2 5 000 3 0 000 3 5 000 4 0 000 4 5 000 62 57 5 2 47 42 3 7 32 27 22 1 7 12 7 2 - 3 OU T S I D E d e g F 0 1 2 3 4 5 C P * T 48- 1 V S . U/ U C 61+ E E P , H 61F + E E P 0 1 0000 2 0000 3 0000 4 0000 5 0000 6 0000 7 0000 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 O U T S I D E de g F 0. 0 0 1. 0 0 2. 0 0 3. 0 0 4. 0 0 5. 0 0 C P * T 48 - 1 VS . 0 1 000 0 2 000 0 3 000 0 4 000 0 5 000 0 6 000 0 7 000 0 62 57 5 2 4 7 4 2 37 32 27 22 17 12 7 2 -3 O U T S I D E de g F 0. 0 0 1. 0 0 2. 0 0 3. 0 0 4. 0 0 5. 0 0 C P * T 48 - 1 V S . A E / /AEPT060 0 1 0 000 2 0 000 3 0 000 4 0 000 5 0 000 6 0 000 7 0 000 62 57 52 47 42 37 32 27 2 2 1 7 1 2 7 2 -3 O U T S I D E de g F 0. 0 0 1. 0 0 2. 0 0 3. 0 0 4. 0 0 5. 0 0 C P * T 60- 1 V S . U / U C 61+ E E P , H 61F + E E P 0 1 00 00 2 00 00 3 00 00 4 00 00 5 00 00 6 00 00 7 00 00 8 00 00 62 57 5 2 47 42 37 32 27 22 17 12 7 2 - 3 OU T S I D E de g F 0. 0 0 1. 0 0 2. 0 0 3. 0 0 4. 0 0 5. 0 0 CP * T 6 0 - 1 V S . 0 1 000 0 2 000 0 3 000 0 4 000 0 5 000 0 6 000 0 7 000 0 8 000 0 62 57 5 2 47 42 3 7 32 27 2 2 17 12 7 2 - 3 OU T S I D E de g F 0. 0 0 1. 0 0 2. 0 0 3. 0 0 4. 0 0 5. 0 0 C P * T 6 0 - 1 VS. 0 1 00 0 0 2 00 0 0 3 00 0 0 4 00 0 0 5 00 0 0 6 00 0 0 7 00 0 0 8 00 0 0 62 5 7 52 4 7 4 2 3 7 32 27 2 2 17 1 2 7 2 - 3 OU T S I D E d e g F 0. 0 0 1. 0 0 2. 0 0 3. 0 0 4. 0 0 5. 0 0 ARPF036, AR PT032, ARUF032 ARPF048, ARPT049, ARUF049 AEPT048/AE48-XX A E /AEPT060 ARPF060, ARPT061, ARUF061 ARPF060, ARPT061, ARUF061 67 PRODUCT SPECIFICATIONS CPLT Specifications Electrical Data FORMED INTO BOTTOM PAN ELEVATED CHANNEL ADDITIONAL 1-1/2" LIQUID CONN. W H 7/8" DIAMETER CONTROL 1-1/8" DIAMETER POWER SUCTION CONN. D Model Nominal Cooling Capacity (BTUH) Nominal Heating Capacity (BTUH Service Valve Compressor Condenser Fan Ship Weight (lbs) Liquid Suction Connection Type RLA LRA Type HP FLA CPLT24-1B 22,800 23,000 3/8” 3/4” Sweat 10.9 54 Scroll 1/6 0.9 137 CPLT30-1B 30,000 31,000 3/8” 3/4” Sweat 13.5 72.5 Scroll 1/6 0.9 142 CPLT36-1B 35,000 36,000 3/8” 7/8” Sweat 14.8 83 Scroll 1/4 1.6 152 CPLT42-1B 40,000 40,000 3/8” 7/8” Sweat 17.1 95 Scroll 1/4 1.6 162 CPLT48-1B 46,500 46,000 3/8” 7/8” Sweat 18.4 109 Scroll 1/4 1.6 249 CPLT60-1B 55,000 55,000 3/8” 7/8” Sweat 22.1 137 Scroll 1/4 1.6 337 Model Minimum Circuit Ampacity Maximum Overcurrent Protection Voltage-Phase Minimum Volts Maximum Volts CPLT24-1B 14.5 20 208/230-1 197 253 CPLT30-1B 17.8 30 208/230-1 197 253 CPLT36-1B 20.1 30 208/230-1 197 253 CPLT42-1B 23 40 208/230-1 197 253 CPLT48-1B 24.6 40 208/230-1 197 253 CPLT60-1B 29.2 50 208/230-1 197 253 1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes. 2) May use fuses or HACR type Circuit Breakers of the same size as noted. Model Width Depth Height CPLT24-1B 29” 29” 31.5” CPLT30-1B 29” 29” 26.5” CPLT36-1B 29” 29” 29” CPLT42-1B 29” 29” 31.5” CPLT48-1B 35.5” 35.5” 31.5” CPLT60-1B 35.5” 35.5” 35.5” Dimensions 68 PRODUCT SPECIFICATIONS CPLT Performance Ratings Heat Pump Coil / Air Handler Total BTUH Sensible BTUH SEER EER 47° F Htg Cap (Btuh) 47°F (COP) HSPF 17°F Htg Cap (Btuh) 17°F (COP) ARI Ref. # D e c i b e l s C P L T 2 4 - 1 * AEPT030-00*-1* 22,800 17,000 14.0 12.6 23,000 3.50 7.5 11,500 2.50 517455 72 ARPT032-00*-1* 22,800 17,000 13.0 11.6 23,000 3.30 7.7 11,500 2.30 517453 ARUF032-00*-1* 22,800 17,000 13.0 11.6 23,000 3.30 7.7 11,500 2.30 517452 CA*F030*2*+EEP 22,800 17,000 13.0 11.6 23,000 3.30 7.3 11,500 2.28 516876 CA*F042*2*+EEP 22,800 17,000 13.0 11.6 23,000 3.30 7.3 11,500 2.28 516871 CHPF030A2*+EEP 22,800 17,000 13.0 11.6 23,000 3.30 7.3 11,500 2.28 516906 CHPF042B2*+EEP 22,800 17,000 13.0 11.6 23,000 3.30 7.3 11,500 2.28 516884 H36F+EEP 22,800 17,000 13.0 11.6 23,000 3.30 7.5 11,500 2.30 516899 C P L T 3 0 - 1 * AEPT030-00*-1* 29,000 21,200 13.5 12.0 30,000 3.42 8.0 18,000 2.52 517448 77 AEPT036-00*-1* 30,000 22,300 14.0 12.5 31,000 3.50 8.5 19,000 2.60 517462 ARPT032-00*-1* 29,000 21,200 13.0 11.6 30,000 3.30 8.0 18,000 2.40 517463 ARUF032-00*-1* 29,000 21,200 13.0 11.6 30,000 3.30 8.0 18,000 2.40 517458 CA*F030*2*+EEP 30,000 22,300 13.0 11.6 30,000 3.30 7.8 18,000 2.40 516885 CA*F042*2*+EEP 30,000 22,300 13.0 11.6 30,000 3.30 7.8 18,000 2.40 516882 CHPF030A2*+EEP 30,000 22,300 13.0 11.6 30,000 3.30 7.8 18,000 2.40 516895 CHPF042B2*+EEP 30,000 22,300 13.0 11.6 30,000 3.30 7.8 18,000 2.40 516901 H36F+EEP 29,000 21,200 13.0 11.6 30,000 3.30 7.8 18,000 2.40 516905 C P L T 3 6 - 1 * AEPT036-00*-1* 35,000 26,000 14.0 12.6 37,000 3.50 8.5 21,000 2.30 517460 77 ARPT049-00*-1* 35,000 25,300 13.0 11.6 36,000 3.50 8.0 20,000 2.30 517461 ARUF048-00*-1* 35,000 25,300 13.0 11.6 36,000 3.50 8.0 20,000 2.30 517447 ARUF049-00*-1* 35,000 25,300 13.0 11.6 36,000 3.50 8.0 20,000 2.30 531807 CA*F048*2*+EEP 35,000 25,300 13.0 11.6 36,000 3.48 8.0 20,000 2.28 516909 CHPF048D2*+EEP 35,000 25,300 13.0 11.6 36,000 3.48 8.0 20,000 2.28 516894 H60F+EEP 35,000 25,300 13.0 11.6 36,000 3.50 8.0 20,000 2.30 516910 C P L T 4 2 - 1 * AEPT060-00*-1* 40,000 30,400 14.0 12.6 41,000 3.80 8.5 23,000 2.50 517459 77 ARPT049-00*-1* 39,000 29,600 13.0 11.6 40,000 3.60 8.4 22,400 2.30 517450 ARUF049-00*-1* 39,000 29,600 13.0 11.6 40,000 3.60 8.4 22,400 2.30 517457 CA*F060*2*+EEP 39,000 29,600 13.0 11.6 40,000 3.60 8.4 22,400 2.28 516929 CHPF060D2*+EEP 39,000 29,600 13.0 11.6 40,000 3.60 8.4 22,400 2.28 516913 H61F+EEP 39,000 29,600 13.0 11.6 40,000 3.60 8.4 22,400 2.30 516912 C P L T 4 8 - 1 * AEPT060-00*-1* 46,500 33,500 13.5 12.0 46,000 3.51 8.6 30,400 2.61 517451 77 ARPT061-00*-1* 46,500 33,500 13.0 11.6 46,000 3.51 8.5 30,400 2.52 517449 ARUF061-00*-1* 46,500 33,500 13.0 11.6 46,000 3.50 8.5 30,400 2.52 517454 CA*F048*2*+EEP 42,500 30,600 12.0 10.6 42,000 3.48 8.0 28,000 2.28 516928 CA*F060*2*+EEP 43,500 31,400 12.5 11.0 43,000 3.48 8.2 28,000 2.28 516916 CHPF060D2*+EEP 46,000 33,000 13.0 11.6 45,000 3.48 8.4 33,000 2.28 516914 H61F+EEP 46,000 33,000 13.0 11.6 45,000 3.51 8.4 30,000 2.31 516923 C P L T 6 0 - 1 * AEPT060-00*-1* 55,000 40,000 13.0 11.6 55,000 3.51 8.5 35,000 2.61 517446 77 ARPT061-00*-1* 55,000 40,000 13.0 11.6 55,000 3.50 8.4 35,000 2.52 518833 ARUF061-00*-1* 55,000 40,000 13.0 11.6 55,000 3.50 8.4 35,000 2.52 517445 CA*F061*2*+EEP 54,000 39,600 13.0 11.6 54,000 3.39 8.4 34,000 2.40 516921 CHPF060D2*+EEP 54,000 39,600 13.0 11.6 54,000 3.48 8.4 34,000 2.40 516925 H61F+EEP 54,000 39,600 13.0 11.6 54,000 3.51 8.4 34,000 2.40 516927 1) Certified per ARI 210/240 @ 80 °F/67 °F/95 °F 2) TVA Rating 3) Seasonal Energy Efficiency Ratio 4) Energy Efficiency Ratio @ 80 °F/67 °F/95 °F 5) HSPF = Heating Seasonal Performance Factor 6) Order the EEP from the Service Department using Part No. B13707-38 or new Solid State Board B13707-35S. Part No. B13707-38 is not interchangeable with B13707-35S. XX designates electric heat quantity When mix-matching outdoor and indoor units, the indoor unit check-flowrator must match the outdoor unit size. 69 PRODUCT SPECIFICATIONS CPLT Heating Performance Expanded Ratings @ 70 °F Indoor Ambient C O P C O P C P L T 3 0 - 1 * v s . A E P T 0 3 0 0 5 0 0 0 1 0 0 0 0 1 5 0 0 0 2 0 0 0 0 2 5 0 0 0 3 0 0 0 0 3 5 0 0 0 4 0 0 0 0 4 5 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 1 2 3 4 5 0 5 0 0 0 1 0 0 0 0 1 5 0 0 0 2 0 0 0 0 2 5 0 0 0 3 0 0 0 0 3 5 0 0 0 4 0 0 0 0 4 5 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 1 2 3 4 5 C P L T 2 4 - 1 * v s . A E P T 0 2 4 0 5 0 0 0 1 0 0 0 0 1 5 0 0 0 2 0 0 0 0 2 5 0 0 0 3 0 0 0 0 3 5 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 1 2 3 4 5 C P L T 2 4 - 1 * v s . H 3 6 F + E E P , A R P F 0 3 6 , A R P T 0 3 2 , A R U F 0 3 2 0 5 0 0 0 1 0 0 0 0 1 5 0 0 0 2 0 0 0 0 2 5 0 0 0 3 0 0 0 0 3 5 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 1 2 3 4 5 C P L T 3 6 - 1 * v s . H 6 0 F + E E P , A R U F 0 4 8 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 1 2 3 4 5 C P L T 3 6 - 1 * v s . A E P T 0 3 6 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 1 2 3 4 5 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 1 2 3 4 5 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 1 2 3 4 5 H E A T I N G B T U H C O P C O P C O P C O P C O P C O P C O P C O P C O P C O P C O P C O P C O P C P L T 3 0 - 1 * v s . A E P T 0 3 6 0 5 0 0 0 1 0 0 0 0 1 5 0 0 0 2 0 0 0 0 2 5 0 0 0 3 0 0 0 0 3 5 0 0 0 4 0 0 0 0 4 5 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 1 2 3 4 5 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 7 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 . 0 0 1 . 0 0 2 . 0 0 3 . 0 0 4 . 0 0 5 . 0 0 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 7 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 . 0 0 1 . 0 0 2 . 0 0 3 . 0 0 4 . 0 0 5 . 0 0 C P L T 4 8 - 1 * v s . A E P T 0 6 0 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 7 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 .0 0 1 . 00 2 . 00 3 . 00 4 . 00 5 . 00 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 7 0 0 0 0 8 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 . 0 0 1 . 0 0 2 . 0 0 3 . 0 0 4 . 0 0 5 . 0 0 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 7 0 0 0 0 8 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 . 0 0 1 . 0 0 2 . 0 0 3 . 0 0 4 . 0 0 5 . 0 0 C P L T 3 0 - 1 * v s . H 3 6 F + E E P , A R P F 0 3 6 , A R P T 0 3 2 , A R U F 0 3 2 C P L T 4 2 - 1 * v s . H 6 1 F + E E P , A R P F 0 4 8 , A R P T 0 4 9 , A R U F 0 4 9 C P L T 4 2 - 1 * v s . A E P T 0 4 8 C P L T 6 0 - 1 * v s . A E P T 0 6 0 C P L T 4 8 - 1 * v s . A R P F 0 6 0 , A R P T 0 6 1 , A R U F 0 6 1 C P L T 6 0 - 1 * v s . A R P F 0 6 0 , A R P T 0 6 1 , A R U F 0 6 1 C P L T 4 8 - 1 * v s . H 6 1 F + E E P C P L T 6 0 - 1 * v s . H 6 1 F + E E P 0 1 0 0 0 0 2 0 0 0 0 3 0 0 0 0 4 0 0 0 0 5 0 0 0 0 6 0 0 0 0 7 0 0 0 0 8 0 0 0 0 6 2 5 7 5 2 4 7 4 2 3 7 3 2 2 7 2 2 1 7 1 2 7 2 - 3 O U T S I D E d e g F 0 . 0 0 1 . 0 0 2 . 0 0 3 . 0 0 4 . 0 0 5 . 0 0 C O P H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H H E A T I N G B T U H 70 PRODUCT SPECIFICATIONS HDP ELECTRICAL DATA POWER SUPPLY COMPRESSOR CONDENSER FAN MOTOR MODEL VOLTS PH HZ +MINIMUM CIRCUIT AMPACITY *MAXIMUM OVERCURRENT PROTECTION MAXIMUM VOLTS MINIMUM VOLTS RLA LRA FLA HP HDP12-1A 208/240 1 60 8.0 15 253 197 5.9 29 .6 1/15 HDP18-1A 208/240 1 60 14.2 20 253 197 10.9 60 .6 1/15 HDP24-1A 208/240 1 60 16.6 30 253 197 12.8 61 .6 1/15 *May use fuses or HACR type Circuit Breakers of the same size as noted. +Wire size should be determined in accordance with National Electrical Codes. Extensive wire runs will require larger wire sizes. COOL AND HEAT PERFORMANCE DATA (2) BTUH @ 75°F/63°-95°F OUTDOOR SECTION INDOOR SECTION TOTAL COOLING BTUH (1) SENS. COOLING BTUH TOTAL SENS COOLING SEER (4) COOLING EER (3) HEATING BTUH 47°F HEATING COP 47°F HEATING BTUH 17°F HEATING COP 17°F HEATING HSPF SOUND RATING BELS HDP12-1A WMH12-1A WMH18-1A 11000 12600 6800 8800 10600 12200 6000 6950 10.00 10.00 9.00 9.00 11400 12000 2.80 2.80 6000 6500 2.00 2.00 6.80 6.80 7.4 HDP18-1A WMH18-1A WMH24-1A 16800 17600 10900 11500 16300 17000 9650 10000 10.00 10.00 9.00 9.00 16000 17000 2.80 2.80 9000 9400 2.00 2.00 6.80 6.80 7.4 HDP24-1A WMH24-1A 19000 13000 18300 10000 10.00 9.00 19000 2.80 10400 2.00 6.80 7.4 (1) Certified per ARI 210/240 @80°F/67°-95°F (2) TVA Rating (3) Energy Efficiency Ratio (4) Seasonal Energy Efficiency Ratio HSPF = Heating Seasonal Performance Factor PHYSICAL DATA FAN DIA. CM (IN) (18) RPM 950 COIL FACE AREA FT 2 6.10 TUBE DIA. - (IN) 3/8 NO. ROWS/FINS/IN 1R/19 FPI FIN TYPE RIPPLED REFRIGERANT CON. LIQUID DIA - (IN) 3/8 SUCTION DIA - (IN) 5/8 TYPE FLARE WEIGHT (LBS). 130 WIRING DIAGRAM - LINE VOLTAGE CONTROL CIRCUIT (TYPICAL WIRING FOR USE WITH DUCTLESS INDOOR SECTION) DIMENSIONAL DATA HDP12=2 HDP18=2 HDP24=2 11" 35" NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE. 71 PRODUCT SPECIFICATIONS UC-** COIL Uncased Upflow £vaporator Coils hodeI 0imensions Speciñcations A ß C NominaI Tons NominaI CFh Static Pressure Wet CoiI No. Pows Liquid Conn. Suction Conn. Ship Weight (pounds) UC·18 1J" 14½" 20ǩ´ 1½ 650 .20 2 Ǫ´ ǫ´ 14 UC·29 1J" 14" 20ǩ´ *2 · 2½ 900 .20 2 Ǫ´ ¾" 16 UC·J2 1J" 17Ǭ´ 20ǩ´ 2½ 1.000 .J0 J Ǫ´ ¾" 24 UC·J5 1J" 18 ½" 20ǩ´ J 1.200 .J0 2 Ǫ´ ¾" 18 UC·J6 17" 17½" 20ǩ´ J 1.200 .25 2 Ǫ´ ¾" 19 UC·42 17" 1¾" 20ǩ´ J½ 1.400 .J0 J Ǫ´ ¾" J4 UC·47 17" 22ǩ´ 20ǩ´ 4 1.600 .J0 J Ǫ´ Ǭ´ J1 UC·49 19¾" 21Ǭ´ 20ǩ´ 4 1.600 .J0 J Ǫ´ Ǭ´ JJ UC·59 19¾" 25Ǭ´ 20ǩ´ 5 2.000 .J0 J Ǫ´ Ǭ´ J6 UC·60 20½" 21½" 2J" 5 2.000 .J0 J Ǫ´ Ǭ´ 42 UC·61 20½" 22" 2J" 5 2.000 .J0 4 Ǫ´ Ǭ´ 44 UC·62 19½" 26ǩ´ 20ǩ´ 5 2.000 .J0 4 Ǫ´ Ǭ´ 47 NOT£S: 1) See back sheet for installation tips. 2) Do not use this coil on oil furnaces or anv applications where the temperature on drain pan mav exceed 3OOf. Use the following metal drain pans: 15236-1o (u-1o thru u-32), 15236-19 (u-36 thru u-17), 15236-2O (u/uc-6O thru u-61), and field fabricated metal pan for (u/uc-19, u/uc-59, and u/uc-62). 3) * Uc-29 comes with 2 ton flowrater b13131-59. lf 2-1/2 ton matching is required, install provided piston kit b17o9o-65. UC-60 & UC-61 Access Panel View UC-1S thru UC-42, UC-47, UC-49, UC-59, & UC-62 Access Panel View See Spec Sheet for in stallation tips. 72 PRODUCT SPECIFICATIONS UC-** COIL Cased Upflow £vaporator Coils hodeI 0imensions Speciñcations A ß C 0 E F NominaI Tons NominaI CFh Static Pressure Wet CoiI No. Pows Liquid Conn. Suction Conn. Ship Weight (pounds) U·18 14½" 12¾" 14" ½" 1J½" · 1½ 650 .20 2 Ǫ´ ǫ´ 24 U·29 14½" 12¾" 14" ½" 1J½" · *2 · 2½ 900 .20 2 Ǫ´ ¾" 26 U·J0 18½" 17½" 16" ½" 17½" · 2½ 1.000 .J0 2 Ǫ´ ¾" JJ U·J1 14½" 12¾" 14" ½" 1J½" · 2½ 1.000 .J0 J Ǫ´ ¾" J0 U·J2 18½" 17½" 16" ½" 17½" 2" 2½ 1.000 .25 J Ǫ´ ¾" 41 U·J5 14½" 12½" 14" ½" 1J½" 4ǩ´ J 1.200 .J0 2 Ǫ´ ¾" 29 U·J6 18½" 17½" 16" ½" 17½" 1¾" J 1.200 .J0 2 Ǫ´ ¾" 40 U·42 18½" 17½" 16" ½" 17½" 2" J½ 1.400 .J0 J Ǫ´ ¾" 48 U·47 18½" 17½" 16" ½" 17½" 6" 4 1.600 .J0 J Ǫ´ Ǭ´ 50 U·49 21ǩ´ 20ǩ´ 27" ½" 20" · 4 1.600 .J0 J Ǫ´ Ǭ´ 51 U·59 21ǩ´ 20ǩ´ 27" ½" 20" · 5 2.000 .J0 J Ǫ´ Ǭ´ 54 U·60 24½" 2Jǩ´ 20½" ½" 20ǩ´ 1" 5 2.000 .J0 J Ǫ´ Ǭ´ 60 U·61 24½" 2Jǩ´ 20½" ½" 20ǩ´ 1ǫ´ 5 2.000 .J0 4 Ǫ´ Ǭ´ 62 U·62 21ǩ´ 20ǩ´ 27" ½" 20" · 5 2.000 .J0 4 Ǫ´ Ǭ´ 68 NOT£: for drain pan specifications, refer to note 2 on page 2. 1.) * U-29 comes with 2 ton flowrator b13131-59. lf 2 1/2 matching is required, install provided piston Kl1 B17o9o-65. U-60 & U-61 Access Panel View U-1S thru U-42, U-47, U-49, U-59, & U-62 Access Panel View 73 PRODUCT SPECIFICATIONS UC-** COIL 1 Certified per ARl 21O 2 B1U/Watt · oO/67 l inside - 95 l outside air 3 M.C.A. (Minimum Circuit Ampacitv) 1 M.Ò.l. (Maximum Òvercurrent lrotection) Furnace Vodel No. CVP050·J CVP050·J2(C) CVP075·J CVP075·J2(C) CVPH050·J CVPN040·J CVPN060·J CVT045·J (N0) CVT070·J (N0) CVTH045·J (N0) CSV060·J (N0) CSVS060·J (N0) CSU060·J (*) C0T045·J C0T070·J CVNT040·J CVNT060·J CP0050·J CP0075·J CVP075·J CVP100·J CVP100·4 CVP100·42(C) CVPE075·J CVPH075·4 CVPN080·4 CVT070·4 (N0) CVT090·J (N0) CVT090·4 (N0) CVTH070·4 (N0) CSV080·4 (N0) CSVS080·4 (N0) CSU080·4 (*) C0T090·4 CVNT080·4 CP0100·4 CVP100·5 CVP125·4 CVP125·5 CVP125·52(C) CVPE100·4 CVPE125·5 CVPH080·5 CVPN100·4 CVT090·5 (N0) CVT115·5 (N0) CVTH115·5 (N0) CSV100·4 (N0) CSVS100·4 (N0) CSU100·4 (*) C0T115·5 CVNT100·4 CP0125·4 CVP150·5 CVP150·52(C) CVPH120·5 CVPN120·5 CVT140·5 (N0) CVNT120·5 CDIL hD0EL ND. Nominal Furnace Width 14" 14" 17 ½" 17 ½" 21" 21" 24 ½" 24 ½" 0FK Vodel No.(J) 0FK · 14 0FKT·14 0FK · 17 0FKT·17 0FK · 21 0FKT · 21 0FK - 24 0FKT - 24 Nominal Coil Width U-18 14" X X U-2º 14" X X U-30 17 ½" X(1) X(1) X(2) X(2) U-31 14" X X U-32 17 ½" X(1) X(1) X(2) X(2) U-35 14" X X U-36 17½" X(1) X(1) X(2) X(2) U-42 17½" X(1) X(1) X(2) X(2) U-47 17½" X X U-4º 21" X(1) X(1) X(2) X(2) U-5º 21" X(1) X(1) X(2) X(2) U-60 24 ½" X(1) X(1) X(2) X(2) U-61 24 ½" X(1) X(1) X(2) X(2) U-62 21" X(1) X(1) X(2) X(2) 127(: 1. Do not use this coil on oil furnaces or anv applications where the temperature on drain pan mav exceed 3OOl. Use the following metal drain pans: 15236-1o (U-1o thru U-32), 15236-19 (U-36 thru U-17), and 15236-2O (U/UC-6O thru U-61). 2. Due to the rating mix/match of various coils with outdoor units it is important to match the furnace air flow for the total svstem capacitv. (Refer to the furnace sheet c spec. sheet c condenser/heat pump spec. sheet.) &DVHG8&RLO$SSOLFDWLRQ2SWLRQV 74 PRODUCT SPECIFICATIONS H SERIES HORIZONTAL EVAPORATOR COILS 2 THRU 5 TONS (WITH FLOWRATER) HORIZONTAL COILS DIMENSIONS SPECIFICATIONS COIL MODEL NOMINAL TONS A B C NOMINAL CFM STATIC PRESSURE WET COIL NO. ROWS LIQUID CONN SUCTION CONN SHIP WT. H-24F 2 25-1/2 16 6 800 .07 2 3/8 3/4 26 H-36F 3 25-1/2 16 6 1200 .15 3 3/8 3/4 42 H-49F 4-1/2 33-1/2 24 6 1800 .20 3 3/8 7/8 53 H-60F 5 39-1/2 30 6 2150 .22 3 3/8 7/8 58 H-61F 5 39-1/2 30 6 2150 .24 4 3/8 7/8 65 *CONVERTIBLE TO EXPANSION -VALVE WITH THE ADDITION OF AN XV24-60 EXPANSION KIT. NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE. 75 PRODUCT SPECIFICATIONS HT SERIES DIMENSIONS A B C D E CABINET SIZE HT COIL MODEL IN MM IN MM IN MM IN MM IN MM HT-1830 14.00 355.6 21.125 536.57 24.436 620.66 19.875 504.82 12.75 323.85 SMALL HT-3236 14.00 355.6 21.125 536.57 24.436 620.66 19.875 504.82 12.75 323.85 HT-36 17.50 444.5 21.125 536.57 24.436 620.66 19.875 504.82 16.25 412.75 MEDIUM HT-4248 17.50 444.5 21.125 536.57 24.436 620.66 19.875 504.82 16.25 412.75 HT-4860 21.00 533.4 24.00 609.6 27.882 708.20 22.75 577.85 19.75 501.65 LARGE HT-61 21.00 533.4 24.00 609.6 27.882 708.20 22.75 577.85 19.75 501.65 * All air-opening flanges are 0.625” (15.62mm) SPECIFICATIONS MODEL HT-1830 HT-3236 HT-36 HT-4248 HT-4860 HT-61 EVAPORATOR COIL FACE AREA (Sqft/Sqm.) 3.33 (.309) 3.33 (.309) 4.44 (.412) 4.44 (.412) 6.11 (.568) 6.11 (.568) ROWS 2 3 2 3 3 4 FIN PER INCH 14 14 14 14 14 14 DRAINS CONNECTION PRIMARY AUXILLIARY (in/mm) ¾” (19.05) ¾” (19.05) ¾” (19.05) ¾” (19.05) ¾” (19.05) ¾” (19.05) REFRIGERATION LINE CONNECTION VAPOR (in/mm) ¾” (19.05) ¾” (19.05) ¾” (19.05) ¾” (19.05) 7 / 8 ” (22.225) 7 / 8 ” (22.225) LIQUID (in/mm) 3 / 8 ” (9.525) 3 / 8 ” (9.525) 3 / 8 ” (9.525) 3 / 8 ” (9.525) 3 / 8 ” (9.525) 3 / 8 ” (9.525) SHIPPING WEIGHT (Lbs/Kg) 40 (18.143) 45 (20.412) 50 (22.680) 55 (24.948) 65 (29.484) 70 (31.751) * Refer to outdoor unit Installation and Operations Manual for proper refrigeration line sizes. Installer may need to supply adapter. Sp Sp Sp Sp Spe ee eec cc ccif if if if ific ic ic ic icat at at at ation ion ion ion ions ss ss 76 PRODUCT SPECIFICATIONS HT SERIES HT AIR FLOW DATA STATIC PRESSURE DROP ACROSS COIL; HORIZONTAL RIGHT APPLICATIONS COIL MODEL AIR QUANTITY (CFM) VS. PRESSURE DROP (IN/WC) 975 1075 1175 1250 1350 WET 0.14 0.17 0.21 0.26 0.31 HT-1830 DRY 0.08 0.11 0.15 0.21 0.26 950 1050 1150 1250 1350 WET 0.14 0.17 0.22 0.27 0.32 HT-3236 DRY 0.08 0.11 0.15 0.20 0.25 1175 1275 1375 1450 1550 WET 0.14 0.17 0.21 0.25 0.31 HT-36 DRY 0.09 0.11 0.15 0.21 0.26 1150 1250 1350 1450 1550 WET 0.14 0.17 0.21 0.26 0.32 HT-4248 DRY 0.10 0.12 0.16 0.21 0.27 1750 1850 1950 2050 2150 WET 0.21 0.26 0.31 0.37 0.44 HT-4860 DRY 0.18 0.20 0.26 0.32 0.38 1750 1850 1950 2050 2150 WET 0.22 0.27 0.32 0.38 0.45 HT-61 DRY 0.19 0.21 0.27 0.33 0.39 NOTE: For horizontal left applications, reduce airflow to 3%. * Nominal CFM CASE COIL / FURNACE APPLICATION OPTION HT COIL CABINET SIZE (MM) 14” FURNACE GMNTE060-3 GMNT040-3 GMNT060-3 GMT045-3 GMT070-3 GMTH045-3 17½” FURNACE GMNTE080-4 GMNT080-4 GMT070-4 GMT090-3 GMT090-4 GMTH070-4 21” FURNACE GMNTE100-4 GMNT100-4 21” FURNACE GMT090-5 GMT115-5 GMTH090-5 HT-1830 14” (355.6mm) X X 1 X 1 HT-3236 14” (355.6mm) X X 1 X 1 X 1 HT-36 17.5” (444.5mm) X 1 X X 1 X 1 HT-4248 17.5” (444.5mm) X X 1 X 1 HT-4860 21” (533.4mm) X X HT-61 21” (533.4mm) X * Due to the rating mix/match of various coils with outdoor units, it is important to match the furnace airflow for the total system capacity. Refer to furnace specification sheets for air flow charts. 1 Transition required. 77 PRODUCT SPECIFICATIONS CAUF CAUF—Uncased Upflow/Downflow Indoor Coils 3/4" Female NPT Primary & Secondary Drain Connections (Important: Hand Connection Connection Tighten) Liquid Suction 20-1/8’’ A B Model Dimensions Specifications Ship Weight (lbs) Width (A) Height (B) Nominal Tons No. of Rows Liquid Connection Suction Connection CAUF018A2* 13” 16¼” 1½ 2 3/8” 5/8” 18 CAUF024A2* 13” 16-1/8” 2 2 3/8” 3/4” 21 CAUF030A2* 13” 18-1/8” 2½ 3 3/8” 3/4” 24 CAUF036A2A 13” 20” 3 3 3/8” 3/4” 31 CAUF036A2B 13” 20” 3 2 3/8” 3/4” 30 CAUF018B2* 16½” 16-1/8” 1½ 2 3/8” 5/8” 18 CAUF025B2* 16½” 16¼” 2 3 3/8” 3/4” 21 CAUF030B2* 16½” 16-1/8” 2½ 3 3/8” 3/4” 24 CAUF030C2* 20” 2½ 3 3/8” 3/4” 31 CAUF030B4* 16½” 20” 2½ 3 3/8” 3/4” 31 CAUF036B2A 16½” 20” 3 3 3/8” 3/4” 31 CAUF036B2B 16½” 20” 3 2 3/8” 3/4” 31 CAUF036B4* 16½” 19-15/16” 3 3 3/8” 3/4” 43 CAUF036C2* 20” 20” 3 2 3/8” 3/4” 34 CAUF037B2* 16½” 20” 3 3 3/8” 3/4” 31 CAUF037C2A 20” 18” 3 3 3/8” 3/4” 43 CAUF037D2* 23” 3 3 3/8” 3/4” 44 CAUF042B2* 16½” 19-15/16” 3½ 3 3/8” 3/4” 43 CAUF048B2* 16½” 23-15/16” 4 3 3/8” 7/8” 44 CAUF042C2* 20” 21-7/16” 3½ 3 3/8” 3/4” 43 CAUF042C4* 20” 23¾” 3½ 3 3/8” 7/8” 44 CAUF048C2* 20” 23½” 4 3 3/8” 7/8” 44 CAUF048C4* 20” 23½” 4 3 3/8” 7/8” 44 CAUF049C2* 20” 23¾” 4 3 3/8” 7/8” 44 CAUF060C2* 20” 27-15/16” 5 3 3/8” 7/8” 55 CAUF061C2* 20” 27-15/16” 5 4 3/8” 7/8” 55 CAUF049D2* 23” 23¾” 4 3 3/8” 7/8” 44 CAUF057D4* 23” 28¼” 5 3 3/8” 7/8” 55 CAUF060D2* 23” 28¼” 5 3 3/8” 7/8” 55 CAUF060D4* 23” 27¾” 5 4 3/8” 7/8” 60 CAUF061D2* 23” 27¾” 5 4 3/8” 7/8” 60 * Revision designator; see Nomenclature on page 2 for details. * Revis ion des ign a t or 78 PRODUCT SPECIFICATIONS CAPF CAPF—Cased Upflow/Downflow Indoor Coils Connection Suction Connection Liquid Tighten) (Important: Hand Drain Connections Primary & Secondary 3/4" Female NPT 20-1/8 21-1/8 1 5 8 19 5 8 5 8 1 2 1 2 A B C C Model Dimensions Plenum Opening Width (C) Specifications Ship Weight (lbs) Width (A) Height (B) Nominal Tons No. of Rows Liquid Connection Suction Connection CAPF018A2* 14” 18” 13” 1½ 2 3/8” 5/8” 31 CAPF018B2* 17½” 18” 16½” 1½ 2 3/8” 5/8” 33 CAPF024A2* 14” 18” 13” 2 2 3/8” 3/4” 33 CAPF025B2* 17½” 18” 16½” 2 3 3/8” 3/4” 35 CAPF030A2* 14” 18” 13” 2½ 3 3/8” 3/4” 38 CAPF030B2* 17½” 18” 16½” 2½ 3 3/8” 3/4” 42 CAPF030B4* 17½” 22” 16½” 2½ 3 3/8” 3/4” 48 CAPF030C2* 21” 22” 20” 2½ 3 3/8” 3/4” 48 CAPF036A2* 14” 22” 13” 3 2 3/8” 3/4” 38 CAPF036B2A 17½” 22” 16½” 3 3 3/8” 3/4” 48 CAPF036B2B/C 17½” 22” 16½” 3 2 3/8” 3/4” 48 CAPF036B4* 17½” 22” 16½” 3 3 3/8” 3/4” 60 CAPF036C2A 21” 26” 20 3 3 3/8” 3/4” 55 CAPF036C2B/C 21” 26” 20 3 2 3/8” 3/4” 55 CAPF036C2D 21” 22” 20 3 2 3/8” 3/4” 48 CAPF037B2* 17½” 22” 16½” 3 3 3/8” 3/4” 48 CAPF037C2A 21” 26’ 20 3 3 3/8” 3/4” 55 CAPF037C2B 21” 22” 20 3 3 3/8” 3/4” 60 CAPF037D2* 24½” 22” 23½” 3 3 3/8” 3/4” 60 CAPF042B2* 17½” 22” 16½” 3½ 3 3/8” 3/4” 60 CAPF042C2* 21” 26” 20 3½ 3 3/8” 3/4” 65 CAPF042C2D 21” 22” 20” 3½ 3 3/8” 3/4” 60 CAPF042C4* 21” 26” 20 3½ 3 3/8” 7/8” 57 CAPF048B2* 17½” 22” 16½” 4 3 3/8” 7/8” 55 CAPF048C2A 21” 26” 20 4 3 3/8” 7/8” 65 CAPF048C4* 21” 26” 20 4 3 3/8” 7/8” 65 CAPF049C2* 21” 26” 20 4 3 3/8” 7/8” 57 CAPF049D2* 24½” 26” 23½” 4 3 3/8” 7/8” 58 CAPF057D4* 24½” 30” 23½” 5 3 3/8” 7/8” 68 CAPF060C2* 21” 30” 20 5 3 3/8” 7/8” 61 CAPF060D2* 24½” 30” 23½” 5 3 3/8” 7/8” 68 CAPF060D4* 24½” 30” 23½” 5 4 3/8” 7/8” 75 CAPF061C2* 21” 30” 20 5 4 3/8” 7/8” 68 CAPF061D2* 24½” 30” 23½” 5 4 3/8” 7/8” 75 21-1/8 79 PRODUCT SPECIFICATIONS CHPF CHPF—Cased Horizontal “A” Indoor Coil C A B NOTE: All air opening flanges are 0.6250”. Model Dimensions Plenum Opening Evap Coil Face Area (ft2) Specifications Ship Weight (lbs) W i d t h ( A ) D e p t h ( B ) H e i g h t ( C ) W i d t h ( D ) H e i g h t ( E ) N o . o f R o w s F i n s / I n c h Primary Auxiliary Drain L i q u i d C o n n e c t i o n S u c t i o n C o n n e c t i o n CHPF024A2* 21-1/8” 26” 14” 19” 13” 3.33 2 14 3/4” 3/8” ¾” 40 CHPF025B2* 21-1/8” 26” 17½” 19” 16½” 3.56 2 14 3/4” 3/8” ¾” 48 CHPF030A2* 21-1/8” 26” 14” 19” 13” 3.33 3 14 3/4” 3/8” ¾” 45 CHPF030A4* 21-1/8” 26” 14” 19” 13” 3.33 3 14 3/4” 3/8” ¾” 45 CHPF036B2* 21-1/8” 26” 17½” 19” 16½” 4.44 2 14 3/4” 3/8” ¾” 50 CHPF036B4* 21-1/8” 26” 17½” 19” 16½” 4.44 3 14 3/4” 3/8” ¾” 55 CHPF042B2* 21-1/8” 26” 17½” 19” 16½” 4.44 3 14 3/4” 3/8” ¾” 55 CHPF048C2* 21-1/8” 26” 21” 19” 20” 4.88 3 14 3/4” 3/8” 7/8” 60 CHPF048D2* 21-1/8” 26” 24½” 19” 23½” 5.96 3 14 3/4” 3/8” 7/8” 65 CHPF048D4* 21-1/8” 26” 24½” 19” 23½” 5.96 3 14 3/4” 3/8” 7/8” 65 CHPF060D2* 21-1/8” 26” 24½” 19” 23½” 5.96 4 14 3/4” 3/8” 7/8” 70 CHPF060D4* 21-1/8” 26” 24½” 19” 23½” 5.96 4 14 3/4” 3/8” 7/8” 70 80 PRODUCT SPECIFICATIONS CAPF, CAUF, CHPF Air Flow Data Static Pressure Drop Across Coil, Upflow/Downflow Applications Air Quantity (SCFM) Vs. Pressure Drop (In. WC) * Revision designator; see Nomenclature on page 2 for details. CA**018A2* SCFM 400 500 600 700 800 900 1000 1100 1200 WET 0.043 0.065 0.092 0.122 0.163 0.211 0.266 0.315 0.365 DRY 0.036 0.054 0.077 0.103 0.133 0.167 0.212 0.256 0.303 CA**018B2* SCFM 400 500 600 700 800 900 1000 1100 1200 WET 0.050 0.064 0.109 0.150 0.190 0.229 0.289 0.320 --- DRY 0.034 0.052 0.073 0.097 0.124 0.156 0.179 0.223 0.267 CA**024A2* SCFM 400 500 600 700 800 900 1000 1100 1200 WET 0.039 0.060 0.086 0.116 0.148 0.189 0.231 0.278 0.320 DRY 0.034 0.052 0.073 0.098 0.129 0.163 0.205 0.254 0.293 CA**025B2* SCFM 400 500 600 700 800 900 1000 1100 1200 WET 0.039 0.073 0.110 0.151 0.198 0.249 0.304 0.369 0.436 DRY 0.034 0.055 0.083 0.117 0.153 0.193 0.239 0.285 0.339 CA**030A2* SCFM 400 500 600 700 800 900 1000 1100 1200 WET 0.049 0.072 0.104 0.138 0.179 0.227 0.276 0.320 --- DRY 0.043 0.064 0.090 0.120 0.155 0.199 0.245 0.293 0.340 CA**030B2* SCFM 400 500 600 700 800 900 1000 1100 1200 WET 0.019 0.043 0.071 0.102 0.139 0.180 0.226 0.281 0.340 DRY 0.010 0.034 0.060 0.084 0.113 0.145 0.175 0.213 0.255 CA**030C2* SCFM 400 500 600 700 800 900 1000 1100 1200 WET 0.016 0.036 0.061 0.089 0.122 0.161 0.199 0.247 0.294 DRY 0.011 0.028 0.049 0.073 0.100 0.130 0.164 0.200 0.241 CA**036A2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 WET 0.060 0.085 0.115 0.149 0.189 0.236 0.285 0.339 0.395 DRY 0.044 0.077 0.107 0.139 0.173 0.211 0.256 0.301 0.347 CA**036B2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 WET 0.036 0.038 0.054 0.073 0.097 0.124 0.148 0.179 0.212 DRY 0.013 0.031 0.045 0.061 0.079 0.102 0.127 0.150 0.176 CA**036C2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 1500 WET 0.021 0.030 0.045 0.062 0.080 0.101 0.121 0.147 0.172 0.431 DRY 0.015 0.026 0.038 0.052 0.069 0.089 0.108 0.128 0.150 0.346 CAP*037B2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 1500 WET 0.050 0.083 0.112 0.146 0.184 0.225 0.276 0.323 0.375 0.322 DRY 0.048 0.070 0.090 0.118 0.152 0.186 0.220 0.259 0.300 0.252 CAP*037C2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 1500 WET 0.038 0.058 0.080 0.104 0.132 0.164 0.199 0.236 0.277 0.337 DRY 0.028 0.045 0.065 0.086 0.111 0.137 0.164 0.187 0.216 0.264 * Revis ion des ign a t or 81 PRODUCT SPECIFICATIONS CAPF, CAUF, CHPF Air Flow Data (cont.) Static Pressure Drop Across Coil, Upflow/Downflow Applications Air Quantity (SCFM) Vs. Pressure Drop (In. WC) * Revision designator; see Nomenclature on page 2 for details. CAP*037D2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 WET 0.039 0.060 0.090 0.108 0.136 0.168 0.206 0.244 0.288 0.381 0.436 DRY 0.030 0.047 0.068 0.089 0.114 0.149 0.167 0.197 0.230 0.285 0.323 CAC*042B2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 WET 0.031 0.072 0.103 0.133 0.163 0.199 0.239 0.284 0.330 0.264 0.301 DRY 0.018 0.051 0.076 0.099 0.122 0.149 0.180 0.214 0.249 0.216 0.250 CA**042C2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 1700 1800 1900 WET 0.036 0.048 0.065 0.085 0.106 0.132 0.159 0.190 0.226 0.410 0.460 0.510 DRY 0.026 0.038 0.053 0.072 0.092 0.114 0.138 0.161 0.184 0.350 0.390 0.430 CA**048B2* SCFM 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 WET 0.077 0.104 0.126 0.154 0.184 0.224 0.263 0.307 0.347 0.267 0.301 0.341 DRY 0.067 0.087 0.108 0.133 0.162 0.190 0.226 0.264 0.304 0.232 0.260 0.291 CA**048C2* SCFM 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 WET 0.047 0.064 0.081 0.101 0.125 0.148 0.176 0.205 0.235 0.300 0.320 0.360 0.400 0.450 0.490 DRY 0.042 0.057 0.074 0.091 0.110 0.133 0.156 0.180 0.205 0.230 0.250 0.280 0.310 0.340 0.370 CAP*049C2* SCFM 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 WET 0.070 0.070 0.090 0.110 0.140 0.160 0.180 0.230 0.250 0.250 0.290 0.330 0.370 0.390 0.440 DRY 0.055 0.060 0.070 0.090 0.110 0.130 0.160 0.180 0.200 0.190 0.210 0.240 0.260 0.290 0.320 CAP*049D2* SCFM 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 WET 0.070 0.070 0.090 0.110 0.130 0.150 0.170 0.200 0.230 0.240 0.270 0.310 0.350 0.400 0.430 DRY 0.050 0.050 0.070 0.090 0.100 0.120 0.130 0.150 0.170 0.220 0.240 0.270 0.300 0.330 0.370 CA**060C2* SCFM 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 WET 0.062 0.070 0.090 0.100 0.120 0.140 0.160 0.190 0.220 0.190 0.210 0.240 0.270 0.290 0.310 DRY 0.049 0.060 0.070 0.090 0.110 0.130 0.150 0.170 0.190 0.150 0.160 0.180 0.200 0.220 0.250 CA**060D2* SCFM 800 900 1000 1100 1200 1300 1400 1500 1600 1900 2000 2100 2200 WET 0.055 0.060 0.070 0.080 0.100 0.110 0.120 0.150 0.170 0.390 0.430 0.470 0.510 DRY 0.030 0.040 0.050 0.060 0.070 0.090 0.100 0.110 0.130 0.330 0.370 0.410 0.440 CA**061C2* SCFM 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 WET 0.110 0.130 0.150 0.180 0.210 0.240 0.280 0.310 0.340 0.270 0.310 0.340 0.380 DRY 0.100 0.120 0.140 0.160 0.190 0.220 0.240 0.270 0.310 0.230 0.250 0.280 0.300 CA**061D2* SCFM 1000 1100 1200 1300 1400 1500 1600 1700 1800 WET 0.070 0.090 0.110 0.120 0.150 0.170 0.190 0.220 0.240 DRY 0.060 0.080 0.090 0.110 0.120 0.140 0.160 0.180 0.210 * Revis ion des ign a t or 82 PRODUCT SPECIFICATIONS CAPF, CAUF, CHPF Air Flow Data (cont.) Static Pressure Drop Across Coil, Horizontal Right Applications Air Quantity (SCFM) Vs. Pressure Drop (In. WC) CHP*024A2* SCFM 400 500 600 700 800 900 1000 1100 1175 WET 0.042 0.064 0.110 0.123 0.161 0.204 0.256 0.310 0.355 DRY 0.034 0.053 0.076 0.104 0.136 0.173 0.216 0.262 0.318 CHP*025B2* SCFM 400 500 600 700 800 900 1000 1100 1200 WET 0.008 0.023 0.042 0.065 0.092 0.120 0.154 0.186 0.224 DRY 0.001 0.016 0.034 0.055 0.080 0.108 0.137 0.172 0.208 CHP*030A2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 WET 0.082 0.129 0.172 0.222 0.277 0.331 0.406 0.472 0.555 0.641 --- DRY 0.076 0.115 0.156 0.199 0.252 0.304 0.364 0.428 0.513 --- --- CHP*036B2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 WET 0.024 0.041 0.061 0.082 0.104 0.130 0.159 0.191 0.225 0.262 --- DRY 0.024 0.041 0.058 0.078 0.102 0.125 0.154 0.186 0.219 --- CHP*042B2* SCFM 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 WET 0.056 0.074 0.102 0.134 0.168 0.208 0.251 0.300 0.356 0.410 0.4643 DRY 0.051 0.072 0.095 0.124 0.159 0.197 0.238 0.283 0.331 0.378 0.4339 CHP*048C2* SCFM 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 WET 0.083 0.103 0.126 0.151 0.178 0.208 0.240 0.274 0.310 0.346 0.383 DRY 0.073 0.096 0.120 0.144 0.169 0.196 0.224 0.254 0.286 0.319 0.354 CHP*048D2* SCFM 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 WET 0.046 0.050 0.060 0.070 0.090 0.110 0.130 0.160 0.180 0.210 0.240 0.260 0.300 0.320 0.350 DRY 0.017 0.040 0.060 0.070 0.090 0.110 0.130 0.150 0.170 0.200 0.220 0.250 0.280 0.310 0.340 CHP*060D2* SCFM 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 WET 0.060 0.080 0.090 0.120 0.140 0.160 0.190 0.220 0.250 0.280 0.320 0.350 0.390 0.430 DRY 0.060 0.080 0.100 0.120 0.140 0.160 0.180 0.210 0.240 0.270 0.300 0.330 0.370 0.400 NOTE: For Horizontal Left Applications, Reduce Air Flow 3% * Nominal CFM; Revision designator; see Nomenclature on page 2 for details. NOTE: For Hor izon t a l Left Applica t ion s , Redu ce Air Flow 3% * Nomin a l CFM; Revis ion des ign a t or 83 PRODUCT SPECIFICATIONS A18-61 PERFORMANCE RATINGS Model No. Capacity (TONS) Nominal (Cooling) Capacity* BTUH 240V** (Heating) Seasonal Efficiency AFUE% A18-00 A18-05(C) A18-08(C) A24-00 A24-05(C) A24-08(C) A24-10(C) A30/32-00 A30/32-05 A30/32-08(C) A30/32-10(C) A30/32-15 A36-00 A36-05 A36-06 A36-08(C) A36-10(C) A36-15 A36-20 A42-00 A42-08(C) A42-10(C) A42-15 A42-20 A48/49-00 A49-08(C) A48/49-10 A48/49-15 A48/49-20 A60/61-00 A60/61-10 A60/61-15 A60/61-20 1 1/2 1 1/2 1 1/2 2 2 2 2 2 1/2 2 1/2 2 1/2 2 1/2 2 1/2 3 3 3 3 3 3 3 3 1/2 3 1/2 3 1/2 3 1/2 3 1/2 4 4 4 4 4 5 5 5 5 - 17000 24700 - 17300 24900 33500 - 17600 25300 33800 50100 - 17900 22200 25600 34200 50400 66600 - 25800 34300 50600 66800 - 26000 34500 50700 67000 - 35200 51400 67600 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 *Capacity and efficiency ratings in accordance with US Government standard tests. **Capacity Correction Factors 208V = 0.75, 230V =0.92 (Heating) +Refer to unit specifications for actual rating BLOWER PERFORMANCE Model Speed CFM Delivered Against External Static Pressure, inch H²O 0.1 0.2 0.3 0.4 0.5 A18 HIGH LOW 700 620 630 560 580 500 530 420 490 360 A24 HIGH LOW 960 810 930 780 890 760 840 720 780 670 A30/32 HIGH LOW 1150 1060 1090 1015 1040 970 980 910 910 860 A36 HIGH LOW 1450 1260 1415 1240 1360 1200 1280 1145 1200 1060 A42 HIGH LOW 1550 1280 1520 1250 1470 1200 1410 1200 1350 1175 A48/49 HIGH LOW 1670 1310 1610 1300 1500 1290 1440 1280 1370 1260 A60/61 HIGH LOW 2170 1900 2080 1810 2000 1700 1920 1590 1850 1500 Dry coil with Filter in Place SCFM Correction for Wet Coil - 4% PHYSICAL DATA Model Blower KW @230V (No. of Coil Drain Conn Refrigerant Connection Approx. Shipping No. Dia. Width Elements) FPT Liq. Suct. Weight A18-00 8 6 - 3/4 3/8 5/8 105 A18-05(C) 8 6 (1) 4.75 3/4 3/8 5/8 105 A18-08(C) 8 6 (2) 3.5 3/4 3/8 5/8 108 A24-00 9 1/2 6 - 3/4 3/8 3/4 106 A24-05(C) 9 1/2 6 (1) 4.75 3/4 3/8 3/4 109 A24-08(C) 9 1/2 6 (2) 3.5 3/4 3/8 3/4 109 A24-10(C) 9 1/2 6 (2) 4.75 3/4 3/8 3/4 109 A30-00 9 1/2 6 - 3/4 3/8 3/4 113 A30-05 9 1/2 6 (1) 4.75 3/4 3/8 3/4 116 A30-08(C) 9 1/2 6 (2) 3.5 3/4 3/8 3/4 116 A30-10(C) 9 1/2 6 (2) 4.75 3/4 3/8 3/4 116 A30-15 9 1/2 6 (3) 4.75 3/4 3/8 3/4 116 A32-00 9 1/2 6 - 3/4 3/8 3/4 120 A32-05 9 1/2 6 (1) 4.75 3/4 3/8 3/4 120 A32-08(C) 9 1/2 6 (2) 3.5 3/4 3/8 3/4 120 A32-10(C) 9 1/2 6 (2) 4.75 3/4 3/8 3/4 122 A32-15 9 1/2 6 (3) 4.75 3/4 3/8 3/4 125 A36-00 9 1/2 8 - 3/4 3/8 3/4 141 A36-05 9 1/2 8 (2) 4.75 3/4 3/8 3/4 144 A36-06 9 1/2 8 (2) 3.0 3/4 3/8 3/4 144 A36-08(C) 9 1/2 8 (2) 3.5 3/4 3/8 3/4 144 A36-10(C) 9 1/2 8 (2) 4.75 3/4 3/8 3/4 144 A36-15 9 1/2 8 (3) 4.75 3/4 3/8 3/4 145 A36-20 9 1/2 8 (4) 4.75 3/4 3/8 3/4 145 A42-00 9 1/2 8 - 3/4 3/8 3/4 144 A42-08(C) 9 1/2 8 (2) 3.5 3/4 3/8 3/4 147 A42-10 9 1/2 8 (2) 4.75 3/4 3/8 3/4 147 A42-15 9 1/2 8 (3) 4.75 3/4 3/8 3/4 147 A42-20 9 1/2 8 (4) 4.75 3/4 3/8 3/4 148 A48/49-00 9 1/2 8 - 3/4 3/8 7/8 173 A49-08(C) 9 1/2 8 (2) 3.5 3/4 3/8 7/8 176 A48.49-10 9 1/2 8 (2) 4.75 3/4 3/8 7/8 176 A48/49-15 9 1/2 8 (3) 4.75 3/4 3/8 7/8 176 A48/49-20 9 1/2 8 (4) 4.75 3/4 3/8 7/8 176 A60-00 10 5/8 10 5/8 - 3/4 3/8 7/8 192 A60-10 10 5/8 10 5/8 (2) 4.75 3/4 3/8 7/8 195 A60-15 10 5/8 10 5/8 (3) 4.75 3/4 3/8 7/8 195 A60-20 10 5/8 10 5/8 (3) 4.75 3/4 3/8 7/8 195 A61-00 10 5/8 10 5/8 - 3/4 3/8 7/8 192 A61-10 10 5/8 10 5/8 (2) 4.75 3/4 3/8 7/8 195 A61-15 10 5/8 10 5/8 (3) 4.75 3/4 3/8 7/8 195 A61-20 10 5/8 10 5/8 (4) 4.75 3/4 3/8 7/8 195 84 PRODUCT SPECIFICATIONS A18-61 PERFORMANCE RATINGS Model No. Capacity (TONS) Nominal (Cooling) Capacity* BTUH 240V** (Heating) Seasonal Efficiency AFUE% A18-00 A18-05(C) A18-08(C) A24-00 A24-05(C) A24-08(C) A24-10(C) A30/32-00 A30/32-05 A30/32-08(C) A30/32-10(C) A30/32-15 A36-00 A36-05 A36-06 A36-08(C) A36-10(C) A36-15 A36-20 A42-00 A42-08(C) A42-10(C) A42-15 A42-20 A48/49-00 A49-08(C) A48/49-10 A48/49-15 A48/49-20 A60/61-00 A60/61-10 A60/61-15 A60/61-20 1 1/2 1 1/2 1 1/2 2 2 2 2 2 1/2 2 1/2 2 1/2 2 1/2 2 1/2 3 3 3 3 3 3 3 3 1/2 3 1/2 3 1/2 3 1/2 3 1/2 4 4 4 4 4 5 5 5 5 - 17000 24700 - 17300 24900 33500 - 17600 25300 33800 50100 - 17900 22200 25600 34200 50400 66600 - 25800 34300 50600 66800 - 26000 34500 50700 67000 - 35200 51400 67600 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 100.0 *Capacity and efficiency ratings in accordance with US Government standard tests. **Capacity Correction Factors 208V = 0.75, 230V =0.92 (Heating) +Refer to unit specifications for actual rating BLOWER PERFORMANCE Model Speed CFM Delivered Against External Static Pressure, inch H²O 0.1 0.2 0.3 0.4 0.5 A18 HIGH LOW 700 620 630 560 580 500 530 420 490 360 A24 HIGH LOW 960 810 930 780 890 760 840 720 780 670 A30/32 HIGH LOW 1150 1060 1090 1015 1040 970 980 910 910 860 A36 HIGH LOW 1450 1260 1415 1240 1360 1200 1280 1145 1200 1060 A42 HIGH LOW 1550 1280 1520 1250 1470 1200 1410 1200 1350 1175 A48/49 HIGH LOW 1670 1310 1610 1300 1500 1290 1440 1280 1370 1260 A60/61 HIGH LOW 2170 1900 2080 1810 2000 1700 1920 1590 1850 1500 Dry coil with Filter in Place SCFM Correction for Wet Coil - 4% PHYSICAL DATA Model Blower KW @230V (No. of Coil Drain Conn Refrigerant Connection Approx. Shipping No. Dia. Width Elements) FPT Liq. Suct. Weight A18-00 8 6 - 3/4 3/8 5/8 105 A18-05(C) 8 6 (1) 4.75 3/4 3/8 5/8 105 A18-08(C) 8 6 (2) 3.5 3/4 3/8 5/8 108 A24-00 9 1/2 6 - 3/4 3/8 3/4 106 A24-05(C) 9 1/2 6 (1) 4.75 3/4 3/8 3/4 109 A24-08(C) 9 1/2 6 (2) 3.5 3/4 3/8 3/4 109 A24-10(C) 9 1/2 6 (2) 4.75 3/4 3/8 3/4 109 A30-00 9 1/2 6 - 3/4 3/8 3/4 113 A30-05 9 1/2 6 (1) 4.75 3/4 3/8 3/4 116 A30-08(C) 9 1/2 6 (2) 3.5 3/4 3/8 3/4 116 A30-10(C) 9 1/2 6 (2) 4.75 3/4 3/8 3/4 116 A30-15 9 1/2 6 (3) 4.75 3/4 3/8 3/4 116 A32-00 9 1/2 6 - 3/4 3/8 3/4 120 A32-05 9 1/2 6 (1) 4.75 3/4 3/8 3/4 120 A32-08(C) 9 1/2 6 (2) 3.5 3/4 3/8 3/4 120 A32-10(C) 9 1/2 6 (2) 4.75 3/4 3/8 3/4 122 A32-15 9 1/2 6 (3) 4.75 3/4 3/8 3/4 125 A36-00 9 1/2 8 - 3/4 3/8 3/4 141 A36-05 9 1/2 8 (2) 4.75 3/4 3/8 3/4 144 A36-06 9 1/2 8 (2) 3.0 3/4 3/8 3/4 144 A36-08(C) 9 1/2 8 (2) 3.5 3/4 3/8 3/4 144 A36-10(C) 9 1/2 8 (2) 4.75 3/4 3/8 3/4 144 A36-15 9 1/2 8 (3) 4.75 3/4 3/8 3/4 145 A36-20 9 1/2 8 (4) 4.75 3/4 3/8 3/4 145 A42-00 9 1/2 8 - 3/4 3/8 3/4 144 A42-08(C) 9 1/2 8 (2) 3.5 3/4 3/8 3/4 147 A42-10 9 1/2 8 (2) 4.75 3/4 3/8 3/4 147 A42-15 9 1/2 8 (3) 4.75 3/4 3/8 3/4 147 A42-20 9 1/2 8 (4) 4.75 3/4 3/8 3/4 148 A48/49-00 9 1/2 8 - 3/4 3/8 7/8 173 A49-08(C) 9 1/2 8 (2) 3.5 3/4 3/8 7/8 176 A48.49-10 9 1/2 8 (2) 4.75 3/4 3/8 7/8 176 A48/49-15 9 1/2 8 (3) 4.75 3/4 3/8 7/8 176 A48/49-20 9 1/2 8 (4) 4.75 3/4 3/8 7/8 176 A60-00 10 5/8 10 5/8 - 3/4 3/8 7/8 192 A60-10 10 5/8 10 5/8 (2) 4.75 3/4 3/8 7/8 195 A60-15 10 5/8 10 5/8 (3) 4.75 3/4 3/8 7/8 195 A60-20 10 5/8 10 5/8 (3) 4.75 3/4 3/8 7/8 195 A61-00 10 5/8 10 5/8 - 3/4 3/8 7/8 192 A61-10 10 5/8 10 5/8 (2) 4.75 3/4 3/8 7/8 195 A61-15 10 5/8 10 5/8 (3) 4.75 3/4 3/8 7/8 195 A61-20 10 5/8 10 5/8 (4) 4.75 3/4 3/8 7/8 195 85 PRODUCT SPECIFICATIONS A18-61 Model: A18-61 FOR A48-61 SEE (*) *SECONDARY DRAIN 5/8” O.D. CU. A48-61 (ONLY) VOLTAGE INLET TOP & LEFT SIDE TOP POWER SUPPLY J CONDENSATE DRAIN-HORIZONTAL 3/4” NPT. A18-42 (ONLY) SUCTION LINE LIQUID LINE CONDENSATE DRAIN-UPFLOW 3/4” NPT-FEMALE K L 2 1/4 2 1/8 FILTER PROVISION 1 3/16 3/16 D INLET FRONT VIEW G INLET RIGHT SIDE VIEW 1 3/16 A B F 1 1 C 1 E 11 N M H Model A B C D E F G H J K L M N A18, 24, 30, 32 41 1/8 15 1/2 13 1/2 13 1/8 22 10 19.812 14 3/4 1 3/4 9 7/8 8 1/4 2 2 3/4 A36, 42 46 3/4 19 1/2 17 1/2 17 1/8 22 10 19.812 14 3/4 1 3/4 9 7/8 8 1/4 2 2 3/4 A48, 49, 60, 61 53 1/4 22 20 19 5/8 24 12 21.812 20 3/4 1 5/8 10 1/2 8 1/8 1 3/16 3 1/2 * A48-61, Secondary Drain 5/8 O.D. Copper Tube FILTER - PERMANENT WASHABLE Model No. Filter size (Actual Dimensions) A18, 24, 30, 32 15” x 20” x 1” A36, 42 19” x 22” x 1” A48, 49, 60, 61 21 1/2” x 24” x 1” Note: All filters above must be cut to size. Filter will be field supplied. NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT N OTICE NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE 86 PRODUCT SPECIFICATIONS Single Supply Circuit Minimum Circuit Ampacity Maximum Overcurrent Prot. Amps Blower Motor Blower Coil Drain Conn Refrigerant Connection Approx. Shipping Model No. @208/240V @208/240V Min. VAC Max VAC FLA HP Dia. Width FPT Liq. Suct. Weight AR18-1 1.2/1.2 15/15 197 253 0.96 1/5 8 [20.52 cm] 6 [15.24 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 5/8 [1.59 cm] 105 [47.63 kg] AR24-1 1.9/1.9 15/15 197 253 1.5 1/5 9 ½ [24.13 cm] 6 [15.24 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 3/4 [1.91 cm] 106 [48.08 kg] AR30-1 2.4/2.4 15/15 197 253 1.95 1/3 9 1/2 [24.13 cm] 6 [15.24 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 3/4 [1.91 cm] 113 [51.26 kg] AR32-1 2.4/2.4 15/15 197 253 1.95 1/3 9 1/2 [24.13 cm] 6 [15.24 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 3/4 [1.91 cm] 120 [54.43 kg] AR36-1 2.7/2.7 15/15 197 253 2.15 1/3 9 1/2 [24.13 cm] 8 [20.52 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 3/4 [1.91 cm] 141 [63.96 kg] AR42-1 2.8/2.8 15/15 197 253 2.2 1/2 9 1/2 [24.13 cm] 8 [20.52 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 3/4 [1.91 cm] 144 [65.32 kg] AR48/49-1 3.3/3.3 15/15 197 253 2.6 1/2 9 1/2 [24.13 cm] 8 [20.52 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 7/8 [2.22 cm] 173 [78.47 kg] AR60-1 4.9/4.9 15/15 197 253 3.9 3/4 10 5/8 [26.99 cm] 10 5/8 [26.99 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 7/8 [2.22 cm] 192 [87.09 kg] AR61-1 4.9/4.9 15/15 197 253 3.9 3/4 10 5/8 [26.99 cm] 10 5/8 [26.99 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 7/8 [2.22 cm] 192 [87.09 kg] CFM Delivered Against External Static Pressure, inch H ² O Model Speed 0.1 0.2 0.3 0.4 0.5 Model No. Capacity (TONS) Nominal (Cooling) Seasonal Efficiency AFUE% AR18-1 HIGH LOW 700 674 630 600 580 545 530 493 490 375 AR18-1 1 1/2 100.0 AR24-1 HIGH LOW 1056 935 1023 914 978 881 923 847 866 788 AR24-1 2 100.0 AR30/32-1 HIGH LOW 1150 1060 1106 1039 1040 1982 980 914 915 863 AR30/32-1 2 1/2 100.0 AR36-1 HIGH LOW 1549 1322 1472 1307 1418 1277 1358 1323 1285 1154 AR36-1 3 100.0 AR42-1 HIGH LOW 1586 1524 1530 1485 1471 1423 1410 1367 1350 1175 AR42-1 3 1/2 100.0 AR48/49-1 HIGH LOW 1670 1580 1610 1516 1531 1465 1467 1405 1393 1343 AR48/49-1 4 100.0 AR60/61-1 HIGH LOW 2170 1900 2080 1810 2000 1780 1920 1710 1850 1630 AR60/61-1 5 100.0 Dry coil with Filter in Place SCFM Correction for Wet Coil - 4%. AR18-1 AR24-1 AR30-1 AR32-1 AR36-1 AR42-1 AR48/49-1 AR60-1 AR61-1 HKR-03 X X X X X X X X X HKR-05(c) X X X X X X X X X HKR-06 X X X X X X X X X HKR-08(c) X X X X X X X X X HKR-10(c) X X X X X X X X HKR-15C X X X X X X X HKR-20C X X X X X HKR-21C X X X X X HKR3-15* X X X X X HKR3-20* X X X X X BLOWER PERFORMANCE PERFORMANCE RATINGS ELECTRICAL DATA PHYSICAL DATA [ ] DESIGNATES METRIC EQUIVALENTS IN CENTIMETERS AND KILOGRAMS (c) circuit breakers optional * - Heat Kit requires three phase power supply HEATER KIT APPLICATION OPTIONS AR SERIES (c) circuit breakers optional * - Heat Kit requires three phase power supply 87 PRODUCT SPECIFICATIONS AR SERIES PHYSICAL DIMENSIONS (See fig. Below) Base Model # A B C D E F G H J K AR18, 24, 30, 32 41.125 [107.0 cm] 22 [55.9 cm] 13.5 [34.3 cm] 15.5 [39.4 cm] 10 [25.4 cm] 13.375 [34.0 cm] 10.811 [27.5 cm] 13.125 [33.3 cm] 19.812 [50.3 cm] 3.563 [9.05cm] AR36, 42 46.75 [118.7 cm] 22 [55.9 cm] 17.5 [44.5 cm] 19.5 [49.5 cm] 10 [25.4 cm] 13.375 [34.0 cm] 10.811 [27.5 cm] 17.125 [43.5 cm] 19.812 [50.3 cm] 3.563 [9.05cm] AR48, 49, 60, 61 53.25 [135.3 cm] 24 [61.0 cm] 20 [50.8 cm] 22 [55.9 cm] 12 [30.5 cm] 14.5 [36.8 cm] 11.935 [30.3 cm] 19.625 [49.8 cm] 21.812 [55.4 cm] 3.343 [8.49cm] [ ] DESIGNATES METRIC EQUIVALENTS NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE. 88 PRODUCT SPECIFICATIONS AR COMMERCIAL SERIES SPECIFICATIONS DIMENSIONS NOTE: AR090 (1) 5/8 Liquid Line AR120 (2) 3/8 Liquid Line AR090 AR120 Electrical Unit volts 208/240/460 208/240/460 Phase 3 3 Hertz 60 60 Voltage Range 187 - 253 / 414-506 187 - 253 / 414-506 FLA (Total) 5.2 6 Minimum Circuit Ampacity 6.5 / 3.3 7.5 / 3.8 Blower Motor Type Type Belt Dive Belt Dive Horse Power 1½ 2 Volts 208/230/460 208/230/460 Phase 3 3 Hertz 60 60 FLA 5.2 6 LRA 35 32 Blower & Controls Wheel Dia. & Width (Qty.) 11 x 10 (2) 11 x 10 (2) Pulley Pitch Dia. 5.9 6.5 Bore 1 1 Motor Pulley Pitch Dia. 1.9 to 2.9 2.8 to 3.8 Bore 5/8 5/8 Belt Length & Width 39 x ½ 41 x ½ Nominal Airflow (Ft./Min.) 3,000 4,000 Transformer (60 VAC.) Standard Standard Blower Relay Standard Standard Filter, Coil & Refrigerant Filter Size (Disposable) / Qty 16 x 20 x 2 (4) 16 x 20 x 2 (2) 20 x 20 x 2 (2) Coil Area (sq. ft.) 9 10 FPI - Rows 14 - 4 14 - 4 Metering Device (Qty.) Expansion Valve (1) Expansion Valve (2) Refrigerant R-22 R-22 Liquid Connection (Qty.) 5/8 3/8 (2) Suction Connection (Qty.) 1-1/8 1-1/8 (2) Condensate Drain ¾ FPT ¾ FPT 5/8 89 PRODUCT SPECIFICATIONS AR COMMERCIAL SERIES DUCT CONNECTION SIZING WITHOUT ELECTRIC HEATERS Minimum Supply and Return Duct Dimensions Dimensional Data for Electric Heater Kits • 15, 20 & 30 kW Heater Kits • Supply opening is 13ɏ” x 40Ɍ” ELECTRIC HEATER KITS AHKD Model Number Nominal kW Electrical Characteristics Stages Weight (lbs.) Max. Overcurrent Protection AHKD15-3 15 208-230/3/60 1 56 60 AHKD15-4 15 460/3/60 1 55 30 AHKD20-3 20 208-230/3/60 2 59 70 AHKD20-4 20 460/3/60 2 57 35 AHKD30-3 30 208-230/3/60 2 60 100 AHKD30-4 30 460/3/60 2 58 50 NOTES: 1) AR Series Air handlers do not have factory-installed electric heat. Purchased as an accessory, these are the ONLY heater kits that can be used with the AR Series. 2) The electrical characteristics of the air handler, electric heater kits, and building power supply must be compatible. TEMPERATURE RISE (DEGREES °F) Model Heat Kit kW CFM Supply Voltage Model Heat Kit kW CFM Supply Voltage 208 240 480 208 240 480 AR090 15 2,800 14 19 19 AR120 15 3,800 10 14 14 2,900 14 18 18 3,900 10 14 14 3,000 13 18 18 4,000 10 13 13 3,100 13 17 17 4,100 10 13 13 3,200 12 17 17 4,200 9 13 13 20 2,800 19 25 25 20 3,800 14 19 19 2,900 18 24 24 3,900 14 18 18 3,000 18 24 24 4,000 13 18 18 3,100 17 23 23 4,100 13 17 17 3,200 17 22 22 4,200 13 17 17 30 2,800 28 38 38 30 3,800 21 28 28 2,900 27 37 37 3,900 20 27 27 3,000 27 35 35 4,000 20 27 27 3,100 26 34 34 4,100 19 26 26 3,200 25 33 33 4,200 19 25 25 *Tables above are calculated with both stages of electric heat engaged (2-stage heat systems). Divide the temperature rise from the table by 2 for 1st stage operation for systems using staged electric heat. 13-7/8 40-1/8 13-7/8 40-1/8 1 4 Supply Duct Return Duct A B C D 13ǩ” 40” 24” 48” 90 PRODUCT SPECIFICATIONS AR COMMERCIAL Static Pressure Motor Sheave Turns Open 0 1 2 3 4 5 0.1 5,193 5,037 4,790 4,529 4,097 4,097 0.2 5,012 4,873 4,603 4,315 3,842 3,842 0.3 4,852 4,675 4,393 4,091 3,589 3,589 0.4 4,687 4,484 4,172 3,853 3,295 3,073 0.5 4,501 4,268 3,939 3,561 2,922 2,610 0.6 4,293 4,041 3,673 3,223 2,642 0.7 4,073 3,782 3,347 2,892 0.8 3,807 3,485 2,962 0.9 3,540 3,117 AR0 9 0 AIR DELIVERY* AR1 2 0 AIR DELIVERY* * Wit h dr y coil a n d 2" a ir filt er NOTES : An y a dju s t men t ma de ot t h e blower s h ou ld n ot ca u s e t h e mot or t o dr a w mor e t h a n t h e mot or 's r a t ed RLA. Applica t ion s t h a t exceed t h e a bove cou ld r equ ir e a la r ger mot or . Model Filter Size AR090 16” x 20” x 2” AR120 16” x 20” x 2” 20” x 20” x 2” FILTERS * Wit h dr y coil a n d 2" a ir filt er NOTES : An y a dju s t men t ma de ot t h e blower s h ou ld n ot ca u s e t h e mot or t o dr a w mor e t h a n t h e mot or 's r a t ed RLA. Applica t ion s t h a t exceed t h e a bove cou ld r equ ir e a la r ger mot or . Static Pressure 1 2 3 4 0.1 4,264 3,930 3,633 3,273 0.2 3,996 3,705 3,235 2,998 0.3 6,731 3,379 3,002 2,517 0.4 6,445 3,066 2,613 0.5 6,113 2,662 Motor Sheave Turns Open 91 PRODUCT SPECIFICATIONS AH hodeI ßIower Pefrigeration Connection Water Connection 0rain Connection NPT Approximate Shipping Weight (Ib.) 0iameter Width Liquid Suction In Dut AH1826·1/·1FP* 9" 6" J/8" 5/8" 7/8" 7/8" J/4" 95 AH2429·1/·1FP* 10" 6" J/8" 5/8" 7/8" 7/8" J/4" 100 AHJ04J·1FP/·1FPFP* 9" 8" J/8" J/4" 7/8" 7/8" J/4" 1J5 AHJ645·1FP/·1FPFP* 10" 8" J/8" J/4" 7/8" 7/8" J/4" 140 Dimensional Data Phvsical Data Dimensions hodeI A ß C 0 E AH1826·1/·1FP* Small Chassis J9¾" 20 J /16" 16 1 /8" 16" 11" AH2429·1/·1FP* J9¾" 20 J /16" 16 1 /8" 16" 11" AHJ04J·1FP/·1FPFP* Large Chassis 44½" 24" 21" 19 7 /8" 16" AHJ645·1FP/·1FPFP* 44½" 24" 21" 19 7 /8" 16" * -1ll designates models with a factorv-installed freeze protection control * -1ll designates models with a factorv-installed freeze protection control 92 PRODUCT SPECIFICATIONS AH hodeI hotor Speed CFh 0eIivered Against ExternaI Static Pressure 0.1 0.2 0.3 0.4 0.5 AH1826·1/·1FP* Low 680 620 570 510 450 Ved 755 690 6J5 570 505 High 800 7J0 675 600 5J5 AH2429·1/·1FP* Low 720 675 640 595 540 Ved 810 760 720 670 610 High 870 815 775 720 665 AHJ04J·1FP/·1FPFP* Low 970 920 860 800 7J0 Ved 1080 1020 960 890 820 High 1140 1080 1020 950 870 AHJ645·1FP/·1FPFP* Low 1020 995 945 905 8J5 Ved 1150 1120 1060 1010 940 High 1J10 1250 1190 11J0 1060 Note: When matching the outdoor unit to the indoor unit, refer to the piston kit chart for proper piston selection * -1ll designates models with a factorv-installed freeze protection control * -1ll designates models with a factorv-installed freeze protection control £lectrical Data Performance Ratings Blower Performance (Wet Coil) hodeI VoIt hin VoIt hax VoIt hinimum Ampacity haximum Dvercurrent Protection ßIower hotor CircuIator hotor FLA FLA HP AH1826·1/·1FP* 115 10J 126 7.2 15 A 5.2 1/J 0.74 AH2429·1/·1FP* 115 10J 126 7.2 15 A 5.2 1/J 0.74 AHJ04J·1FP/·1FPFP* 115 10J 126 7.2 15 A 5.2 1/J 0.74 AHJ645·1FP/·1FPFP* 115 10J 126 7.2 15 A 5.2 1/J 0.74 Mav use fuses or HACR tvpe Circuit Breakers of the same size as noted. ÷ Wire size should be determined in accordance with National llectrical Codes. lxtensive wire runs will require larger wire sizes. * -1ll designates models with a factorv-installed freeze protection control hodeI Capacity CooIing NominaI ßTUH Capacity Heating ENT. Water Temp ¨F 120¨ 140¨ 180¨ AH1826·1/·1FP* 18.000 18.400 26.000 40.500 AH2429·1/·1FP* 24.000 20.600 29.000 45.800 AHJ04J·1FP/·1FPFP* J0.000 J0.500 4J.000 67.000 AHJ645·1FP/·1FPFP* J6.000 J2.000 45.000 71.000 93 PRODUCT SPECIFICATIONS AC Model Heater KW K-Capacity Max. BTUH Heater Total Amps Minimum Circuit Ampacity Maximum Overcurrent Protection Shipping Weight (pounds) 230V 208V 230V 208V 230V 208V 230V 208V 230V 208V AC18-05D AC18-06D AC18-08D 4.8 6.0 7.3 3.9 4.9 6.0 16.4 20.5 24.9 13.4 16.7 20.5 20.9 26.1 31.7 18.9 23.6 28.7 29 36 43 27 33 39 30 40 45 30 40 40 59 59 59 AC24-05D AC24-06D AC24-08D AC24-10D 4.8 6.0 7.3 9.8 3.9 4.9 6.0 8.0 16.4 20.5 24.9 33.4 13.4 16.7 20.5 27.3 20.9 26.1 31.7 42.6 18.9 23.6 28.7 38.5 29 36 43 56 27 33 39 51 30 40 45 60 30 40 40 60 59 59 59 59 AC30-05D AC30-08D AC30-10D 4.8 7.3 9.8 3.9 6.0 8.0 16.4 24.9 33.4 13.4 20.5 27.3 20.9 31.7 42.6 18.9 28.7 38.5 29 43 58 27 39 53 30 45 60 30 40 60 69 69 69 AC36-05D AC36-08D AC36-10D - 7.3 9.8 - 6.0 8.0 - 24.9 33.4 - 20.5 27.3 - 31.7 42.6 - 28.7 38.5 - 44 59 - 39 54 - 45 60 - 40 60 76 79 79 Model Motor Speed CFM Delivered Against External Static Pressure 0.1 0.2 0.3 0.4 0.5 AC18-05D AC18-06D AC18-08D High 780 710 625 520 440 Low 675 585 510 460 400 AC24-05D AC24-06D AC24-08D AC24-10D High 935 880 810 735 675 Low 720 680 630 565 490 AC30-05D AC30-08D AC30-10D High 1,075 1,015 945 865 770 Low 830 785 720 665 605 AC36-05D AC36-08D AC36-10D High 1,200 1,150 1,090 1,025 945 Low 920 880 830 770 710 Dry coil with filter in place 208-volt operation x .96 Supply Voltage 240 230 220 210 208 Correction Factor 1.08 1.00 .92 .84 .82 (Multiply the 230-volt capacity by factors) NOTE: When the room thermostat calls for second stage heat, the first stage (heat pump) operation must be locked out. When matching the “AC” unit that has electric heat with a heat pump, order “HEAT PUMP SHUT OFF KIT HPSK-01.” The ACXX-00 units do not require this kit. Specifications Heating Capacity/KW Correction Factor Blower Performance 94 PRODUCT SPECIFICATIONS AC Model A B C D AC18-05D AC18-06D AC18-08D 37¼ 34 11 /16 30 6½ AC24-05D AC24-06D AC24-08D AC24-10D 37¼ 34 11 /16 30 6½ AC30-05D AC30-08D AC30-10D 43¼ 40 11 /16 36 6½ AC36-05D AC36-08D AC36-10D 49¼ 46 11 /16 42 6½ Dimensions 95 PRODUCT SPECIFICATIONS AC 96 PRODUCT SPECIFICATIONS ACHP Model Volt Min Volt Max Volt Minimum Circuit Ampacity Maximum Overcurrent Protection (amps) Blower Motor Circulator Motor FLA HP FLA HP ACHP1819-1/-1FP* 115 103 126 2.68 15 1.55 1/8 0.74 1/25 ACHP2423-1/-1FP 115 103 126 8.24 15 6.0 1/3 0.74 1/25 ACHP3028-1/-1FP 115 103 126 8.24 15 6.0 1/3 0.74 1/25 ACHP3632-1/-1FP 115 103 126 5.62 15 3.9 1/2 0.74 1/25 Electrical Data Model Motor Speed CFM Delivered Against External Static Pressure 0.1 0.2 0.3 0.4 0.5 ACHP1819-1/-1FP* Low 610 570 510 450 390 High 670 620 560 500 420 ACHP2423-1/-1FP Low 760 710 650 600 530 High 820 770 700 650 590 ACHP3028-1/-1FP Low 1,000 940 880 810 750 High 1,090 1,030 960 890 840 ACHP3632-1/-1FP Low 970 930 880 820 760 High 1,260 1,180 1,120 1,060 1,040 Blower Performance (Wet Coil) Specifications Model Nominal Cooling Capacity (BTUH) Heating Capacity Entering Water Service Valve Shipping Weight (pounds) 120 ºF 140 ºF 180 ºF Liquid Suction ACHP1819-1/-1FP* 18,000 13,150 18,400 28,500 3/8” 5/8” 65 ACHP2423-1/-1FP 24,000 16,450 23,000 35,600 3/8” 3/4” 65 ACHP3028-1/-1FP 30,000 19,500 27,300 42,300 3/8” 3/4” 75 ACHP3632-1/-1FP 36,000 23,000 32,000 49,600 3/8” 3/4” 105 * -1FP designates the models with a factory-installed freeze protection control D DD DDimensions imensions imensions imensions imensions Model ACHP1819-1/-1FP* ACHP2423-1/-1FP ACHP3028-1/-1FP ACHP3632-1/-1FP Model A B C D ACHP1819-1/-1FP* 40¼” 37¼” 34-11/16” 30” ACHP2423-1/-1FP 40¼” 37¼” 34-11/16” 30” ACHP3028-1/-1FP 46¼” 43¼” 40-11/16” 36” ACHP3632-1/-1FP 58” 55” 52½” 47¾” 97 PRODUCT SPECIFICATIONS AWB Model Refrigerant Connection Line Type Shipping Weight (pounds) Liquid Suction AWB18-05D 3/8” 5/8” Sweat 81 AWB18-08D 3/8” 5/8” Sweat 81 AWB24-05D 3/8” 5/8” Sweat 84 AWB24-08D 3/8” 5/8” Sweat 84 AWB24-10D 3/8” 5/8” Sweat 84 AWB30-05D 3/8” 5/8” Sweat 84 AWB30-08D 3/8” 5/8” Sweat 84 AWB30-10D 3/8” 5/8” Sweat 84 AWB36-05DFR 3/8” 3/4” Sweat 96 AWB36-08DFR 3/8” 3/4” Sweat 96 AWB36-10DFR 3/8” 3/4” Sweat 96 Model Capacity Tons Cooling Capacity BTUH Heating Heater Total Amps Minimum Circuit Ampacity Maximum Overcurrent Protection 240V 240V 208V 240V 208V 240V 208V 240V 208V AWB18-05D 1½ 17,647 13,326 20.0 17.3 26.9 23.5 30 30 AWB18-08D 1½ 26,177 19,468 30.4 26.0 40.0 34.3 40 40 AWB24-05D 2 17,647 13,326 20.0 17.3 26.9 23.5 30 30 AWB24-08D 2 26,177 19,468 30.4 26.0 40.0 34.3 40 40 AWB24-10D 2 34,707 25,951 40.8 35.1 53.0 45.7 60 50 AWB30-05D 2½ 18,261 14,199 20.0 17.3 27.6 23.8 30 30 AWB30-08D 2½ 26,791 20,341 30.4 26.0 40.6 34.6 50 40 AWB30-10D 2½ 35,321 26,824 40.8 35.1 53.7 46.0 60 50 AWB36-05DFR 3 18,261 14,199 20.0 17.3 27.6 23.8 30 30 AWB36-08DFR 3 26,791 20,341 30.4 26.0 40.6 34.6 50 40 AWB36-10DFR 3 35,321 26,824 40.8 35.1 53.7 46.0 60 50 Specifications Electrical Data 98 PRODUCT SPECIFICATIONS AWB Dimensions A B C D E Filter Small Chassis (AWB18/24/30) 36” 20³/16” 16ǩ” 16” 11” 14” x 18” x 1” Large Chassis (AWB36) 36” 24” 21” 19Ǭ” 15Ǭ” 16” x 20” x 1” BOTTOM PRIMARY AND SECONDARY DRAINS CAN BE ACCESSED THROUGH THE BOTTOM OF THE UNIT. (3/4" NPT FEMALE CONNECTION) NOTE: HAND TIGHTEN ONLY LOW VOLT POWER SUPPLY ELECTRICAL POWER SUPPLY OFFSET HANGING BRACKET FRONT RETURN FILTER LARGE CHASSIS FRONT ACCESS PANEL SMALL CHASSIS STUD ATTACHMENT HOLES LOW VOLT POWER SUPPLY (LARGE CHASSIS ONLY) PULL OUT DISCONNECT SUCTION LINE REMOVABLE SERVICE DOOR LIQUID LINE 99 PRODUCT SPECIFICATIONS Model Motor Speed CFM Delivered Against External Static Pressure .1 .2 .3 .4 .5 AWB18 High 837 787 734 665 587 Low 821 771 718 658 569 AWB24 High 908 870 833 790 734 Low 877 840 799 752 692 AWB30 High 1,113 1,066 1,019 968 907 Low 963 934 901 859 806 AWB36 High 1,278 1,191 1,107 1,012 931 Low 1,171 1,102 1,028 949 887 Supply Voltage 240 230 220 210 208 Correction Factor 1.00 .92 .84 .76 .74 (1) Dry coil with filter in place (2) 208 volt operation x .96. (3) Multiply 240 volt capacity by correction factor. Blower Performance (1) (2) Heating Capacity Correction Factor (3) AWB 100 PRODUCT SPECIFICATIONS ARUF Electrical Data Specifications Model Single Supply Circuit Minimum VAC Maximum VAC Blower Motor Min. Circuit Ampacity @ 208/240V Max. Overcurrent Protection @ 208/240V HP FLA ARUF018-00A-1 /-1A 1.2/1.2 15/15 197 253 1/5 0.96 ARUF024-00A-1 /-1A 1.9/1.9 15/15 197 253 1/5 1.5 ARUF030-00A-1 /-1A 2.4/2.4 15/15 197 253 1/3 1.95 ARUF032-00A-1 /-1A 2.4/2.4 15/15 197 253 1/3 1.95 ARUF032-00A-1B 2.1/2.1 15/15 197 253 1/3 1.7 ARUF036-00A-1 /-1A 2.7/2.7 15/15 197 253 1/3 2.15 ARUF042-00A-1 /-1A 2.8/2.8 15/15 197 253 1/2 2.2 ARUF042-00A-1B 3.8/3.8 15/15 197 253 1/3 3.0 ARUF048-00A-1 /-1A 3.3/3.3 15/15 197 253 1/2 2.6 ARUF049-00A-1 /-1A 3.3/3.3 15/15 197 253 1/2 2.6 ARUF049-00A-1B 4.9/4.9 15/15 197 253 1/2 3.95 ARUF060-00A-1 /-1A 4.9/4.9 15/15 197 253 3/4 3.9 ARUF061-00A-1 /-1A 4.9/4.9 15/15 197 253 3/4 3.9 ARUF061-00A-1B 5.4/5.4 15/15 197 253 3/4 4.3 Model Blower Wheel Coil Drain Connection FPT Service Valve Approximate Shipping Weight (pounds) Width Depth Liquid Suction ARUF018-00A-1 /-1A 8” 6” 3/4” 3/8” 5/8” 105 ARUF024-00A-1 /-1A 9½” 6” 3/4” 3/8” 3/4” 106 ARUF030-00A-1 /-1A 9½” 6” 3/4” 3/8” 3/4” 113 ARUF032-00A-1 /-1A 9½” 6” 3/4” 3/8” 3/4” 120 ARUF032-00A-1B 9½” 8” 3/4” 3/8” 3/4” 120 ARUF036-00A-1 /-1A 9½” 8” 3/4” 3/8” 3/4” 141 ARUF042-00A-1 /-1A 9½” 8” 3/4” 3/8” 3/4” 144 ARUF042-00A-1B 9½” 8” 3/4” 3/8” 3/4” 144 ARUF048-00A-1 /-1A 9½” 8” 3/4” 3/8” 3/4” 173 ARUF049-00A-1 /-1A 9½” 8” 3/4” 3/8” 7/8” 173 ARUF049-00A-1B 10ǫ” 8” 3/4” 3/8” 7/8” 173 ARUF060-00A-1 /-1A 10ǫ” 10ǫ” 3/4” 3/8” 7/8” 192 ARUF061-00A-1 /-1A 10ǫ” 10ǫ” 3/4” 3/8” 7/8” 192 ARUF061-00A-1B 10ǫ” 10ǫ” 3/4” 3/8” 7/8” 173 101 PRODUCT SPECIFICATIONS Model A B C D E F G H I J ARUF018-00A-1A 42.125” 22” 13.5” 15.5” 10” 14.5” 11.935” 13.125” 17.938” 2.024” ARUF024-00A-1A 42.125” 22” 13.5” 15.5” 10” 14.5” 11.935” 13.125” 17.938” 2.024” ARUF030-00A-1A 42.125” 22” 13.5” 15.5” 10” 14.5” 11.935” 13.125” 17.938” 2.024” ARUF032-00A-1B/-1C 42.125” 22” 13.5” 15.5” 10” 14.5” 11.935” 13.125” 17.938” 2.024” ARUF036-00A-1A 46.75” 22” 17.5” 19.5” 10” 14.5” 11.935” 17.125” 17.938” 2.024” ARUF042-00A-1A/-1B 46.75” 22” 17.5” 19.5” 10” 14.5” 11.935” 17.125” 17.938” 2.024” ARUF048-00A-1A 53.25” 24” 20” 22” 12” 14.5” 11.935” 19.625” 19.938” 1.837” ARUF049-00A-1A/-1B 53.25” 24” 20” 22” 12” 14.5” 11.935” 19.625” 19.938” 1.837” ARUF060-00A-1A 53.25” 24” 20” 22” 12” 14.5” 11.935” 19.625” 19.938” 1.837” ARUF061-00A-1A/-1B 53.25” 24” 20” 22” 12” 14.5” 11.935” 19.625” 19.938” 1.837” Dimensions Blower Performance Model Speed CFM Delivered Against External Static Pressure (inches water) 0.1” 0.2” 0.3” 0.4” 0.5” ARUF018-00A-1/-1A High/Low 700/674 630/600 580/545 530/490 490/380 ARUF024-00A-1/-1A High/Low 1,056/935 1,020/910 980/880 920/850 870/790 ARUF030-00A-1/-1A High/Low 1,150/1,060 1,110/1,040 1,040/980 980/910 920/860 ARUF032-00A-1/-1A High/Low 1,150/1,060 1,110/1,040 1,040/980 980/910 920/860 ARUF032-00A-1B High/Medium/Low 1,150/870/640 1,090/830/610 1,020/790/570 950/750/530 900/710/490 ARUF036-00A-1/-1A High/Low 1,549/1,322 1,470/1,310 1,420/1,280 1,360/1,320 1,290/1,150 ARUF042-00A-1/-1A High/Low 1,586/1,524 1,530/1,490 1,470/1,420 1,410/1,370 1,350/1,175 ARUF042-00A-1B High/Medium/Low 1,417/1,312/1,051 1,353/1,267/1,016 1,280/1,207/956 1,182/1,116/890 1,068/1,032/890 ARUF048-00A-1/-1A High/Low 1,670/1,580 1,6310/1,520 1,530/1,470 1,470/1,410 1,390/1,340 ARUF049-00A-1/-1A High/Low 1,670/1,580 1,6310/1,520 1,530/1,470 1,470/1,410 1,390/1,340 ARUF049-00A-1B High/Medium/Low 1,706/1,499/1,346 1,676/1,477/1,318 1,644/1,437/1,276 1,609/1,379/1,231 1,534/1,323/1,147 ARUF060-00A-1/-1A High/Low 2,170/1,900 2,080/1,810 2,000/1,780 1,920/1,710 1850/1,630 ARUF061-00A-1/-1A High/Low 2,170/1,900 2,080/1,810 2,000/1,780 1,920/1,710 1850/1,630 ARUF061-00A-1B High/Medium/Low 2,192/1,934/1,672 2,124/1,901/1,606 2,052/1,851/1,562 1,984/1,778/1,532 1,902/1,718/1,482 ARUF Dry coil wit h Filt er in Place CFM Correct ion f or Wet Coil - 4% 102 PRODUCT SPECIFICATIONS ARUF Kit Number Used With Description XVB18-36C ARUF018 to ARUF036 20% bleed valve XVB42-60C ARUF042 to ARUF060 20% bleed valve XV18-36C ARUF018 to ARUF036 Non-bleed valve XV42-60C ARUF042 to ARUF061 Non-bleed valve Chassis Size Insulation Kit Small DPI18-30/20 Medium DPI36-42/20 Large DPI48-60/20 Note: Each kit contains enough material to modify 20 coils Expansion Valve Kits for Air Conditioning-only Applications Coil Insulation Kit For Downflow Applications Heat Kit Applications (c) Circuit breakers optional * Heat Kit requires 3-phase power supply + When using a 10 kW heat kit, this air handler must either be in medium or high speed. † When using a 15 kW heat kit, this air handler must be on high speed. 1 When using a 20 kW or 21 kW heat kit, this air handler must be on high speed. A R U F 0 1 8 - 0 0 A - 1 / - 1 A A R U F 0 2 4 - 0 0 A - 1 / - 1 A A R U F 0 3 0 - 0 0 A - 1 / - 1 A A R U F 0 3 2 - 0 0 A - 1 B / - 1 C A R U F 0 3 6 - 0 0 A - 1 / - 1 A A R U F 0 4 2 - 0 0 A - 1 / - 1 A A R U F 0 4 2 - 0 0 A - 1 B A R U F 0 4 8 - 0 0 A - 1 / - 1 A A R U F 0 4 9 - 0 0 A - 1 / - 1 A A R U F 0 4 9 - 0 0 A - 1 B A R U F 0 6 0 - 0 0 A - 1 / - 1 A A R U F 0 6 1 - 0 0 A - 1 / - 1 A A R U F 0 6 1 - 0 0 A - 1 B HKR-03 X X X X X X X X X X X X X HKR-05(c) X X X X X X X X X X X X X HKR-06 X X X X X X X X X X X X X HKR-08(c) X X X X X X X X X X X X X HKR-10(c) X X X + X X X X X X X X X HKR-15(c) X X † X X X X X X X X X HKR-20(c) X X X 1 X X X X X X HKR-21(c) X X X 1 X X X X X X HKR3-15* X X X X X X X X X HKR3-20* X X X 1 X X X X X X 103 PRODUCT SPECIFICATIONS Electrical Data Model Single Supply Circuit Minimum VAC Maximum VAC Blower Motor Minimum Circuit Ampacity @ 208/240V Maximum Overcurrent Protection @ 208/240V (amps) FLA HP ARPF024-00B-1/-1A 1.9/1.9 15/15 197 253 1.5 1/5 ARPF036-00B-1/-1A 2.4/2.4 15/15 197 253 1.95 1/3 ARPF048-00B-1/-1A 3.3/3.3 15/15 197 253 2.6 1/2 ARPF060-00B-1/-1A 4.9/4.9 15/15 197 253 3.9 3/4 Model Blower Coil Drain Connection FPT Connection Shipping Weight (pounds) Diameter Width Liquid Suction ARPF024-00B-1/-1A 9½” 6” 3/4” 3/8” 3/4” 106 ARPF036-00B-1/-1A 9½” 6” 3/4” 3/8” 3/4” 120 ARPF048-00B-1/-1A 9½” 8” 3/4” 3/8” 7/8” 173 ARPF060-00B-1/-1A 10ǫ” 10ǫ” 3/4” 3/8” 7/8” 192 Specifications ARPF ARPF024-00B-1/-1A ARPF036-00B-1/-1A ARPF048-00B-1/-1A ARPF060-00B-1/-1A HKR-03A X X X X HKR-05CA X X X X HKR-06A X X X X HKR-08CA X X X X HKR-10CA X X X X HKR-15CA X X X HKR-20CA X X HKR-21CA X X HKR3-15A* X X HKR3-20A* X X NOTE: The C indicates circuit breakers are optional. * Heat Kit requires 3-phase power supply. Heat Kit Selection X X X X X X X X X X 104 PRODUCT SPECIFICATIONS ARPF Model Speed CFM Delivered Against External Static Pressure (inches water) 0.1” 0.2” 0.3” 0.4” 0.5” ARPF024-00B-1/-1A High / Low 1,050 / 900 1,010 / 880 980 / 880 910 / 810 840 / 740 ARPF036-00B-1/-1A High / Low 1,340 / 1,150 1,280 / 1,120 1,980 / 1,040 1,160 / 1,030 1,080 / 980 ARPF048-00B-1/-1A High / Low 1,590 / 1,510 1,530 / 1,460 1,530 / 1,430 1,470 / 1,400 1,390 / 1,330 ARPF060-00B-1/-1A High / Low 2,250 / 2,020 2,180 / 2,000 2,050 / 1,870 2,000 / 1,810 1,970 / 1,780 Model A B C D E F G H I L M ARPF024-00B-1/-1A 42.125” 22” 13.5” 15.5” 10” 3.5” 6” 13.125” 19.812” 15.5” 15.313” ARPF036-00B-1/-1A 46.75” 22” 13.5” 19.5” 10” 3.5” 6” 13.125” 19.812” 15.5” 15.313” ARPF048-00B-1/-1A 53.25” 24” 20” 22” 12” 9.25” 11.875” 19.625” 21.812” 21.438” 21.25” ARPF060-00B-1/-1A 53.25” 24” 20” 22” 12” 9.25” 11.875” 19.625” 21.812” 21.438” 21.25” Dimensions Blower Performance Dry coil wit h Filt er in Place CFM Correct ion f or Wet Coil - 4% 105 PRODUCT SPECIFICATIONS ARPT Model Single Supply Circuit Minimum VAC Maximum VAC Blower Motor Min. Circuit Ampacity* Max. Overcurrent Protection HP FLA ARPT024-00C-1/00C-1A 1.9/1.9 15/15 197 253 1/5 1.5 ARPT032-00C-1/00C-1A/00C-1B 2.4/2.4 15/15 197 253 1/3 1.95 ARPT032-00C-1B 2.4/2.4 15/15 197 253 1/3 1.95 ARPT036-00C-1/00C-1A 2.7/2.7 15/15 197 253 1/3 2.15 ARPT042-00C-1/00C-1A 2.8/2.8 15/15 197 253 1/2 2.2 ARPT042-00C-1B 3.8/3.8 15/15 197 253 1/3 3.0 ARPT049-00C-1/00C-1A 3.3/3.3 15/15 197 253 1/2 2.6 ARPT049-00C-1B 4.9/4.9 15/15 197 253 1/2 3.95 ARPT061-00C-1/00C-1A 4.9/4.9 15/15 197 253 3/4 3.9 ARPT061-00C-1B 5.4/5.4 15/15 197 253 3/4 4.3 * Minimum Circut Ampacity @ 208/ 240 V +Maximum Overcurrent Protection @ 208/ 240 V Electrical Data Specifications Model Blower Wheel Coil Drain Connection FPT Service Valve Approximate Shipping Weight (lbs) Diameter Width Liquid Suction ARPT024-00C-1/00C-1A 9½” 6” 3/4” 3/8” 3/4” 106 ARPT032-00C-1/00C-1A 9½” 6” 3/4” 3/8” 3/4” 120 ARPT032-00C-1B 9½” 6” 3/4” 3/8” 3/4” 120 ARPT036-00C-1/00C-1A 9½” 8” 3/4” 3/8” 3/4” 141 ARPT042-00C-1/00C-1A 9½” 8” 3/4” 3/8” 3/4” 144 ARPT042-00C-1B 9½” 8” 3/4” 3/8” 3/4” 144 ARPT049-00C-1/00C-1A 9½” 8” 3/4” 3/8” 7/8” 173 ARPT049-00C-1B 10ǫ” 8” 3/4” 3/8” 7/8” 173 ARPT061-00C-1/00C-1A 10ǫ” 10ǫ” 3/4” 3/8” 7/8” 192 ARPT061-00C-1B 10ǫ” 10ǫ” 3/4” 3/8” 7/8” 173 106 PRODUCT SPECIFICATIONS ARPT Model Speed CFM Delivered Against External Static Pressure (inches water) 0.1” 0.2” 0.3” 0.4” 0.5” ARPF024-00B-1/-1A High / Low 1,050 / 900 1,010 / 880 980 / 880 910 / 810 840 / 740 ARPF036-00B-1/-1A High / Low 1,340 / 1,150 1,280 / 1,120 1,980 / 1,040 1,160 / 1,030 1,080 / 980 ARPF048-00B-1/-1A High / Low 1,590 / 1,510 1,530 / 1,460 1,530 / 1,430 1,470 / 1,400 1,390 / 1,330 ARPF060-00B-1/-1A High / Low 2,250 / 2,020 2,180 / 2,000 2,050 / 1,870 2,000 / 1,810 1,970 / 1,780 Model A B C D E F G H I L M ARPF024-00B-1/-1A 42.125” 22” 13.5” 15.5” 10” 3.5” 6” 13.125” 19.812” 15.5” 15.313” ARPF036-00B-1/-1A 46.75” 22” 13.5” 19.5” 10” 3.5” 6” 13.125” 19.812” 15.5” 15.313” ARPF048-00B-1/-1A 53.25” 24” 20” 22” 12” 9.25” 11.875” 19.625” 21.812” 21.438” 21.25” ARPF060-00B-1/-1A 53.25” 24” 20” 22” 12” 9.25” 11.875” 19.625” 21.812” 21.438” 21.25” Dimensions Blower Performance Dry coil wit h Filt er in Place CFM Correct ion f or Wet Coil - 4% 107 PRODUCT SPECIFICATIONS AER The AER Series Airhandlers represent the next generation of indoor air moving and conditioning equipment. Combining all of the advantages of our standard Airhandlers with the features and benefits of the new General Electric ECM TM Programmable Motor; the AER Series Airhandlers have been designed to provide the highest level of indoor comfort at the increased efficiency levels demanded today. The AER Series Airhandlers do not require any special external electronic controls and can be operated with the same controls as our standard air handlers without any extensive or complicated connections. WHAT DOES THE AER SERIES AIRHANDLER DO? Efficiency The ECM TM motors utilized in the AER Series Airhan- dlers are, at full load, over 20% more efficient than the motors utilized in the typical airhandler. And they main- tain their efficiency throughout the entire load range in variable speed applications. Constant CFM vs. Static Pressure (Figure 2) The airflow delivered to a system by a typical airhandler is dependent upon the static pressure requiring careful attention to the design of the air distribution network. Of- ten the system's airflow requirements in the cooling mode are different than they are in the heating mode making it necessary to design the air distribution net- work for the cooling or heating mode, or a compromise of the two. In such cases the system's capacity may be reduced resulting in higher operating costs and a lower level of comfort. The AER Series Airhandlers delivers the optimum airflow for the systemsize whether in the heating or Figure 1 Figure 2 The AER Series Airhandlers delivers the optimum airflow for the system size whether in the heating or Cooling mode and regardless of the static pressure imposed by the air distrubution Constant Fan The airflow delivered to the system in constant fan operation by the typical airhandler is the full system require-ments. In most applications the constant fan operation is intended to provide air circulation throughout the condi-tioned space to prevent air stratification. In such applications the full system airflow is not required and results in a high background noise level and high operating cost. The AER Series airhandlers deliver to the system ap-proximately 30% of the full system airflow in constant fan operation. (60% or Y1 airflow can be field se-lected.) This results in lower background noise levels and lower operating cost. Fan Only Mode Fan Only Mode will select 30% of the Air Flow when dip switch #3 is OFF. FAN ONLY MODE will select 60% or Y1 cooling Air Flow when dip switch #3 is ON. Humidity Control The typical airhandler when matched with today's high efficiency outdoor sections operating under high humidity conditions may not remove sufficient moisture from the conditioned air to provide the desired comfort level. The AER Series Airhandlers provides further humidity control when operated with a standard 24V de-humidistat. When the de-humidistat detects a high humidity condition, the airflow delivered to the system is reduced allowing the indoor coil to remove more moisture from the conditioned air. When the de-humidistat detects normal humidity conditions the airflow delivered to the system is increased to the normal level. Soft Start/Stop vs. Instant On/Off Upon a call for system operation the blower motor of a typical airhandler is energized at full speed. Because of the time lag between a call for system operation and the system operating at full capacity this often results in com-plaints of “warm air blasts" at start up in the cooling mode, and of "cold air blasts" at start up in the heating mode. There are also potential complaints of noise and distraction caused by the blower motor starting at full speed. 108 PRODUCT SPECIFICATIONS AER Figure 3 represents the airflow delivered to the system by the AER Series Airhandlers for a typical cooling/ heating cycle. Upon a call for system operation the AER's blower motor provides a soft start, i.e. the airflow delivered to the system "ramps" from zero to the system's full air flow re- quirements. Ramping the airflow during the system start up matches the airflow closer to the immediate system capacity to eliminate the complaints of "warm" or "cold air blasts". Ramping the airflow from zero to full system requirements also serves to eliminate the perceived noise and distraction which occurs on start up with the typical airhandler. Figure 3 Upon a call to shut down system operation the AER's blower motor provides a soft stop, i.e. the airflow delivered to the system ramps down to approximately 50% of the full system requirements and remains there for a period of time and then ramps down to a full stop. The shut down air profile is intended to take the maximum advantage of the residual cooling or heating capacity of the indoor coil without "warm" or cold air blasts". Ramping the airflow from full system requirements to zero also eliminates the perceived noise and distraction which occurs on shut down with a typical airhandler. Two Speed Application The typical airhandlers blower motor when matched with a two speed outdoor section normally does not deliver the optimum airflow to the system for both high and low speed operation. This is due to design limitations inherent in the design of the standard induction motor. Because of this the typical two-speed application is designed to oper- ate based upon the airflow delivered at either high or low speed and as a result the overall system efficiency and comfort level provided by the system is compromised. The AER airhandler delivers the optimum airflow to the system for both high and low speed operations. As a result the overall system efficiency and comfort level provided by the system is not compromised. PERFORMANCE RATINGS MODEL NO. CAPACITY (TONS) NOMINAL COOLING + SEASONAL EFFICIENCY AFUE AER24-1 2 100 AER30-1 2-1/2 100 AER36-1 3 100 AER48-1 4 100 AER60-1 5 100 * Capacity and efficiency ratings in accordance with U. S. Govern- ment standard tests ** Capacity correction factors @ 208V = 0.75, 230V= 0.92 (Heating) + Refer to outdoor sections specification for actual rating HEATER KIT APPLICATION OPTIONS MODEL NO. AER24-1 AER30-1 AER36-1 AER48-1 AER60-1 HKR-03 HKR-05(c) x x HKR-06 HKR-08(c) x x x HKR-10(c) x x x x x HKR-15C x x x HKR-20C x HKR-21C x (c) circuit breakers optional ELECTRICAL DATA SINGLE SUPPLY CIRCUIT BLOWER MAXIMUM MOTOR MODEL MINIMUM OVERCURRENT MIN. MAX NO. AMPACITY PROTECTION VAC VAC FLA HP 208V 240V 208V 240V AER24-1 2.5 2.5 15 15 197 253 2.0 1/2 AER30-1 2.5 2.5 15 15 197 253 2.0 1/2 AER36-1 3.1 3.1 15 15 197 253 2.5 3/4 AER48-1 6.1 6.1 15 15 197 253 4.9 3/4 AER60-1 7.8 7.8 15 15 197 253 6.2 3/4 Air Flow * Capacity and efficiency ratings in accordance with U.S. Government standard tests ** Capacity correction factors @ 208V = 0.75, 230V = 0.92 (Heating) + Refer to outdoor sections specifications for actual rating 109 PRODUCT SPECIFICATIONS PHYSICAL DATA Models Blower Coil Drain Refrigerant Connections Approx. Shipping Filter Size (permanent Dia. Width Conn. FPT Liq. Suct. Weight washable) AER24, 30 9.5 [24.1cm] 8 [20.3cm] 3/4 3/8 [1.0cm] 3/4 [1.9cm] 147 LBS [66.7 Kg] 19x21x1 [48.3 X 53.3 X 2.5 cm’s] AER36, 48, 60 10 [25.4cm] 10 [25.4cm] 3/4 3/8 [1.0cm] 7/8 [2.1cm] 195 LBS [88.5 Kg] 21-1/2x24x1 [54.6 X 61 X 2.5 cm’s] [ ] DESIGNATES METRIC EQUIVALENTS NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE Base Model # A B C D E F G H J K AER24, 30 46.75 [118.7 cm] 22 [55.9 cm] 17.5 [44.5 cm] 19.5 [49.5 cm] 10 [25.4 cm] 13.375 [34.0 cm] 10.811 [27.5 cm] 17.125 [43.5 cm] 19.812 [50.3 cm] 3.563 [9.05cm] AER36, 48, 60 53.25 [135.3 cm] 24 [61.0 cm] 20 [50.8 cm] 22 [55.9 cm] 12 [30.5 cm] 14.5 [36.8 cm] 11.935 [30.3 cm] 19.625 [49.8 cm] 21.812 [55.4 cm] 3.343 [8.49CM] [ ] DESIGNATES METRIC EQUIVALENTS AER 110 PRODUCT SPECIFICATIONS AER HOW IS THE AER SERIES AIRHANDLER'S AIRFLOW CHANGED? IMPORTANT: Cooling, Heating and Backup Heat (Electric Heat) airflow must be set-up using dip-switch on terminal board, IT IS NOT A FACTORY SET-UP. 3. SET UP ADJUST MODE: You can increase or decrease your selected Air Flow to fit your requirement. On dip switch channel 7 and 8 - ON-OFF will increase selected COOL/HP Air Flow by 10%. - OFF-ON will decrease selected COOL/HP Air Flow by 15%. NOTE: Other settings have no effect on the set airflow. 4. FAN ONLY MODE will select 30% of the Air Flow when dip switch #3 is OFF, FAN ONLY MODE will select 60% or Y1 cooling Air Flow when dip switch #3 is ON. 5. When using a Humidistat (normally closed), cut jumper PJ6. The Humidistat will only effect cooling airflow by adjusting the Air Flow to 85%. The AER Series Airhandlers blower motors have been preprogrammed for operation at 4 distinct airflow levels when operating in the Cooling, H.P. Heating, Backup Heating (Electric Heating), and Backup + H.P. Heating. Each mode has 4 levels to deliver different Air Flow CFM [L/s]. Simply flip the dip switch, and you can get different CFM combinations. 1 2 3 4 5 6 7 8 O N O F F ELECTRIC HEAT G COOLING & HEAT PUMP TRIM CFM (ADJUST) See Step 3 N / A AER24-30 Heating Switch Emrgy. Element KW Position (Bkup) 1100 1210 [519] [571] 850 935 [401] [441] 700 775 [330] [354] AER36-60 Heating Switch Emrgy. Element KW Position (Bkup) 2050 2150 [967] [1015] 1750 1835 [826] [866] 1600 1680 [755] [793] 1200 1260 [566] [595] UP TO 10 ON-ON 1. SET UP HEAT MODE (ELECTRIC HEAT MODE): On dip switch channel 1 and 2 - It is recommended that you select the taps allowed in the tables below. CFM [L/s] UP TO 20 ON-OFF UP TO 15 OFF-ON 5 OFF-ON HP w/ Bkup Air Flow UP TO 20 OFF-OFF HP w/ Bkup AirFlow UP TO 10 OFF-OFF UP TO 10 ON-OFF AER24-30 Outdoor Switch Unit Tons Position Cool H.P. 1100 1100 [519] [519] 800 800 [378] [378] 600 600 [283] [283] AER36-60 Outdoor Switch Unit Tons Position Cool H.P. 1800 1800 [849] [849] 1580 1580 [746] [746] 1480 1480 [698] [698] 1200 1200 [566] [566] 3 ON-ON 2. SET UP COOL/HEAT PUMP MODE: On dip switch channel 5 and 6 - Find the Air Flow for you application in the tables below. Set up mo- tor by the outdoor unit capacity tons. CFM [L/s] 4 ON-OFF 3.5 OFF-ON 1.5 OFF-ON Indoor Air Flow 5 OFF-OFF Indoor Air Flow 2.5 OFF-OFF 2 ON-OFF Follow these procedures to set up your Air Flow: HIGH VOLTAGE! Disconnect ALL power sources before installing, servicing or setting up switches. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 111 PRODUCT SPECIFICATIONS AEPT Model Blower Coil Drain Connection FPT Liquid Connection Suction Connection Approximate Shipping Weight (pounds) Diameter Width AEPT030-00C-1/00C-1A 9½” 8” 3/4” 3/8” 3/4” 147 AEPT036-00C-1/00C-1A 10ǫ” 10ǫ” 3/4” 3/8” 7/8” 176 AEPT060-00C-1/00C-1A 10ǫ” 10ǫ” 3/4” 3/8” 7/8” 195 Model Single Supply Circuit Minimum VAC Maximum VAC Blower Motor Minimum Circuit Ampacity Max. Overcurrent Protection FLA HP AEPT030-00C-1/00C-1A 2.5/2.5 15/15 197 253 2.0 1/2 AEPT036-00C-1/00C-1A 3.1/3.1 15/15 197 253 2.5 3/4 AEPT060-00C-1/00C-1A 7.8/7.8 15/15 197 253 6.2 3/4 * Minimum Circut Ampacity @ 208/ 240 V +Maximum Overcurrent Protection @ 208/ 240 V Specifications Electrical Data 112 PRODUCT SPECIFICATIONS AEPT Dimensions Model A B C D E F G H I J AEPT030-00C-1/00C-1A 46¾” 22” 17½” 19½” 10” 14½” 11.935” 17ǩ” 17.938” 2.024” AEPT036-00C-1/00C-1A AEPT060-00C-1/00C-1A 53¼” 24” 20” 22” 12” 14½” 11.935” 19ǫ” 17.938 1.837” J I 2.875’’ 2.572’’ 113 PRODUCT SPECIFICATIONS The AEPT air handler represents the next generation of indoor air moving and conditioning equipment. Combining all of the advantages of our standard air handlers with the features and benefits of a variable- speed DC programmable motor, the AEPT air handler has been designed to provide the highest level of indoor comfort at the increased efficiency levels demanded today. The AEPT air handlers do not require any special external electronic controls and can be operated with the same controls as our standard air handlers without any extensive or complicated connections. The air flow delivered to a system by a typical air handler is dependent upon the static pressure requiring careful attention to the design of the air distribution network. Often, the system’s air flow requirements in the cooling mode are different from the heating mode, making it necessary to design the air distribution network for the cooling or heating mode, or a compromise of the two. In such cases, the system’s capacity may be reduced, resulting in higher operating costs and a lower level of comfort. The AEPT air handler delivers the optimum air flow for the system size, whether in heating or cooling mode, regardless of the static pressure imposed by the air distribution. AEPT Overview Efficiency Constant CFM vs. Static Pressure The variable-speed DC motors utilized in the AEPT air handler are, at full load, over 20% more efficient than the motors utilized in the typical air handler. They also maintain their efficiency throughout the entire load range in variable-speed applications. Constant Fan The air flow delivered to the system in constant fan operation by the typical air handler is the full system requirement. In most applications, the constant fan operation is intended to provide air circulation throughout the conditioned space to prevent air stratification. In such applications, the full system air flow is not required and results in a high background noise level and high operating cost. The AEPT air handler delivers to the system approximately 30% of the full system air flow in constant fan operation (60% or Y1 air flow can be field -selected). This results in lower background noise levels and lower operating cost. AEPT Fan On ly Mode Fa n On ly Mode will s elect 30% of t h e Air Flow wh en dip s wit ch #3 is OFF. FAN ONLY MODE will s elect 60% or Y1 coolin g Air Flow wh en dip s wit ch #3 is ON. 114 PRODUCT SPECIFICATIONS AEPT Soft Start Upon a call for system operation, the AEPT’s blower motor provides a soft start. This means the air flow gradually increases from zero to the system’s full air flow requirements. Ramping the air flow during the system start-up matches the air flow more closely to the immediate system capacity, eliminating blasts of warm or cold air. Ramping the air flow from zero to full system requirements also eliminates the perceived noise and distraction, which occurs on start-up with the typical air handler. Soft Start/Stop vs. Instant On/Off Upon a call for system operation, the blower motor of a typical air handler is energized at full speed. Because of the time lag between a call for system operation and the system operating at full capacity, this often results in complaints of blasts of warm air at start-up in the cooling mode, and of blasts of cold air at start-up in the heating mode. There are also potential complaints of noise and distraction caused by the blower motor starting at full speed. Soft Stop Upon a call to shut down system operation, the AEPT’s blower motor provides a soft stop. This means the air flow delivered to the system ramps down to approximately 50% of the full system requirements and remains there for a period of time and then ramps down to a full stop. The shut-down air profile is intended to take the maximum advantage of the residual cooling or heating capacity of the indoor coil without blasts of warm or cold air. Ramping the air flow from full system requirements to zero also eliminates the perceived noise and distraction, which occurs on shut-down with a typical air handler. The typical air handler blower motor, when matched with a 2-speed outdoor section, normally does not deliver the optimum air flow to the system for both high- and low-speed operation. This is due to design limitations inherent in the design of the standard induction motor. Because of this, the typical 2-speed application is designed to operate based upon the air flow delivered at either high or low speed. As a result, the overall system efficiency and comfort level provided by the system are compromised. The AEPT air handler delivers the optimum air flow to the system for both high- and low- speed operations. As a result, the overall system efficiency and comfort level provided by the system are not compromised. Two-Speed Application When matched with today’s high-efficiency outdoor sections, the typical air handler operating under high-humidity conditions may not remove sufficient moisture from the conditioned air to provide the desired comfort level. The AEPT air handler provides further humidity control when operated with a standard 24V de-humidistat. When the de-humidistat detects a high-humidity condition, the air flow delivered to the system is reduced, allowing the indoor coil to remove more moisture from the conditioned air. When the de-humidistat detects normal humidity conditions, the air flow delivered to the system is increased to the normal level. Humidity Control Air flow delivered to the system by the AEPT air handler for a typical cooling/heating cycle. 115 PRODUCT SPECIFICATIONS The AEPT air handler blower motors have been pre-programmed for operation at four distinct air flow levels when operating in the Cooling, Heat Pump Heating, Backup Heating (Electric Heating) and Backup + Heat Pump Heating. Each mode has four levels to deliver different CFM. Simply flip the dipswitch, and you can get a different CFM combination. NOTE: When applying a humidistat (normally closed), refer to the installation and operating instructions. The humidistat can adjust the cooling air flow to 85%. AEPT36/60 Heating Element (kW) Switch Position Emergency Backup Heat Pump with Backup Up to 20 OFF-OFF 2,050 2,150 Up to 20 ON-OFF 1,750 1,835 Up to 15 OFF-ON 1,600 1,680 Up to 10 ON-ON 1,200 1,260 AEPT36/60 Outdoor Unit (Tons) Switch Position Indoor Air Flow Cool Heat Pump 5 OFF-OFF 1,800 1,800 4 ON-OFF 1,580 1,580 3.5 OFF-ON 1,480 1,480 3 ON-ON 1,200 1,200 AEPT30 Heating Element (kW) Switch Position Emergency Backup Heat Pump with Backup Up to 10 OFF-OFF 1,100 1,210 Up to 10 ON-OFF 850 935 5 OFF-ON 700 770 Dipswitch 5/6 AEPT30 Outdoor Unit (Tons) Switch Position Indoor Air Flow Cool Heat Pump 2.5 OFF-OFF 1,100 1,100 2 ON-OFF 800 800 1.5 OFF-ON 600 600 AEPT Dipswitches Setting Up Your Motor Dipswitch Number Function Instructions 1 Electric Heat Mode Select the taps allowed in the tables (Dipswitch 1/2) below. 2 Electric Heat Mode 3 N/A N/A 4 Thermostat Mode ON = The system operates with single-stage units using a single-stage cooling or heat pump thermostat. (factory default) OFF = The system operates with two-stage units with either a conventional two-stage cooling/heat pump thermostat or with an encoded two-stage thermostat for cooling operation. The encoded thermostats can be used with two-stage condensing units in retrofit applications where there aren’t enough existing wires available for connections to the indoor thermostat and outdoor units. 5 Cooling/Heat Pump Mode Find the air flow for your application in the tables (Dipswitch 5/6) below. Set up the motor based on the outdoor unit capacity tons. 6 Cooling/Heat Pump Mode 7 Trim CFM Adjust Mode Increase or decrease your selected air flow to fit your requirement. ON-OFF = Increases selected Cool/Heat Pump air flow by 10%. OFF-ON = Decreases selected Cool/Heat Pump air flow by 15% NOTE: Other settings have no effect on the set air flow. 8 Trim CFM Adjust Mode Dipswitch 1/2 AEPT HIGH VOLTAGE! Disconnect ALL power sources before installing, servicing or setting up switches. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 116 PRODUCT SPECIFICATIONS Model AEPT030-00C-1/00C-1A AEPT036-00C-1/00C-1A AEPT060-00C-1/00C-1A HKR-05C X HKR-08C X X HKR-10C X X X HKR-15C X X HKR-20C X HKR-21C X NOTE: The C indicates circuit breakers are optional Heat Kit Selection AEPT 117 PRODUCT SPECIFICATIONS WMC SPECIFICATIONS RATINGS - RATINGS INDICATED ARE WITH MATCHING HDCX OUTDOOR SECTION MODEL WMC12-1A WMC18-1A WMC24-1A AWM25F-KFAD (ACSON INTERNATIONAL) CONTROL OPERATION LCD MICRO COMPUTER REMOTE CONTROL DISCHARGE AIR LOUVER (UP & DOWN) & GRILLE (LEFT & RIGHT) ROOM TEMPERATURE ELECTRONIC THERMOSTAT RATINGS NOMINAL CAPACITY (KCALH / BTUH) 3,024 / 11,400 4,536 / 16,800 6,048 / 20,000 5,544 / 22,000 POWER SUPPLY (V / PH / HZ) 208 – 230 / 1 / 60 WATTS (W) 1457 2040 2860 2716 MIN. CIRCUIT AMPACITY (A) 8.0 12.6 16.4 12.6 MAX. OVERCURRENT PROTECTION 15 20 30 30 AIRFLOW (cmm / cfm) 8.22 / 290 11.9 / 420 15.3 / 540 16,43 / 580 HIGH FAN (dBA) 43 48 52 47 MED. FAN (dBA) 41 44 48 44 LOW FAN (dBA) 39 39 45 42 BLOWER WHEEL TANGENTIAL MOTOR NO. POLES 4 4 2 4 V / PH / HZ 208 – 230 /1 / 60 INPUT WATTS (W) 32 40 110 81 RUNNING CURRENT (A) 0.16 0.19 0.51 0.38 OVERLOAD PROTECTION INTERNAL THERMAL OVERLOAD RELAY REFRIGERANT COIL FACE AREA (M 2 /FT 2 ) 0.179 / 1.927 0.224 / 2.411 0.224 / 2.411 0.254 / 2.733 NO. ROWS 2 TUBES MATERIAL COPPER (SEAMLESS INNER GROOVED TUBE) DIAMETER (mm / in) 7.00 / 0.276 9.52 / 3/8 9.52 / 3/8 7.0 / 9/32 THICKNESS (mm / in) 0.32 / 0.013 0.36 / 0.014 0.36 / 0.014 0.22 / 0.013 FIN MATERIAL ALUMINUM (HYDROPHILIC COATED) FIN / in 20 14 14 18 AIR FILTER MEDIA ANTI FUNGUS POLYPROPYLENE COND. DRAIN SIZE (mm / in) 16 / .063 20 / 5/64 20 / 5/64 20 / 5/64 DIMENSIONS HEIGHT (mm / in) 360 / 14.2 372 / 14.6 372 / 14.6 306 / 12 WIDTH (mm / in) 849 / 33.4 1,043 / 41.1 1,043 / 41.1 1062 / 41.8 DEPTH (mm / in) 152 / 6.0 189 / 7.4 189 / 7.4 202 / 8.0 SHIPPING WEIGHT (kg / lbs) 9.5 / 20.9 14.5 / 32.0 15.0 / 33.1 16 / 35.3 RATINGS – RATINGS INDICATED ARE WITH MATCHING HDC OUTDOOR SECTION 118 PRODUCT SPECIFICATIONS WMC 721.0 mm / 28.38 in 306.0 mm 12.05 in INSTALLATION PLATE WMC12-1 INSTALLATION PLATE WMC20 / 5/6412-1A Installation Plate AWM25F-KFAD 10.875 in 276.2 mm 34.5 in 876.3 mm W WW WWir ir ir ir ir in g Diag in g Diag in g Diag in g Diag in g Diagr rr rr am am am am am 897.5 mm / 35.38 in 320.0 mm 12.60 in INSTALLATION PLATE WMC18-1 & WMC24-1 INSTALLATION PLATE WMC18-1A & WMC24-1A 119 PRODUCT SPECIFICATIONS WMH hodeI WhH12-1A WhH18-1A WhH24-1A ControI 0peration LC0 Vicro Computer Pemote Control 0ischarge Air Louver (Up E 0own) E Crille (Left E Pight) Poom Temperature Electronic Thermostat Patings Nominal Cooling Capacity (kcalh / btuh) 2772 / 11.000 40J2 / 16.000 4662 / 18.500 Nominal Heating Capacity (kcalh / btuh) 2646 / 10.500 J906 / 15.000 4662 / 18.500 208/2J0·1·60 Seer / Cop (See Footnote 1) (Cooling / Heating) 10.0 / 2.50 10.0 / 2.75 10.0 / 2.72 Vin. Circuit Ampacity (A) (See Footnote 1) 7.9 12.J 15.0 Vax. 0vercurrent Protection (A) (See Footnote 1) 15 25 J0 Airßow (Cmm / Cfm) 8.22 / 290 11.9 / 420 15.J / 540 Sound Pressure High Fan (d8A) 4J 48 52 Ved. Fan (d8A) 41 44 48 Low Fan (d8A) J9 J9 45 hotor No. Poles 4 4 2 7·Ph·Hz 208/2J0·1·60 Ìnput Watts (W) J2 40 110 Punning Current (A) 0.16 0.19 0.51 0verload Protection ÌNTEPNAL THEPVAL 07EPL0A0 PELAY Pefrigerant CoiI Face Area (V 2 /ft 2 ) 0.179 / 1.927 0.224 / 2.411 0.224 / 2.411 No. Pows 2 Pefrigerant CoiI Tubes Vaterial PÌFLE0 C0PPEP TU8ÌNC 0iameter (mm / in) 7.00 / 0.276 9.52 / J/8 9.52 / J/8 Thickness (mm / in) 0.J2 / 0.01J 0.J6 / 0.014 0.J6 / 0.014 Fin Vaterial ALUVÌNUV (HY0P0PHÌLÌC C0ATE0) Fins per Ìnch 20 14 14 0imensions Height (mm / in) J60 / 14.2 J72 / 14.6 J72 / 14.6 Width (mm / in) 849 / JJ.4 1.04J / 41.1 1.04J / 41.1 0epth (mm / in) 152 / 6.0 189 / 7.4 189 / 7.4 Dther Speciñcations 8lower Wheel TANCENTÌAL Air Filter Vedia ANTÌ FUNCUS P0LYPP0PYLENE H0NEYC0V8 Cond. 0rain Size (Vm / Ìn) 16 / .06J 20 / 0.79 20 / 0.79 Shipping Weight (Kg / Lbs) 9.5 / 20.9 14.5 / J2.0 15.0 / JJ.1 Specifications RA1lNOS - RA1lNOS lNDlCA1lD ARl Wl1H MA1CHlNO HDl ÒU1DÒÒR SlC1lÒN 120 PRODUCT SPECIFICATIONS Dimensions lNS1AllA1lÒN llA1l WMH1o-1A c WMH21-1A lNS1AllA1lÒN llA1l WMH12-1A WMH 121 Service Access 18" Min. Service Access 18" Min. 10" Min. 10" Min. 10" 10" FIGURE 1 Service Access 18" Min. 10" Min. Service Access 18" Min. 10" Min. 10" . 10" . FIGURE 2 Close to the wall application assures free, unobstructed air to the other two sides. In more confined application spaces, such as corners, provide a minimum 10” clearance on all air inlet sides. Allow 18” minimum for service access to the compressor compartment and controls. The top of the unit should be completely unobstructed. If units are to be located under an overhang, there should be a minimum of 36” clearance and provisions made to deflect the warm discharge air out from the overhang. LOCATION If unit is to be located under an overhang, there should be a minimum of 36” clearance and provisions made to deflect the warm discharge air out from the overhang. If the outdoor unit is mounted above the air handler, the maximum lift should not exceed 70’ (suction line). If air handler is mounted above condensing unit, the lift should not exceed 50’ (liquid line.). Refer to Figure 3 and Table 1 for maximum refrigerant line lengths. PITCH SUCTION LINE TOWARD OUTDOOR UNIT 1/2" FOR EVERY 10' OF LINE INDOOR UNIT ABOVE OR LEVEL TO OUTDOOR UNIT INDOOR UNIT LIQUID LINE OUTDOOR UNIT OUTDOOR UNIT INDOOR UNIT 70' MAX. LIQUID LI NE SUCTI ON LINE OIL TRAPS WHEN INDOOR UNIT IS 4 FEET OR MORE BELOW OUTDOOR UNIT INDOOR UNIT BELOW OUTDOOR UNIT OUTDOOR UNIT ADDITIONAL SUCTION LINE OIL TRAP FOR EACH 2 0' RISE OF PIPE INDOOR UNIT 50' MAX. 8' SUCTION LINE INVERTED LOOP LIQUID LINE FIGURE 3 The condensing unit must be mounted on a solid, level foundation, i.e. pre-formed concrete slab or other suitable base. For rooftop application, make sure the building con- struction can support the weight and that proper consider- ation is given to the weather-tight integrity of the roof. The condensing unit contains moving components and can vi- brate; therefore, sound is also a consideration in rooftop application. Since this unit discharges warm condenser air from the top with cooler air being drawn in three sides, plantings can be made in relatively close proximity to the unit. Owners should be advised to avoid lawn mower discharge toward the unit depositing debris on the fan coil surface reducing product efficiency. LOCATION & CLEARANCES PRODUCT DESIGN 122 This section gives a basic description of cooling unit opera- tion, its various components and their basic operation. Ensure your system is properly sized for heat gain and loss according to methods of the Air Conditioning Contractors Association (ACCA) or equivalent. CONDENSING UNIT These units are designed for free air discharge. Condensed air is pulled through the condenser coil by a direct drive propeller fan and then discharged from the cabinet top. The unit requires no additional resistance (i.e. duct work) and should not be added. The Goodman Remote Heat Pump condensing units are designed for 208-230 dual voltage single phase applications. The 3, 4, and 5 ton models are also available for 230V 3 phase applications. The 7.5 and 10 ton models are available in 230V and 460V 3 phase applications. The units range in size from 1.5 to 5-ton and have a rating of 10 through 13 SEER. SEER efficiency is dependent upon the unit and its components. Refer to the "Technical Information" manual of the unit you are servicing for further details. The Goodman Remote Condensing Units range in size from 1.5 through 5 ton and have a rating of 10 through 14 SEER. Efficiency is dependent upon the unit and its components. Refer to the “Technical Information” manual of the unit you are servicing for further details. Goodman Remote Condensing Units are designed for 208- 240 volt single phase applications. The 3, 4, 5, 7.5 and 10 ton models are also available for 230V and 460V 3 phase applications. Suction and Liquid Line Connections The suction and liquid line connections of the unit are set up for field piping with refrigerant-type copper. Front seating valves are factory-installed to accept the field-run copper. The total refrigerant charge needed for a normal operation is also factory-installed. For additional refrigerant line set informa- tion, refer to the "Technical Information" manual of the unit you are servicing. Compressors Goodman unit use a mix of reciprocating and scroll compres- sors. There are a number of design characteristics which differentiate the scroll compressor from the reciprocating compressor. One is the scroll. A scroll is an involute spiral which, when matched with a mating scroll form as shown, generates a series of crescent shaped gas pockets between the two members. During compression, one scroll remains stationary (fixed scroll) while the other form (orbiting scroll) is allowed to orbit (but not rotate) around the first form. As this motion occurs, the pockets between the two forms are slowly pushed to the center of the two scrolls while simultaneously being reduced in volume. When the pocket reaches the center of the scroll form, the gas, which is now at a high pressure, is discharged out of a port located at the center. During compression, several pockets are being compressed simultaneously, resulting in a very smooth process. Both the suction process (outer portion of the scroll members) and the discharge process (inner portion) are continuous. Some design characteristics of the Compliant Scroll com- pressor are: • Compliant Scroll compressors are more tolerant of liquid refrigerant. NOTE: Even though the compressor section of a Scroll compressor is more tolerant of liquid refrigerant, contin- ued floodback or flooded start conditions may wash oil from the bearing surfaces causing premature bearing failure. • Compliant Scroll compressors use white oil which is compatible with 3GS. 3GS oil may be used if additional oil is required. • Compliant scroll compressors perform "quiet" shutdowns that allow the compressor to restart immediately without the need for a time delay. This compressor will restart even if the system has not equalized. NOTE: Operating pressures and amp draws may differ from standard reciprocating compressors. This informa- tion can be found in the unit's Technical Information Manual. PRODUCT DESIGN 123 WARNING The unit MUST have an uninterrupted, unbroken electrical ground to minimize the possibility of personal injury if an electrical fault should occur. The electrical ground circuit may consist of an appropriately sized electrical wire connecting the ground lug in the unit control box to the building electrical service panel. Other methods of ground- ing are permitted if performed in accordance with the “National Electric Code” (NEC)/“American Na- tional Standards Institute” (ANSI)/“National Fire Protection Association” (NFPA) 70 and local/state codes. In Canada, electrical grounding is to be in accordance with the Canadian Electric Code CSA C22.1. Failure to observe this warning can result in electrical shock that can cause personal injury or death. If this appliance is installed in an enclosed area such as a garage or utility room with any carbon monoxide (CO) producing appliance (i.e. automo- bile, furnace, water-heaters, etc.), ensure the area is properly ventilated. AIR HANDLERS *See AirHandler Specification Sheet for Proper Combinations. SOME AIR HANDLERS USE DIRECT DRIVE MOTORS. POWER SUPPLY IS 220-240 V, 50 HZ, 1 PHASE INSTALLATION Before installing this appliance insure that it is properly sized and adequate power is available. This appliance can be installed in the vertical or right horizontal position without modification. The horizontal left and downflow positions require product modification. This product is designed for zero centimeter (0 cm) clear- ance; however, adequate access for service or replacement must be considered without removing permanent structure. This unit can be installed on a platform when deemed necessary. In an attic installation a secondary drain pan must be provided by the installer and placed under the entire unit with a separate drain line properly sloped and terminated in an area visible to the owner. This secondary drain pan is required in the event that there is a leak or main drain blockage. Closed cell insulation should be applied to the drain lines in uncon- ditioned spaces where sweating may occur. Appliances installed in garages, warehouses or other areas where they may be subjected to mechanical damage must be suitably guarded against such damage by installing behind protective barriers, being elevated or located out of the normal path of vehicles. When installed on a base, the base must also be protected by similar means. Heating and cooling equipment located in garages, which may generate a glow, spark or flame capable of igniting flammable vapors, must be installed with the ignition source at least 18"[46cm] above the floor level. When more than one appliance is installed in a building it shall be permanently identified as to the area or space serviced by the equipment. When this product is installed in the vertical position in an unconditioned space, remove the horizontal drain pan and install the following insulation kit Unit Kit No. A24-00-2RA DPI18-30/20 A36-000-2RA DPI36-42/20 A48-00-2RA A61-00-2RA DPI48-61/20 This kit is used to prevent sweating on the vertical drain pan. WARNING WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. WARNING When installing or servicing this equipment, safety clothing, including hand and eye protection, is strongly advised. If installing this equipment in an area that has special safety requirements (hard hats etc.), observe these requirements. To protect the unit when welding close to the painted surfaces, the use of a quenching cloth is strongly advised to prevent scorching or marring of the equipment fin- ish. WARNING The United States Environmental Protection Agency (“EPA”) has issued various regulations regarding the introduction and disposal of refrigerants intro- duced into this unit. Failure to follow these regu- lations may harm the environment and can lead to the imposition of substantial fines. These regula- tions may vary by jurisdiction. A certified techni- cian must perform the installation and service of this product. Should questions arise, contact your local EPA office. Violation of EPA regulations may result in fines or penalties. SYSTEM OPERATION 124 COOLING The refrigerant used in the system is R-22. It is clear and colorless and the chemical formula is CHCLF 2 . The boiling point, at atmospheric pressure is -41.4°F. A few of the important principles that make the refrigeration cycle possible are: heat always flows from a warmer to a cooler body, under lower pressure a refrigerant will absorb heat and vaporize at a low temperature, the vapors may be drawn off and condensed at a higher pressure and tempera- ture to be used again. In the cooling mode, the indoor evaporator coil functions to cool and dehumidify the air conditioned spaces through the evaporative process taking place within the coil tubes. NOTE: Actual temperatures and pressures are to be obtained from the "Cooling Performance Chart." High temperature, high pressure vapor leaves the compres- sor through the discharge line, through the reversing valve on heat pump models, and enters the condenser coil. Air drawn through the condenser coil by the condenser fan causes the refrigerant to condense into a liquid by removing heat from the refrigerant. As the refrigerant is cooled below its condensing temperature it becomes subcooled. The subcooled high pressure liquid refrigerant now leaves the condenser coil via the liquid line until it reaches the indoor expansion device. As the refrigerant passes through the expansion device and into the evaporator coil a pressure drop is experienced causing the refrigerant to become a low pressure vapor. Low pressure saturated refrigerant enters the evaporator coil where heat is absorbed from the warm air drawn across the coil by the evaporator blower. As the refrigerant passes through the last tubes of the evaporator coil it becomes superheated, that is, it absorbs more heat than is necessary for the refrigerant to vaporize. Maintaining proper superheat assures that liquid refrigerant is not returning to the compres- sor which can lead to early compressor failure. Low pressure superheated vapor leaves the evaporator coil and returns through the suction line, and on heat pump models through the reversing valve, to the compressor where the cycle begins again. COOLING CYCLE Cooling When the contacts of the room thermostat close, R to Y and G in the unit are energized. This energizes the compressor contactor, the condenser fan motor, and indoor blower motor. When the thermostat is satisfied, it opens its contacts, breaking the low voltage circuit, causing the compressor contactor to open and indoor fan to stop after the fan off delay. If the room thermostat fan selector switch should be set to the "on" position then the indoor blower would run continuous rather than cycling with the compressor. HEATING CYCLE Heat Pump Models On heat pump units, when the room thermostat is set to the heating mode, the reversing valve is not energized. This is an indication to the defrost board that the unit is in the heating mode. As long as the thermostat is set for heating, the reversing valve will be in the de-energized position for heating except during a defrost cycle. On a demand for first stage heat with heat pump units, the room thermostat energizes “Y” and “G”. This supplies 24Vac to terminal “Y” of the defrost board, the compressor contactor and the “G” terminal in the unit. The compressor starts in the heating mode and the indoor blower motor starts. When 24Vac is present at terminal “Y” of the defrost board during the heating mode, the board accumulates compressor run time. When the first stage heat demand “Y” is satisfied, the room thermostat will remove the 24Vac from “Y” and “G”. The compressor turns off and the indoor blower will stop after the fan off delay. The defrost board will store the compressor’s accumulated run time in memory. When auxiliary electric heaters are used, a two stage heating single stage cooling thermostat must be installed. Should the second stage heating contacts in the room thermostat close, which would be wired to W1 at the unit low voltage connections, this would energize the coil(s) of the electric heat relay(s). Contacts within the relay(s) will close, bringing on the electric resistance heaters. If auxiliary electric heaters should be used, they may be controlled by outdoor thermostats. SYSTEM OPERATION 125 Emergency Heat Mode (Heat Pumps) NOTE: The following only applies if the unit has an approved electric heat kit installed for auxiliary heating. With the thermostat set to the emergency heat position and a call for 2nd stage heat, R to W1 will e energized. This will energize the electric heat sequencers. When the normally open contacts of the heat sequencers close, this will energize the electric resistance heat and also the indoor blower motor through the normally closed contacts of the EBTDR. DEFROST CYCLE The defrosting of the outdoor coil is jointly controlled by the defrost control board and the defrost thermostat. Solid State Defrost Control During operation the power to the circuit board is controlled by a temperature sensor, which is clamped to a return bend on the outdoor coil. Defrost timing periods of 30, 60, or 90 minutes may be selected by connecting the circuit board jumper to 30, 60, or 90 respectively. Accumulation of time for the timing period selected starts when the sensor closes (approximately 31°F), and when the room thermostat calls for heat. At the end of the timing period, the unit’s defrost cycle will be initiated provided the sensor remains closed. When the sensor opens (approximately 75°F), the defrost cycle is terminated and the timing period is reset. If the defrost cycle is not terminated due to the sensor tempera- ture, a ten minute override interrupts the unit’s defrost period. C Y W2 R R DFT TEST DF1 DF2 JUMPER WIRE 90 60 30 A FAN OPERATION Continuous Fan Mode (All Models) If the thermostat calls for continuous fan, the indoor blower will be energized from the normally open contacts of the EBTDR after a 7 second delay on 2 thru 4 ton units, or through the normally open contacts of the blower relay on 5 ton units. Anytime there is a call for continuous fan, the indoor blower will be energized through the normally open contacts of the EBTDR on 2 thru 4 ton units and from the "G" terminal from the thermostat on 5 ton units, regardless of a call for heat or cool. If the thermostat is not calling for heat or cool, and the fan switch on the thermostat is returned to the automatic posi- tion, the fan will stop after a 65 second delay on all air handlers with multi-speed motors. Soft Start (AER & AEPT) Upon a call for system operation, the blower motor provides a soft start, i.e. the airflow delivered to the system "ramps" from zero to the system's full air flow requirements. Ramping the airflow during the system start up matches the airflow closer to the immediate system capacity to eliminate the complaints of "warm" or "cold air blasts". Ramping the airflow from zero to full system requirements also serves to eliminate the perceived noise and distraction which occurs on start up with the typical airhandler. Upon a call to shut down system operation, the blower motor provides a soft stop, i.e. the airflow delivered to the system ramps down to approximately 50% of the full system require- ments and remains there for a period of time and then ramps down to a full stop. The shut down air profile is intended to take the maximum advantage of the residual cooling or heating capacity of the indoor coil without "warm" or cold air blasts". Ramping the airflow from full system requirements to zero also eliminates the perceived noise and distraction which occurs on shut down with a typical airhandler. SYSTEM OPERATION 126 COOLING CYCLE In the cooling mode, the orifice is pushed into its seat, forcing refrigerant to flow through the metered hole in the center of the orifice. SYSTEM OPERATION 127 COOLING CYCLE HEATING CYCLE Indoor Coil Accumulator Bi-Flow Filter Dryer Outdoor Coil Thermostatic Expansion Valve Check Valve Reversing Valve (De-Energized) Indoor Coil Accumulator Bi-Flow Filter Dryer Outdoor Coil Thermostatic Expansion Valve Check Valve Reversing Valve (Energized) SYSTEM OPERATION 128 Indoor Coil Accumulator Outdoor Coil Reversing Valve (Energized) Indoor Coil Accumulator Outdoor Coil Reversing Valve (De-Energized) Typical Heat Pump System in Heating Typical Heat Pump System in Cooling SYSTEM OPERATION 129 RESTRICTOR ORIFICE ASSEMBLY IN COOLING OPERATION RESTRICTOR ORIFICE ASSEMBLY IN HEATING OPERATION In the cooling mode, the orifice is pushed into its seat, forcing refrigerant to flow through the metered hole in the center of the orifice. In the heating mode, the orifice moves back off its seat, allowing refrigerant to flow unmetered around the outside of the orifice. EXPANSION VALVE/CHECK VALVE ASSEMBLY IN COOLING OPERATION EXPANSION VALVE/CHECK VALVE ASSEMBLY IN HEATING OPERATION Most expansion valves used in current Goodman Brand Heat Pump products use an internally checked expansion valve. This type of expansion valve does not require an external check valve as shown above. However, the principle of operation is the same. SYSTEM OPERATION 130 AFE18-60 & AFE18-60A CONTROL BOARD DESCRIPTION The AFE18 control is designed for use in heat pump applica- tions where the indoor coil is located above/downstream of a gas or fossil fuel furnace. It will operate with single and two stage heat pumps and single and two stage furnaces. The AFE18 control will turn the heat pump unit off when the furnace is turned on. An anti-short cycle feature is also incorporated which initiates a 3 minute timed off delay when the compressor goes off. On initial power up or loss and restoration of power, this 3 minute timed off delay will be initiated. The compressor won’t be allowed to restart until the 3 minute off delay has expired. Also included is a 5 second de-bounce feature on the “Y, E, W1 and O” thermostat inputs. These thermostat inputs must be present for 5 seconds before the AFE18 control will respond to it. An optional outdoor thermostat, OT18-60A, can be used with the AFE18 to switch from heat pump operation to furnace operation below a specific ambient temperature setting, i.e. break even temperature during heating. When used in this manner, the “Y” heat demand is switched to the “W1” input to the furnace by the outdoor thermostat and the furnace is used to satisfy the first stage “Y” heat demand. On some controls, if the outdoor thermostat fails closed in this position during the heating season, it will turn on the furnace during the cooling season on a “Y” cooling demand. In this situation, the furnace produces heat and increases the indoor temperature thereby never satisfying the cooling demand. The furnace will continue to operate and can only be stopped by switching the thermostat to the off position or removing power to the unit and then replacing the outdoor thermostat. When the AFE18 receives a “Y” and “O” input from the indoor thermostat, it recognizes this as a cooling demand in the cooling mode. If the outdoor thermo- stat is stuck in the closed position switching the “Y” demand to the “W1” furnace input during the cooling mode as described above, the AFE18 won’t allow the furnace to operate. The outdoor thermostat will have to be replaced to restore the unit to normal operation. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. AFE18-60A SCHEDULED MAINTENANCE 131 The owner should be made aware of the fact, that, as with any mechanical equipment the remote air conditioner requires regularly scheduled maintenance to preserve high perfor- mance standards, prolong the service life of the equipment, and lessen the chances of costly failure. In many instances the owner may be able to perform some of the maintenance; however, the advantage of a service contract, which places all maintenance in the hands of a trained serviceman, should be pointed out to the owner. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. ONCE A MONTH 1. Inspect the return filters of the evaporator unit and clean or change if necessary. NOTE: Depending on operation conditions, it may be necessary to clean the filters more often. If permanent type filters are used, they should be washed with warm water and dried. 2. When operating on the cooling cycle, inspect the con- densate line piping from the evaporator coil. Make sure the piping is clear for proper condensate flow. ONCE A YEAR Qualified Service Personnel Only 1. Clean the indoor and outdoor coils. 2. Clean the casing of the outdoor unit inside and out . 3. Motors are permanently lubricated and do not require oiling. TO AVOID PREMATURE MOTOR FAILURE, DO NOT OIL. 4. Manually rotate the outdoor fan and indoor blower to be sure they run freely. 5. Inspect the control panel wiring, compressor connec- tions, and all other component wiring to be sure all connections are tight. Inspect wire insulation to be certain that it is good. 6. Check the contacts of the compressor contactor. If they are burned or pitted, replace the contactor. 7. Using a halide or electronic leak detector, check all piping and etc. for refrigerant leaks. 8. Start the system and run both a Cooling & Heating Performance Test. If the results of the test are not satisfactory, see the "Service Problem Analysis" Chart of the possible cause. TEST EQUIPMENT Proper test equipment for accurate diagnosis is as essential as regular hand tools. The following is a must for every service technician and service shop: 1. Thermocouple type temperature meter - measure dry bulb temperature. 2. Sling psychrometer- measure relative humidity and wet bulb temperature. 3. Amprobe - measure amperage and voltage. 4. Volt-Ohm Meter - testing continuity, capacitors, and motor windings. 5. Accurate Leak Detector - testing for refrigerant leaks. 6. High Vacuum Pump - evacuation. 7. Electric Vacuum Gauge, Manifold Gauges and high vacuum hoses - to measure and obtain proper vacuum. 8. Accurate Electronic Scale - measure proper refrigerant charge. 9. Inclined Manometer - measure static pressure and pres- sure drop across coils. Other recording type instruments can be essential in solving abnormal problems, however, in many instances they may be rented from local sources. Proper equipment promotes faster, more efficient service, and accurate repairs with less call backs. COOLING PERFORMANCE TEST All data based upon listed indoor dry bulb temperature. .00 inches external static pressure on coil of outdoor section. Indoor air cubic feet per minute (CFM) as listed in the Performance Data Sheets: If conditions vary from this, results will change as follows: 1. As indoor dry bulb temperatures increase, a slight increase will occur in indoor air temperature drop (Delta T). Low and high side pressures and power will not change. 2. As indoor CFM decreases, a slight increase will occur in indoor temperature drop (Delta T). A slight decrease will occur in low and high side pressures and power. A properly operating unit should be within plus or minus 3 degrees of the typical (Delta T) value shown. A properly operating unit should be within plus or minus 7 PSIG of the head pressure shown. A properly operating unit should be within plus or minus 3 PSIG of the suction pressure shown. A properly operating unit should be within plus or minus 3 Amps of the typical value shown. NOTE: Pressures are measured at the liquid and suction service valve ports. 132 TROUBLESHOOTING CHART Complaint System Operating Pressures POSSIBLE CAUSE DOTS IN ANALYSIS GUIDE INDICATE "POSSIBLE CAUSE" S Y M P T O M S y s t e m w i l l n o t s t a r t C o m p r e s s o r w i l l n o t s t a r t - f a n r u n s C o m p . a n d C o n d . F a n w i l l n o t s t a r t E v a p o r a t o r f a n w i l l n o t s t a r t C o n d e n s e r f a n w i l l n o t s t a r t C o m p r e s s o r r u n s - g o e s o f f o n o v e r l o a d C o m p r e s s o r c y c l e s o n o v e r l o a d S y s t e m r u n s c o n t i n u o u s l y - l i t t l e c o o l i n g / h t g T o o c o o l a n d t h e n t o o w a r m N o t c o o l e n o u g h o n w a r m d a y s C e r t a i n a r e a s t o o c o o l , o t h e r s t o o w a r m C o m p r e s s o r i s n o i s y S y s t e m r u n s - b l o w s c o l d a i r i n h e a t i n g U n i t w i l l n o t t e r m i n a t e d e f r o s t U n i t w i l l n o t d e f r o s t L o w s u c t i o n p r e s s u r e L o w h e a d p r e s s u r e H i g h s u c t i o n p r e s s u r e H i g h h e a d p r e s s u r e Test Method Remedy S e e S e r v i c e P r o c e d u r e R e f . Power Failure • Test Voltage S-1 Blown Fuse • • • Inspect Fuse Size & Type S-1 Unbalanced Power, 3PH • • • Test Voltage S-1 Loose Connection • • • Inspect Connection - Tighten S-2, S-3 Shorted or Broken Wires • • • • • • Test Circuits With Ohmmeter S-2, S-3 Open Fan Overload • • Test Continuity of Overload S-17A Faulty Thermostat • • • • Test Continuity of Thermostat & Wiring S-3 Faulty Transformer • • Check Control Circuit with Voltmeter S-4 Shorted or Open Capacitor • • • • • Test Capacitor S-15 Internal Compressor Overload Open • ♦ Test Continuity of Overload S-17A Shorted or Grounded Compressor • • Test Motor Windings S-17B Compressor Stuck • • • ♦ Use Test Cord S-17D Faulty Compressor Contactor • • • Test Continuity of Coil & Contacts S-7, S-8 Faulty Fan Relay • Test Continuity of Coil And Contacts S-7 Open Control Circuit • Test Control Circuit with Voltmeter S-4 Low Voltage • • • Test Voltage S-1 Faulty Evap. Fan Motor • • ♦ Repair or Replace S-16 Shorted or Grounded Fan Motor • • Test Motor Windings S-16 Improper Cooling Anticipator • • Check Resistance of Anticipator S-3B Shortage of Refrigerant • • ♦ • • Test For Leaks, Add Refrigerant S-101,103 Restricted Liquid Line • • • • • Remove Restriction, Replace Restricted Part S-112 Open Element or Limit on Elec. Heater ♦ ♦ Test Heater Element and Controls S-26,S-27 Dirty Air Filter • • • • ♦ Inspect Filter-Clean or Replace Dirty Indoor Coil • • • • ♦ Inspect Coil - Clean Not enough air across Indoor Coil • • • • ♦ Check Blower Speed, Duct Static Press, Filter S-200 Too much air across Indoor Coil ♦ • Reduce Blower Speed S-200 Overcharge of Refrigerant • • • ♦ • • Recover Part of Charge S-113 Dirty Outdoor Coil • • • ♦ • Inspect Coil - Clean Noncondensibles • • ♦ • Recover Charge, Evacuate, Recharge S-114 Recirculation of Condensing Air • • • Remove Obstruction to Air Flow Infiltration of Outdoor Air • • • Check Windows, Doors, Vent Fans, Etc. Improperly Located Thermostat • • Relocate Thermostat Air Flow Unbalanced • • Readjust Air Volume Dampers System Undersized • • Refigure Cooling Load Broken Internal Parts • ♦ Replace Compressor S-115 Broken Valves • • • • Test Compressor Efficiency S-104 Inefficient Compressor • ♦ • • Test Compressor Efficiency S-104 Wrong Type Expansion Valve • • • • • • ♦ Replace Valve S-110 Expansion Device Restricted • • • • • • • Remove Restriction or Replace Expansion Device S-110 Oversized Expansion Valve • • Replace Valve Undersized Expansion Valve • • • • • Replace Valve Expansion Valve Bulb Loose • • Tighten Bulb Bracket S-105 Inoperative Expansion Valve • • • Check Valve Operation S-110 Loose Hold-down Bolts • Tighten Bolts Faulty Reversing Valve • ♦ ♦ ♦ ♦ ♦ ♦ Replace Valve or Solenoid S-21, 122 Faulty Defrost Control • ♦ ♦ ♦ ♦ ♦ ♦ Test Control S-24 Faulty Defrost Thermostat ♦ ♦ ♦ ♦ ♦ ♦ ♦ Test Defrost Thermostat S-25 Flowrator Not Seating Properly • • • Check Flowrator & Seat or Replace Flowrator S-111 • Cooling or Heating Cycle (Heat Pump) ♦ COOLING/HP ANALYSIS CHART No Cooling Unsatisfactory Cooling/Heating Heating Cycle Only (Heat Pump) SERVICING 133 Table of Contents S-1 Checking Voltage........................................ 134 S-2 Checking Wiring.......................................... 134 S-3 Checking Thermostat, Wiring & Anticipator 135 S-3A Thermostat & Wiring ................................... 135 S-3B Cooling Anticipator ...................................... 135 S-3C Heating Anticipator ...................................... 135 S-3D Checking Encoded Thermostats ................. 136 S-4 Checking Transformer & Control Circuit ..... 137 S-5 Checking Cycle Protector ........................... 137 S-6 Checking Time Delay Relay ........................ 137 S-7 Checking Contactor and/or Relays .............. 138 S-8 Checking Contactor Contacts ..................... 138 S-9 Checking Fan Relay Contact ...................... 139 S-12 Checking High Pressure Control ................. 139 S-13 Checking Low Pressure Control .................. 139 S-15 Checking Capacitor ..................................... 139 S-15A Resistance Check....................................... 140 S-15B Capacitance Check ..................................... 140 S-16A Checking Fan & Blower Motor Windings (PSC Motors) ............................. 141 S-16B Checking Fan & Blower Motor (ECM Motors) 141 S-16C Checking ECM Motor Windings .................. 144 S-16D ECM CFM Adjustments .............................. 144 S-17 Checking Compressor Windings ................. 145 S-17A Resistance Test .......................................... 145 S-17B Ground Test ................................................ 146 S-17D Operation Test ............................................ 146 S-18 Testing Crankcase Heater (optional item) ... 147 S-21 Checking Reversing Valve Solenoid ............ 147 S-24 Testing Defrost Timer Board........................ 147 S-25 Testing Defrost Control ................................ 148 S-26 Checking Heater Limit Control(s) ................ 148 S-27 Checking Heater Elements ......................... 148 S-40 A, AR*F Electronic Blower Time Delay ...... 148 S-41 AER, AEPT with Single Speed Air Conditioning and Heat Pump ................. 150 S-60 Electric Heater (optional item) ..................... 151 S-61A Checking Heater Limit Control(S) ................ 152 S-61B Checking Heater Fuse Line......................... 152 S-62 Checking Heater Elements ......................... 152 S-100 Refrigeration Repair Practice....................... 152 S-101 Leak Testing ............................................... 153 S-102 Evacuation .................................................. 153 S-103 Charging...................................................... 154 S-104 Checking Compressor Efficiency ................ 155 S-105B Thermostatic Expansion Valve .................... 155 S-106 Overfeeding ................................................. 155 S-107 Underfeeding ............................................... 155 S-108 Superheat ................................................... 156 S-109 Checking Subcooling .................................. 157 S-110 Checking Expansion Valve Operation ......... 157 S-111 Fixed Orifice Restriction Devices ................ 158 S-112 Checking Restricted Liquid Line .................. 158 S-113 Refrigerant Overcharge ................................ 158 S-114 Non-condensables ...................................... 158 S-115 Compressor Burnout ................................... 159 S-120 Refrigerant Piping........................................ 159 S-122 Replacing Reversing Valve .......................... 161 S-202 Duct Static Pressure & Static Pressure Drop Across Coils .......... 162 S-203 Air Handler External Static ......................... 162 S-204 Coil Static Pressure Drop ........................... 162 WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. SERVICING 134 S-1 CHECKING VOLTAGE 1. Remove outer case, control panel cover, etc., from unit being tested. With power ON: WARNING Line Voltage now present. 2. Using a voltmeter, measure the voltage across terminals L1 and L2 of the contactor for the condensing unit or at the field connections for the air handler or heaters. 3. No reading - indicates open wiring, open fuse(s) no power or etc., from unit to fused disconnect service. Repair as needed. 4. With ample voltage at line voltage connectors, energize the unit. 5. Measure the voltage with the unit starting and operating, and determine the unit Locked Rotor Voltage. NOTE: If checking heaters, be sure all heating elements are energized. Locked Rotor Voltage is the actual voltage available at the compressor during starting, locked rotor, or a stalled condition. Measured voltage should be above minimum listed in chart below. To measure Locked Rotor Voltage attach a voltmeter to the run "R" and common "C" terminals of the compressor, or to the T 1 and T 2 terminals of the contactor. Start the unit and allow the compressor to run for several seconds, then shut down the unit. Immediately attempt to restart the unit while measuring the Locked Rotor Voltage. 6. Lock rotor voltage should read within the voltage tabula- tion as shown. If the voltage falls below the minimum voltage, check the line wire size. Long runs of undersized wire can cause low voltage. If wire size is adequate, notify the local power company in regard to either low or high voltage. Voltage Min. Max. 460 437 506 208/230 198 253 Unit Supply Voltage Three phase units require a balanced 3 phase power supply to operate. If the percentage of voltage imbalance exceeds 3% the unit must not be operated until the voltage condition is corrected. Max. Voltage Deviation % Voltage = From Average Voltage X 100 Imbalance Average Voltage To find the percentage of imbalance, measure the incoming power supply. L1 - L2 = 240V L1 - L3 = 232V Avg. V = 710 = 236.7 L2 - L3 = 238V 3 Total 710V To find Max. deviation: 240 - 236.7 = +3.3 232 - 236.7 = -4.7 238 - 236.7 = +1.3 Max deviation was 4.7V % Voltage Imbalance = 4.7 = 1.99% 236.7 If the percentage of imbalance had exceeded 3%, it must be determined if the imbalance is in the incoming power supply or the equipment. To do this rotate the legs of the incoming power and retest voltage as shown below. L1 L2 L3 L3 L2 L1 S-2 CHECKING WIRING WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Check wiring visually for signs of overheating, damaged insulation and loose connections. 2. Use an ohmmeter to check continuity of any suspected open wires. 3. If any wires must be replaced, replace with comparable gauge and insulation thickness. L1 - L2 = 240V L1 - L3 = 227V L2 - L3 = 238V Rotate all 3 incoming legs as shown. L1 - L2 = 227V L1 - L3 = 238V L2 - L3 = 240V SERVICING 135 S-3 CHECKING THERMOSTAT, WIRING, AND ANTICIPATOR THERMOSTAT WIRE SIZING CHART LENGTH OF RUN MIN. COPPER WIRE GAUGE (AWG) 25 feet 18 50 feet 16 75 feet 14 100 feet 14 125 feet 12 150 feet 12 S-3A THERMOSTAT AND WIRING WARNING Line Voltage now present. With power ON, thermostat calling for cooling 1. Use a voltmeter to check for 24 volts at thermostat wires C and Y in the condensing unit control panel. 2. No voltage indicates trouble in the thermostat, wiring or external transformer source. 3. Check the continuity of the thermostat and wiring. Repair or replace as necessary. Indoor Blower Motor With power ON: WARNING Line Voltage now present. 1. Set fan selector switch at thermostat to "ON" position. 2. With voltmeter, check for 24 volts at wires C and G. 3. No voltage indicates the trouble is in the thermostat or wiring. 4. Check the continuity of the thermostat and wiring. Repair or replace as necessary. Resistance Heaters 1. Set room thermostat to a higher setting than room temperature so both stages call for heat. 2. With voltmeter, check for 24 volts at each heater relay. 3. No voltage indicates the trouble is in the thermostat or wiring. 4. Check the continuity of the thermostat and wiring. Repair or replace as necessary. NOTE: Consideration must be given to how the heaters are wired (O.D.T. and etc.). Also safety devices must be checked for continuity. S-3B COOLING ANTICIPATOR The cooling anticipator is a small heater (resistor) in the thermostat. During the "off" cycle, it heats the bimetal element helping the thermostat call for the next cooling cycle. This prevents the room temperature from rising too high before the system is restarted. A properly sized anticipator should maintain room temperature within 1 1/2 to 2 degree range. The anticipator is supplied in the thermostat and is not to be replaced. If the anticipator should fail for any reason, the thermostat must be changed. S-3C HEATING ANTICIPATOR The heating anticipator is a wire wound adjustable heater which is energized during the "ON" cycle to help prevent overheating of the conditioned space. The anticipator is a part of the thermostat and if it should fail for any reason, the thermostat must be replaced. See the following tables for recommended heater anticipator setting in accordance to the number of electric heaters installed. To determine the proper setting, use an ammeter to measure the current on the "W" wire going to the thermostat. Use an amprobe as shown below. Wrap 10 turns of thermo- stat wire around the stationary jaw of the amprobe and divide the reading by 10. 10 TURNS OF THERMOSTAT WIRE (From "W" on thermostat) STATIONARY JAW OF AMPROBE READS 4 AMPS CURRENT DRAW WOULD BE .4 AMPS Checking Heat Anticipator Amp Draw SERVICING 136 S-3D TROUBLESHOOTING ENCODED TWO STAGE COOLING THERMOSTATS OPTIONS Troubleshooting Encoded Two Stage Cooling Thermostats Options TEST FUNCTION SIGNAL OUT SIGNAL FAN S T E T S1 + * S1 - * S1 + - S2 + S2 - S2 + - S3 + * S3 - * * S3 + - * R + - COM LOW SPEED COOL * LO SPEED COOL * HI SPEED COOL LO SPEED HEAT O LO SPEED HEAT HI SPEED HEAT G N/A N/A 24 VAC GND YCON + * YCON - * YCON + - W1 HEATER ED - ( FUTURE USE ) W1 HEATER W2 HEATER NONE N/A N/A R TO T'STAT COM TO T'STAT Y1 * Y / Y2 HI * Y / Y2 W / W1 O W / W1 EM / W2 G N/A N/A R C1 , C2 * ERROR CONDITION ( DIODE ON THERMOSTAT BACKWARDS ) * ERROR CONDITION ( S3 CAN ONLY READ + ) INDICATION * ERROR CONDITION ( S3 CAN ONLY READ + ) INPUT FROM THERMOSTAT POWER TO THERMOSTAT NOTES: 1.) THE TEST SPADE CAN BE CONNECTED TO ANY OTHER TEST SPADE ON EITHER BOARD. 2.) THE + LED WILL BE RED AND WILL LIGHT TO INDICATE + HALF CYCLES. THE - LED WILL BE GREEN AND WILL LIGHT TO INDICATE - HALF CYCLES. BOTH RED AND GREEN ILLUMINATED WILL INDICATE FULL CYCLES DENOTED BY + - . 3.) SIGNAL OUT CONDITION FOR W1 , W2 HEATER WILL BE AFFECTED BY OT1 PJ4 AND OT2 PJ2 JUMPERS AND OUTDOOR THERMOSTATS ATTACHED. THE TABLE ABOVE ASSUMES OT1 PJ4 IS REMOVED AND OT2 PJ2 IS MADE WITH NO OUTDOOR THERMOSTATS ATTACHED. SEE NOTE 3 SEE NOTE 3 The chart above provides troubleshooting for either version of the encoded thermostat option. This provides diagnostic information for the GMC CHET18-60 or a conventional two cool / two stage heat thermostat with IN4005 diodes added as called out in the above section. A test lead or jumper wire can be added from the test terminal to any terminal on the B13682-74 or B13682-71 variable speed terminal board and provide information through the use of the LED lights on the B13682-71 VSTB control. Using this chart, a technician can determine if the proper input signal is being received by the encoded VSTB control and diagnose any problems that may be relayed to the output response of the B13682-74 VSTM control. SERVICING 137 S-4 CHECKING TRANSFORMER AND CONTROL CIRCUIT WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. A step-down transformer (208/240 volt primary to 24 volt sec- ondary) is provided with each indoor unit. This allows ample capacity for use with resistance heaters. The outdoor sec- tions do not contain a transformer. 1. Remove control panel cover, or etc., to gain access to transformer. With power ON: WARNING Line Voltage now present. 2. Using a voltmeter, check voltage across secondary volt- age side of transformer (R to C). 3. No voltage indicates faulty transformer, bad wiring, or bad splices. 4. Check transformer primary voltage at incoming line volt- age connections and/or splices. 5 If line voltage available at primary voltage side of trans- former and wiring and splices good, transformer is inop- erative. Replace. S-5 CHECKING CYCLE PROTECTOR Some models feature a solid state, delay-on make after break time delay relay installed in the low voltage circuit. This control is used to prevent short cycling of the compressor under certain operating conditions. The component is normally closed (R 1 to Y 1 ). A power interruption will break circuit (R 1 to Y 1 ) for approximately three minutes before resetting. 1. Remove wire from Y 1 terminal. 2. Wait for approximately four (4) minutes if machine was running. With power ON: WARNING Line Voltage now present. 1. Apply 24 VAC to terminals R 1 and R 2 . 2. Should read 24 VAC at terminals Y 1 and Y 2 . 3. Remove 24 VAC at terminals R 1 and R 2 . 4. Should read 0 VAC at Y 1 and Y 2 . 5. Reapply 24 VAC to R1 and R2 - within approximately three (3) to four (4) minutes should read 24 VAC at Y 1 and Y 2 . If not as above - replace relay. S-6 CHECKING TIME DELAY RELAY Time delay relays are used in some of the blower cabinets to improve efficiency by delaying the blower off time. Time delays are also used in electric heaters to sequence in multiple electric heaters. 1. Tag and disconnect all wires from male spade connec- tions of relay. 2. Using an ohmmeter, measure the resistance across terminals H1 and H2. Should read approximately 150 ohms. 3. Using an ohmmeter, check for continuity across termi- nals 3 and 1, and 4 and 5. 4. Apply 24 volts to terminals H1 and H2. Check for continuity across other terminals - should test continu- ous. If not as above - replace. NOTE: The time delay for the contacts to make will be approximately 20 to 50 seconds and to open after the coil is de-energized is approximately 40 to 90 seconds. OHMMETER TESTING COIL CIRCUIT SERVICING 138 S-7 CHECKING CONTACTOR AND/OR RELAYS WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. The compressor contactor and other relay holding coils are wired into the low or line voltage circuits. When the control circuit is energized, the coil pulls in the normally open contacts or opens the normally closed contacts. When the coil is de-energized, springs return the contacts to their normal position. NOTE: Most single phase contactors break only one side of the line (L1), leaving 115 volts to ground present at most internal components. 1. Remove the leads from the holding coil. 2. Using an ohmmeter, test across the coil terminals. If the coil does not test continuous, replace the relay or contactor. S-8 CHECKING CONTACTOR CONTACTS SINGLE PHASE 1. Disconnect the wire leads from the terminal (T) side of the contactor. 2. With power ON, energize the contactor. WARNING Line Voltage now present. VOLT/OHM METER T1 T2 L1 L2 CC Ohmmeter for testing holding coil Voltmeter for testing contacts TESTING COMPRESSOR CONTACTOR (Single Phase) 3. Using a voltmeter, test across terminals. A. L2 - T1 - No voltage indicates CC1 contacts open. If a no voltage reading is obtained - replace the contactor. THREE PHASE Using a voltmeter, test across terminals. A. L1-L2, L1-L3, and L2-L3 - If voltage is present, proceed to B. If voltage is not present, check breaker or fuses on main power supply.. B. T1-T2, T1-T3, and T2-T3 - If voltage readings are not the same as in "A", replace contactor. VOLT/OHM METER CC Ohmmeter for testing holding coil Voltmeter for testing contacts T1 L1 T3 L3 T2 L2 TESTING COMPRESSOR CONTACTOR (ThreePhase) S-9 CHECKING FAN RELAY CONTACTS WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Disconnect wires leads from terminals 2 and 4 of Fan Relay Cooling and 2 and 4, 5 and 6 of Fan Relay Heating. 2. Using an ohmmeter, test between 2 and 4 - should read open. Test between 5 and 6 - should read continuous. 3. With power ON, energize the relays. WARNING Line Voltage now present. SERVICING 139 1 2 3 4 5 OHMMETER TESTING FAN RELAY 4. Using an ohmmeter, test between 2 and 4 - should read continuous . Test between 5 and 6 - should read open. 5. If not as above, replace the relay. S-12 CHECKING HIGH PRESSURE CONTROL WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. The high pressure control capillary senses the pressure in the compressor discharge line. If abnormally high condensing pressures develop, the contacts of the control open, breaking the control circuit before the compressor motor overloads. This control is automatically reset. 1. Using an ohmmeter, check across terminals of high pressure control, with wire removed. If not continuous, the contacts are open. 3. Attach a gauge to the dill valve port on the base valve. With power ON: WARNING Line Voltage now present. 4. Start the system and place a piece of cardboard in front of the condenser coil, raising the condensing pressure. 5. Check pressure at which the high pressure control cuts- out. If it cuts-out at 610 PSIG ± 10 PSIG, it is operating normally (See causes for high head pressure in Service Problem Analysis Guide). If it cuts out below this pressure range, replace the control. S-13 CHECKING LOW PRESSURE CONTROL The low pressure control senses the pressure in the suction line and will open its contacts on a drop in pressure. The low pressure control will automatically reset itself with a rise in pressure. The low pressure control is designed to cut-out (open) at approximately 50 PSIG. It will automatically cut-in (close) at approximately 85 PSIG. Test for continuity using a VOM and if not as above, replace the control. S-15 CHECKING CAPACITOR CAPACITOR, RUN A run capacitor is wired across the auxiliary and main windings of a single phase permanent split capacitor motor. The capacitors primary function is to reduce the line current while greatly improving the torque characteristics of a motor. This is accomplished by using the 90°phase relationship between the capacitor current and voltage in conjunction with the motor windings, so that the motor will give two phase operation when connected to a single phase circuit. The capacitor also reduces the line current to the motor by improving the power factor. The line side of this capacitor is marked with "COM" and is wired to the line side of the circuit. SERVICING 140 CAPACITOR, START SCROLL COMPRESSOR MODELS Hard start components are not required on Scroll compressor equipped units due to a non-replaceable check valve located in the discharge line of the compressor. However hard start kits are available and may improve low voltage starting characteristics. This check valve closes off high side pressure to the compres- sor after shut down allowing equalization through the scroll flanks. Equalization requires only about one or two seconds during which time the compressor may turn backwards. RELAY, START A potential or voltage type relay is used to take the start capacitor out of the circuit once the motor comes up to speed. This type of relay is position sensitive. The normally closed contacts are wired in series with the start capacitor and the relay holding coil is wired parallel with the start winding. As the motor starts and comes up to speed, the increase in voltage across the start winding will energize the start relay holding coil and open the contacts to the start capacitor. Two quick ways to test a capacitor are a resistance and a capacitance check. START RELAY C O M H E R M F A N RUN CAPACITOR CONTACTOR T2 T1 L1 L2 START CAPACITOR RED 10 VIOLET 20 YELLOW 12 ORANGE 5 HARD START KIT WIRING S-15A RESISTANCE CHECK WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Discharge capacitor and remove wire leads. WARNING Discharge capacitor through a 20 to 30 OHM resistor before handling. OHMMETER CAPACITOR TESTING CAPACITOR RESISTANCE 2. Set an ohmmeter on its highest ohm scale and connect the leads to the capacitor - A. Good Condition - indicator swings to zero and slowly returns to infinity. (Start capacitor with bleed resistor will not return to infinity. It will still read the resistance of the resistor). B. Shorted - indicator swings to zero and stops there - replace. C. Open - no reading - replace. (Start capacitor would read resistor resistance.) SERVICING 141 S-15B CAPACITANCE CHECK Using a hookup as shown in the following drawing, take the amperage and voltage readings and use them in the formula: VOLTMETER CAPACITOR AMMETER 15 AMP FUSE TESTING CAPACITANCE WARNING Discharge capacitor through a 20 to 30 OHM resistor before handling. Capacitance (MFD) = 2650 X Amperage Voltage S-16A CHECKING FAN AND BLOWER MOTOR WINDINGS (PSC MOTORS) The auto reset fan motor overload is designed to protect the motor against high temperature and high amperage condi- tions by breaking the common circuit within the motor, similar to the compressor internal overload. However, heat generated within the motor is faster to dissipate than the compressor, allow at least 45 minutes for the overload to reset, then retest. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Remove the motor leads from its respective connection points and capacitor (if applicable). 2. Check the continuity between each of the motor leads. 3. Touch one probe of the ohmmeter to the motor frame (ground) and the other probe in turn to each lead. If the windings do not test continuous or a reading is obtained from lead to ground, replace the motor. S-16B CHECKING FAN AND BLOWER MOTOR (ECM MOTORS) An ECM is an Electronically Commutated Motor which offers many significant advantages over PSC motors. The ECM has near zero rotor loss, synchronous machine operation, variable speed, low noise, and programmable air flow. Be- cause of the sophisticated electronics within the ECM motor, some technicians are intimated by the ECM motor; however, these fears are unfounded. GE offers two ECM motor testers, and with a VOM meter, one can easily perform basic troubleshooting on ECM motors. An ECM motor requires power (line voltage) and a signal (24 volts) to operate. The ECM motor stator contains permanent magnet. As a result, the shaft feels "rough" when turned by hand. This is a characteristic of the motor, not an indication of defective bearings. WARNING Line Voltage now present. 1. Disconnect the 5-pin connector from the motor. 2. Using a volt meter, check for line voltage at terminals #4 & #5 at the power connector. If no voltage is present: 3. Check the unit for incoming power See section S-1. 4. Check the control board, See section S-40. 5. If line voltage is present, reinsert the 5-pin connector and remove the 16-pin connector. 6. Check for signal (24 volts) at the transformer. 7. Check for signal (24 volts) from the thermostat to the "G" terminal at the 16-pin connector. 8. Using an ohmmeter, check for continuity from the #1 & #3 (common pins) to the transformer neutral or "C" thermostat terminal. If you do not have continuity, the motor may function erratically. Trace the common cir- cuits, locate and repair the open neutral. 9. Set the thermostat to "Fan-On". Using a voltmeter, check for 24 volts between pin # 15 (G) and common. SERVICING 142 10. Disconnect power to compressor. Set thermostat to call for cooling. Using a voltmeter, check for 24 volts at pin # 6 and/or #14. 11. Set the thermostat to a call for heating. Using a voltmeter, check for 24 volts at pin #2 and/or #11. 1 2 3 4 5 Lines 1 and 2 will be connected for 12OVAC Power Connector applications only Gnd AC Line Connection AC Line Connection } 5 PIN CONNECTOR DO DON'T - Check-out motor, controls, wiring, and connections before replacing motor. - Automatically assume the motor is bad. - Orient connectors down to prevent water infiltration. - Locate connectors above 7 and 4 o'clock positions. - Install "drip loops". - Use authorized motor and control model #'s for replacement. - Replace one motor or control model # with another (unless an authorized replacement). - Keep static pressure to a minimum: - Use high pressure drop filters - some have 1/2" H2O drop! - Recommend high efficiency, low static filters. - Use restricted returns. - Recommend keeping filters clean. - Design ductwork for min. static, max comfort. - Look for and recommend ductwork improvement, where necessary, in replacement. - Size the equipment wisely. - Oversize system then compensate with low airflow. - Check orientation before inserting motor connectors. - Plug in power connector backwards. - Force plugs. ECM VARIABLE SPEED CIRCULATOR BLOWER MOTORS 11 1 9 2 3 4 5 6 7 8 16 15 14 13 12 10 OUT - OUT + ADJUST +/- G (FAN) Y1 Y/Y2 COOL EM Ht/W2 DELAY 24 Vac (R) COMMON2 HEAT W/W1 BK/PWM (SPEED) COMMON1 O (REV VALVE) 16-PIN ECM HARNESS CONNECTOR If you do not read voltage and continuity as described, the problem is in the control or interface board, but not the motor. If you register voltage as described , the ECM power head is defective and must be replaced. SERVICING 143 S y m p t o m F a u l t D e s c r i p t i o n ( s ) P o s s i b l e C a u s e s C o r r e c t i v e A c t i o n C a u t i o n s a n d N o t e s - M o t o r r o c k s s l i g h t l y w h e n s t a r t i n g . - T h i s i s n o r m a l s t a r t - u p f o r v a r i a b l e s p e e d m o t o r . - - - - - - - - - - - - - N o m o v e m e n t . - M a n u a l d i s c o n n e c t s w i t c h o f f o r d o o r s w i t c h o p e n . - B l o w n f u s e o r c i r c u i t b r e a k e r . - 2 4 V a c w i r e s m i s w i r e d . - U n s e a t e d p i n s i n w i r i n g h a r n e s s c o n n e c t o r s . - B a d m o t o r / c o n t r o l m o d u l e . - M o i s t u r e p r e s e n t i n m o t o r o r c o n t r o l m o d u l e . - C h e c k 2 3 0 V a c p o w e r a t m o t o r . - C h e c k l o w v o l t a g e ( 2 4 V a c R t o C ) a t m o t o r . - C h e c k l o w v o l t a g e c o n n e c t i o n s ( G , Y , W , R , C ) a t m o t o r . - C h e c k f o r u n s e a t e d p i n s i n c o n n e c t o r s o n m o t o r h a r n e s s . - T e s t w i t h a t e m p o r a r y j u m p e r b e t w e e n R - G . - C h e c k m - T u r n p o w e r O F F p r i o r t o r e p a i r . W a i t 5 m i n u t e s a f t e r d i s c o n n e c t i n g p o w e r b e f o r e o p e n i n g m o t o r . - H a n d l e e l e c t r o n i c m o t o r / c o n t r o l w i t h c a r e . - M o t o r r o c k s , b u t w o n ' t s t a r t . - L o o s e m o t o r m o u n t . - B l o w e r w h e e l n o t t i g h t o n m o t o r s h a f t . - B a d m o t o r / c o n t r o l m o d u l e . - C h e c k f o r l o o s e m o t o r m o u n t . - M a k e s u r e b l o w e r w h e e l i s t i g h t o n s h a f t . - P e r f o r m m o t o r / c o n t r o l r e p l a c e m e n t c h e c k , E C M m o t o r s o n l y . - T u r n p o w e r O F F p r i o r t o r e p a i r . W a i t 5 m i n u t e s a f t e r d i s c o n n e c t i n g p o w e r b e f o r e o p e n i n g m o t o r . - H a n d l e e l e c t r o n i c m o t o r / c o n t r o l w i t h c a r e . - M o t o r o s c i l l a t e s u p & d o w n w h i l e b e i n g t e s t e d o f f o f b l o w e r . - I t i s n o r m a l f o r m o t o r t o o s c i l l a t e w i t h n o l o a d o n s h a f t . - - - - - - - - - - - - - V a r i e s u p a n d d o w n o r i n t e r m i t t e n t . - V a r i a t i o n i n 2 3 0 V a c t o m o t o r . - U n s e a t e d p i n s i n w i r i n g h a r n e s s c o n n e c t o r s . - E r r a t i c C F M c o m m a n d f r o m " B K " t e r m i n a l . - I m p r o p e r t h e r m o s t a t c o n n e c t i o n o r s e t t i n g . - M o i s t u r e p r e s e n t i n m o t o r / c o n t r o l m o d u l e . - C h e c k l i n e v o l t a g e f o r v a r i a t i o n o r " s a g " . - C h e c k l o w v o l t a g e c o n n e c t i o n s ( G , Y , W , R , C ) a t m o t o r , u n s e a t e d p i n s i n m o t o r h a r n e s s c o n n e c t o r s . - C h e c k - o u t s y s t e m c o n t r o l s - T h e r m o s t a t . - P e r f o r m M o i s t u r e C h e c k . * - T u r n p o w e r O F F p r i o r t o r e p a i r . - " H u n t s " o r " p u f f s " a t h i g h C F M ( s p e e d ) . - I n c o r r e c t o r d i r t y f i l t e r ( s ) . - I n c o r r e c t s u p p l y o r r e t u r n d u c t w o r k . - I n c o r r e c t b l o w e r s p e e d s e t t i n g . - D o e s r e m o v i n g p a n e l o r f i l t e r r e d u c e " p u f f i n g " ? - C h e c k / r e p l a c e f i l t e r . - C h e c k / c o r r e c t d u c t r e s t r i c t i o n s . - A d j u s t t o c o r r e c t b l o w e r s p e e d s e t t i n g . - T u r n p o w e r O F F p r i o r t o r e p a i r . - S t a y s a t l o w C F M d e s p i t e s y s t e m c a l l f o r c o o l o r h e a t C F M . - 2 4 V a c w i r e s m i s w i r e d o r l o o s e . - " R " m i s s i n g / n o t c o n n e c t e d a t m o t o r . - F a n i n d e l a y m o d e . - C h e c k l o w v o l t a g e ( T h e r m o s t a t ) w i r e s a n d c o n n e c t i o n s . - V e r i f y f a n i s n o t i n d e l a y m o d e - w a i t u n t i l d e l a y c o m p l e t e . - P e r f o r m m o t o r / c o n t r o l r e p l a c e m e n t c h e c k , E C M m o t o r s o n l y . - T u r n p o w e r O F F p r i o r t o r e p a i r . W a i t 5 m i n u t e s a f t e r d i s c o n n e c t i n g p o w e r b e f o r e o p e n i n g m o t o r . - H a n d l e e l e c t r o n i c m o t o r / c o n t r o l w i t h c a r e . - S t a y s a t h i g h C F M . - " R " m i s s i n g / n o t c o n n e c t e d a t m o t o r . - F a n i n d e l a y m o d e . - I s f a n i n d e l a y m o d e ? - w a i t u n t i l d e l a y t i m e c o m p l e t e . - P e r f o r m m o t o r / c o n t r o l r e p l a c e m e n t c h e c k , E C M m o t o r s o n l y . - T u r n p o w e r O F F p r i o r t o r e p a i r . W a i t 5 m i n u t e s a f t e r d i s c o n n e c t i n g p o w e r b e f o r e o p e n i n g m o t o r . - H a n d l e e l e c t r o n i c m o t o r / c o n t r o l w i t h c a r e . - B l o w e r w o n ' t s h u t o f f . - C u r r e n t l e a k a g e f r o m c o n t r o l s i n t o G , Y , o r W . - C h e c k f o r T r i a c s w i t c h e d t ' s t a t o r s o l i d s t a t e r e l a y . - T u r n p o w e r O F F p r i o r t o r e p a i r . - A i r n o i s e . - H i g h s t a t i c c r e a t i n g h i g h b l o w e r s p e e d . - I n c o r r e c t s u p p l y o r r e t u r n d u c t w o r k . - I n c o r r e c t o r d i r t y f i l t e r ( s ) . - I n c o r r e c t b l o w e r s p e e d s e t t i n g . - C h e c k / r e p l a c e f i l t e r . - C h e c k / c o r r e c t d u c t r e s t r i c t i o n s . - A d j u s t t o c o r r e c t b l o w e r s p e e d s e t t i n g . - T u r n p o w e r O F F p r i o r t o r e p a i r . - N o i s y b l o w e r o r c a b i n e t . - L o o s e b l o w e r h o u s i n g , p a n e l s , e t c . - H i g h s t a t i c c r e a t i n g h i g h b l o w e r s p e e d . - A i r l e a k s i n d u c t w o r k , c a b i n e t s , o r p a n e l s . - C h e c k f o r l o o s e b l o w e r h o u s i n g , p a n e l s , e t c . - C h e c k f o r a i r w h i s t l i n g t h r u s e a m s i n d u c t s , c a b i n e t s o r p a n e l s . - C h e c k f o r c a b i n e t / d u c t d e f o r m a t i o n . - T u r n p o w e r O F F p r i o r t o r e p a i r . - " H u n t s " o r " p u f f s " a t h i g h C F M ( s p e e d ) . - H i g h s t a t i c c r e a t i n g h i g h b l o w e r s p e e d . - I n c o r r e c t o r d i r t y f i l t e r ( s ) . - I n c o r r e c t s u p p l y o r r e t u r n d u c t w o r k . - I n c o r r e c t b l o w e r s p e e d s e t t i n g . - D o e s r e m o v i n g p a n e l o r f i l t e r r e d u c e " p u f f i n g " ? - C h e c k / r e p l a c e f i l t e r . - C h e c k / c o r r e c t d u c t r e s t r i c t i o n s . - A d j u s t t o c o r r e c t b l o w e r s p e e d s e t t i n g . - T u r n p o w e r O F F p r i o r t o r e p a i r . - E v i d e n c e o f M o i s t u r e . - M o t o r f a i l u r e o r m a l f u n c t i o n h a s o c c u r r e d a n d m o i s t u r e i s p r e s e n t . - M o i s t u r e i n m o t o r / c o n t r o l m o d u l e . - R e p l a c e m o t o r a n d p e r f o r m M o i s t u r e C h e c k . * - T u r n p o w e r O F F p r i o r t o r e p a i r . W a i t 5 m i n u t e s a f t e r d i s c o n n e c t i n g p o w e r b e f o r e o p e n i n g m o t o r . - H a n d l e e l e c t r o n i c m o t o r / c o n t r o l w i t h c a r e . - C o n n e c t o r s a r e o r i e n t e d " d o w n " ( o r a s r e c o m m e n d e d b y e q u i p m e n t m a n u f a c t u r e r ) . - A r r a n g e h a r n e s s e s w i t h " d r i p l o o p " u n d e r m o t o r . - I s c o n d e n s a t e d r a i n p l u g g e d ? - C h e c k f o r l o w a i r f l o w ( t o o m u c h l a t e n t c a p a c i t y ) . - C h e c k f o r u n d e r c h a r g e d c o n d i t i o n . - C h e c k a n d p l u g l e a k s i n r e t u r n d u c t s , c a b i n e t . * M o i s t u r e C h e c k I m p o r t a n t N o t e : U s i n g t h e w r o n g m o t o r / c o n t r o l m o d u l e v o i d s a l l p r o d u c t w a r r a n t i e s a n d m a y p r o d u c e u n e x p e c t e d r e s u l t s . N o t e : Y o u m u s t u s e t h e c o r r e c t r e p l a c e m e n t c o n t r o l / m o t o r m o d u l e s i n c e t h e y a r e f a c t o r y p r o g r a m m e d f o r s p e c i f i c o p e r a t i n g m o d e s . E v e n t h o u g h t h e y l o o k a l i k e , d i f f e r e n t m o d u l e s m a y h a v e c o m p l e t e l y d i f f e r e n t f u n c t i o n a l i t y . T h e E C M v a r i a b l e s p e e d m o t o r s a r e c T r o u b l e s h o o t i n g C h a r t f o r E C M V a r i a b l e S p e e d A i r C i r c u l a t o r B l o w e r M o t o r s - M o t o r w o n ' t s t a r t . - M o t o r s t a r t s , b u t r u n s e r r a t i c a l l y . - E x c e s s i v e n o i s e . SERVICING 144 S-16C CHECKING ECM MOTOR WINDINGS WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Disconnect the 5-pin and the 16-pin connectors from the ECM power head. 2. Remove the 2 screws securing the ECM power head and separate it from the motor. 3. Disconnect the 3-pin motor connector from the power head and lay it aside. 4. Using an ohmmeter, check the motor windings for conti- nuity to ground (pins to motor shell). If the ohmmeter indicates continuity to ground, the motor is defective and must be replaced. 5. Using an ohmmeter, check the windings for continuity (pin to pin). If no continuity is indicated, the thermal limit (over load) device may be open. Allow motor to cool and retest. Motor Connector (3-pin) Motor OK when R > 100k ohm (3-pin) WINDING TEST S-16D ECM CFM ADJUSTMENTS AER, AEPT MOTORS This section references the operation characteristics of the AER and AEPT models motor only. The ECM control board is factory set with the dipswitch #4 in the “ON” position and all other dipswitches are factory set in the “OFF” position. When an AER or AEPT is used with 2-stage cooling units, dipswitch #4 should be in the "OFF" position. For most applications, the settings are to be changed according to the electric heat size and the outdoor unit selection. AER and AEPT products use a General Electric ECM TM motor. This motor provides many features not available on the traditional PSC motor. These features include: • Improved Efficiency • Constant CFM • Soft Start and Stop • Improved Humidity Control MOTOR SPEED ADJUSTMENT Each ECM™ blower motor has been preprogrammed for operation at 4 distinct airflow levels when operating in Cool- ing/Heat Pump mode or Electric Heat mode. These 4 distinct levels may also be adjusted slightly lower or higher if desired. The adjustment between levels and the trim adjustments are made by changing the dipswitch(s) either to an "OFF" or "ON" position. DIPSWITCH FUNCTIONS AER and AEPT air handler motors have an electronic control that contains an eight (8) position dip switch. The function of these dipswitches are shown in Table 1. Dipswitch Number Function 1 2 3 N/A 4 Indoor Thermostat 5 6 7 8 Cooling & Heat Pump CFM CFM Trim Adjust Electric Heat Table 1 CFM DELIVERY Tables 2 and 3 show the CFM output for dipswitch combina- tions 1-2, and 5-6. Model Switch 1 Switch 2 CFM OFF OFF 1,100 ON OFF 850 OFF ON 700 OFF OFF 2,050 ON OFF 1,750 OFF ON 1,600 OFF ON 1,200 AER36-60 AEPT36-60 Electric Heat Operation AER30 AEPT30 Table 2 SERVICING 145 OFF OFF 1,100 ON OFF 800 OFF ON 600 OFF OFF 1,800 ON OFF 1,580 OFF ON 1,480 ON ON 1,200 AER30 AEPT30 AER36-60 AEPT36-60 Cooling/Heat Pump Operation Table 3 THERMOSTAT “FAN ONLY” MODE During Fan Only Operations, the CFM output is 30% of the cooling setting. CFM TRIM ADJUST Minor adjustments can be made through the dip switch combination of 7-8. Table 4 shows the switch position for this feature. NOTE: The airflow will not make the decreasing adjustment in Electric Heat mode. CFM Sw it c h 7 Sw it c h 8 + 1 0 % ON OFF - 1 5 % OFF ON Table 4 HUMIDITY CONTROL When using a Humidstat (normally closed), cut jumper PJ6 on the control board. The Humidstat will only affect cooling airflow by adjusting the Airflow to 85%. TWO STAGE HEATING When using staged electric heat, cut jumper PJ4 on the control board. S-17 CHECKING COMPRESSOR WARNING Hermetic compressor electrical terminal venting can be dangerous. When insulating material which supports a hermetic compressor or electrical terminal suddenly disintegrates due to physical abuse or as a result of an electrical short between the terminal and the compressor housing, the terminal may be expelled, venting the vapor and liquid contents of the compressor housing and system. If the compressor terminal PROTECTIVE COVER and gasket (if required) are not properly in place and secured, there is a remote possibility if a terminal vents, that the vaporous and liquid discharge can be ignited, spouting flames several feet, causing potentially severe or fatal injury to anyone in its path. This discharge can be ignited external to the compressor if the terminal cover is not properly in place and if the discharge impinges on a sufficient heat source. Ignition of the discharge can also occur at the venting terminal or inside the compressor, if there is sufficient contaminant air present in the system and an electrical arc occurs as the terminal vents. Ignition cannot occur at the venting terminal without the presence of contaminant air, and cannot occur externally from the venting terminal without the presence of an external ignition source. Therefore, proper evacuation of a hermetic system is essential at the time of manufacture and during servicing. To reduce the possibility of external ignition, all open flame, electrical power, and other heat sources should be extin- guished or turned off prior to servicing a system. If the following test indicates shorted, grounded or open windings, see procedures S-19 for the next steps to be taken. S-17A RESISTANCE TEST Each compressor is equipped with an internal overload. The line break internal overload senses both motor amperage and winding temperature. High motor temperature or amper- age heats the disc causing it to open, breaking the common circuit within the compressor on single phase units. Heat generated within the compressor shell, usually due to recycling of the motor, high amperage or insufficient gas to cool the motor, is slow to dissipate. Allow at least three to four hours for it to cool and reset, then retest. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Remove the leads from the compressor terminals. WARNING See warnings S-17 before removing compressor terminal cover. 2. Using an ohmmeter, test continuity between terminals S- R, C-R, and C-S, on single phase units or terminals T2, T2 and T3, on 3 phase units. SERVICING 146 S R C COMP OHMMETER TESTING COMPRESSOR WINDINGS If either winding does not test continuous, replace the compressor. NOTE: If an open compressor is indicated, allow ample time for the internal overload to reset before replacing compres- sor. S-17B GROUND TEST If fuse, circuit breaker, ground fault protective device, etc., has tripped, this is a strong indication that an electrical problem exists and must be found and corrected. The circuit protective device rating must be checked, and its maximum rating should coincide with that marked on the equipment nameplate. With the terminal protective cover in place, it is acceptable to replace the fuse or reset the circuit breaker ONE TIME ONLY to see if it was just a nuisance opening. If it opens again, DO NOT continue to reset. Disconnect all power to unit, making sure that all power legs are open. 1. DO NOT remove protective terminal cover. Disconnect the three leads going to the compressor terminals at the nearest point to the compressor. WARNING Damage can occur to the glass embedded terminals if the leads are not properly removed. This can result in terminal and hot oil discharging. 2. Identify the leads and using a Megger, Hi-Potential Ground Tester, or other suitable instrument which puts out a voltage between 300 and 1500 volts, check for a ground separately between each of the three leads and ground (such as an unpainted tube on the compressor). Do not use a low voltage output instrument such as a volt- ohmmeter. HI-POT COMPRESSOR GROUND TEST 3. If a ground is indicated, then carefully remove the com- pressor terminal protective cover and inspect for loose leads or insulation breaks in the lead wires. 4. If no visual problems indicated, carefully remove the leads at the compressor terminals. Carefully retest for ground, directly between compressor terminals and ground. 5. If ground is indicated, replace the compressor. S-17D OPERATION TEST If the voltage, capacitor, overload and motor winding test fail to show the cause for failure: WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Remove unit wiring from disconnect switch and wire a test cord to the disconnect switch. NOTE: The wire size of the test cord must equal the line wire size and the fuse must be of the proper size and type. 2. With the protective terminal cover in place, use the three leads to the compressor terminals that were discon- nected at the nearest point to the compressor and connect the common, start and run clips to the respective leads. 3. Connect good capacitors of the right MFD and voltage rating into the circuit as shown. 4. With power ON, close the switch. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. A. If the compressor starts and continues to run, the cause for failure is somewhere else in the system. B. If the compressor fails to start - replace. SERVICING 147 COPELAND COMPRESSOR 03 A 12345 L YEAR MONTH SERIAL NUMBER PLANT S-18 TESTING CRANKCASE HEATER (OPTIONAL ITEM) The crankcase heater must be energized a minimum of four (4) hours before the condensing unit is operated. Crankcase heaters are used to prevent migration or accumu- lation of refrigerant in the compressor crankcase during the off cycles and prevents liquid slugging or oil pumping on start up. A crankcase heater will not prevent compressor damage due to a floodback or over charge condition. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Disconnect the heater lead in wires. 2. Using an ohmmeter, check heater continuity - should test continuous. If not, replace. S-20 CHECKING DEFROST RELAY CONTACTS 1. Remove the wire leads from the defrost relay contact terminals. 2. Using an ohmmeter, test continuity between terminals. Defrost contacts should read closed. If not as above, replace relay. WARNING Line Voltage now present. 3. Energize the relay by applying 24 volts to the relay coil. 4. With power on, retest with ohmmeter. Readings should be opposite those read in step 2, (N.O. contact should be closed, N.C. contacts should be open). If not as above, replace the relay. S-21 CHECKING REVERSING VALVE AND SOLENOID Occasionally the reversing valve may stick in the heating or cooling position or in the mid-position. When stuck in the mid-position, part of the discharge gas from the compressor is directed back to the suction side, resulting in excessively high suction pressure. An increase in the suction line temperature through the reversing valve can also be measured. Check operation of the valve by starting the system and switching the operation from COOL- ING to HEATING cycle. If the valve fails to change its position, test the voltage (24V) at the valve coil terminals, while the system is on the COOLING cycle. If no voltage is registered at the coil terminals, check the operation of the thermostat an the continuity of the connect- ing wiring from the "O" terminal of the thermostat to the unit. If voltage is registered at the coil, tap the valve body lightly while switching the system from HEATING to COOLING, etc. If this fails to cause the valve to switch positions, remove the coil connector cap and test the continuity of the reversing valve solenoid coil. If the coil does not test continuous - replace it. If the coil test continuous and 24 volts is present at the coil terminals, the valve is inoperative - replace. S-24 TESTING DEFROST TIMER BOARD To check the defrost timer board for proper sequencing, proceed as follows: With power ON; unit running. WARNING Line Voltage now present. TIME TEMPERATURE DEFROST CONTROL Testing Defrost Initiation 1. Jumper defrost control (thermostat) by placing jumper wire from (R) wire of low voltage terminal board, to (DFT) terminal of defrost timer board. 2. Using a VOM, measure voltage between (DFT) terminal and (COM) terminal of defrost timer board - should read 24 VAC. 3. With VOM connected to the C and O terminials, meter should read 0 VAC. With the unit in operation, short or jumper the two TEST pins on board. (Test Terminals Jumpered - Count time speeds up - 90 minutes = approximately 21 seconds). 5. If not as above, replace control. SERVICING 148 Testing Defrost Termination With unit still running and defrost initiated: 1. Remove jumper from defrost control (thermostat) in- stalled in Step 1 above. 2. Remove wire from Terminal (DFT) on defrost control board. 3. Unit should terminate defrost and resume normal heating operation. 4. If not as above, replace control. S-25 TESTING DEFROST CONTROL 1. Install a thermocouple type temperature test lead on the tube adjacent to the defrost control (thermostat). Insulate the lead point of contact. 2. Check the temperature at which the control closes its contacts. 3. Raise the temperature of the control until it opens. 4. If not as above, replace control. S-26 CHECKING HEATER LIMIT CONTROL(S) (OPTIONAL ELECTRIC HEATERS) Each individual heater element is protected wtih an auto- matic rest lmit control connected in series with each element to prevent overheating of components in case of low airflow. This limit control will open its circuit at approximately 150°F to 160°F and close at approximately 110°F. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Remove the wiring from the control terminals. 2. Using an ohmmeter test for continuity across the nor- mally closed contacts. No readin gindicates the control is open - replace if necessary. Make sure the limits are cool before testing. IF FOUND OPEN - REPLACE - DO NOT WIRE AROUND. S-27 CHECKING HEATER ELEMENTS Optional electric heaters may be added in the quantities shown in the spec sheet for each model unit, to provid electri resistance heating. Under no condition shall more heaters than the quantity shown be installed. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Disassemble and remove th heating element(s). 2. Visually inspect the heater assembly for any breaks in the wire or broken insulators. 3. Using an ohmmeter, test the element for continuity - no reading indicates the element is open. Replace as neccessary. S-40 AR & AR*F ELECTRONIC BLOWERS TIME DELAY RELAY The AR and AR*F contain an Electronic Blower Time Delay Relay board, B1370735. This board provides on/off time delays for the blower motor in cooling and heat pump heating demands when “G” is energized. During a cooling or heat pump heating demand, 24Vac is supplied to terminal “G” of the EBTDR to turn on the blower motor. The EBTDR initiates a 7 second delay on and then energizes it’s onboard relay. The relay on the EBTDR board closes it’s normally open contacts and supplies power to the blower motor. When the “G” input is removed, the EBTDR initiates a 65 second delay off. When the 65 seconds delay expires the onboard relay is de-energized and it’s contacts open and remove power from the blower motor. During an electric heat only demand, “W1” is energized but “G” is not. The blower motor is connected to the normally closed contacts of the relay on the EBTDR board. The other side of this set of contacts is connected to the heat se- quencer on the heater assembly that provides power to the first heater element. When “W1” is energized, the sequencer will close it’s contacts within 10 to 20 seconds to supply power to the first heater element and to the blower motor through the normally closed contacts on the relay on the EBTDR. When the “W1” demand is removed, the sequencer opens it contacts within 30 to 70 seconds and removes power from the heater element and the blower motor. The EBTDR also contains a speedup terminal to reduce the delays during troubleshooting of the unit. When this terminal is shorted to the common terminal, “C”, on the EBTDR board, the delay ON time is reduced to 3 seconds and the delay OFF time is reduced to 5 second. Two additional terminals, M1 and M2, are on the EBTDR board. These terminals are used to connect the unused leads from the blower motor and have no affect on the board’s operation. SERVICING 149 SEQUENCE OF OPERATION This document covers the basic sequence of operation for a typical application with a mercury bulb thermostat. When a digital/electronic thermostat is used, the on/off staging of the auxiliary heat will vary. Refer to the installation instruc- tions and wiring diagrams provided with the MBR and AR*F for specific wiring connections and system con- figuration. AR & AR*F WITH SINGLE STAGE CONDENSERS 1.0 Cooling Operation 1.1 On a demand for cooling, the room thermostat energizes “G” and “Y” and 24Vac is supplied to “Y” at the condens- ing unit and the “G” terminal on the EBTDR board. 1.2 The compressor and condenser fan are turned on and after a 7 second on delay, the relay on the EBTDR board is energized and the blower motor starts. 1.3 When the cooling demand “Y” is satisfied, the room thermostat removes the 24Vac from “G” and “Y”. 1.4 The compressor and condenser fan are turned off and after a 65 second delay off, the relay on the EBTDR board is de-energized and the blower is turned off. 2.0 Heating Operation 2.1 On a demand for heat, the room thermostat energizes “W1” and 24Vac is supplied to heat sequencer, HR1, on the heater assembly. 2.2 The contacts M1 and M2 will close within 10 to 20 seconds and turn on heater element #1. The normally closed contacts on the EBTDR are also connected to terminal M1. When M1 and M2 close, the blower motor will be energized thru the normally closed contacts on the EBTDR board. At the same time, if the heater assembly contains a second heater element, HR1 will contain a second set of contacts, M3 and M4, which will close to turn on heater element #2. Note: If more than two heater elements are on the heater assembly, it will contain a second heat sequencer, HR2, which will control the 3 rd and 4 th heater elements if available. If the first stage heat demand, “W1” cannot be satisfied by the heat pump, the temperature indoors will continue to drop. The room thermostat will then energize “W2” and 24Vac will be supplied to HR2 on the heater assembly. When the “W2” demand is satisfied, the room thermostat will remove the 24Vac from HR2. The contacts on HR2 will open between 30 to 70 seconds and heater elements #3 and #4 will be turned off. On most digital/electronic thermostats, “W2” will remain energized until the first stage demand “W1” is satisfied and then the “W1” and “W2” demands will be removed. 2.3 When the “W1” heat demand is satisfied, the room thermostat will remove the 24Vac from HR1. Both set of contacts on the relay opens within 30 to 70 seconds and turn off the heater element(s) and the blower motor. AR & AR*F WITH SINGLE STAGE HEAT PUMPS 3.0 Cooling Operation On heat pump units, when the room thermostat set to the cooling mode, 24Vac is supplied to “O” which energizes the reversing valve. As long as the thermostat is set for cooling, the reversing valve will be in the energized position for cooling. 3.1 On a demand for cooling, the room thermostat energizes “G” and “Y” and 24Vac is supplied to “Y” at the heat pump and the “G” terminal on the EBTDR board. 3.2 The heat pump turned on in the cooling mode and after a 7 second on delay, the relay on the EBTDR board is energized and the blower motor starts. 3.3 When the cooling demand is satisfied, the room thermo- stat removes the 24Vac from “G” and “Y”. 3.4 The heat pump is turned off and after a 65 second delay off, the relay on the EBTDR board is de-energized and the blower motor is turned off. 4.0 Heating Operation On heat pump units, when the room thermostat set to the heating mode, the reversing valve is not energized. As long as the thermostat is set for heating, the reversing valve will be in the de-energized position for heating except during a defrost cycle. Some installations may use one or more outdoor thermostats to restrict the amount of electric heat that is available above a preset ambient temperature. Use of optional controls such as these can change the operation of the electric heaters during the heating mode. This sequence of operation does not cover those applications. 4.1 On a demand for first stage heat with heat pump units, the room thermostat energizes “G” and “Y” and 24Vac is supplied to “Y” at the heat pump unit and the “G” terminal on the EBTDR board. The heat pump is turned on in the heating mode and the blower motor starts after a 7 second on delay. 4.2 If the first stage heat demand cannot be satisfied by the heat pump, the temperature indoors will continue to drop. The room thermostat will then energize terminal “W2’ for second stage heat and 24Vac will be supplied to heat sequencer HR1 on the heater assembly. 4.3 HR1 contacts M1 and M2 will close will close within 10 to 20 seconds and turn on heater element #1. At the same time, if the heater assembly contains a second heater element, HR1 will contain a second set of contacts, M3 and M4, which will close and turn on heater element #2. The blower motor is already on as a result of terminal “G” on the EBTDR board being energized for the first stage heat demand. SERVICING 150 Note: If more than two heater elements are on the heater assembly, it will contain a second heat sequencer, HR2, which will control the 3 rd and 4 th heater elements if available. If the second stage heat demand, “W2” cannot be satisfied by the heat pump, the temperature indoors will continue to drop. The room thermostat will then energize “W3” and 24Vac will be supplied to HR2 on the heater assembly. When the “W3” demand is satisfied, the room thermostat will remove the 24Vac from HR2. The contacts on HR2 will open between 30 to 70 seconds and heater elements #3 and #4 will be turned off. On most digital/electronic thermostats, “W3” will remain energized until the first stage heat demand “Y” is satisfied and then the “G”, “Y”, “W2” and “W3” demands will be removed. 4.4 As the temperature indoors increase, it will reach a point where the second stage heat demand, “W2”, is satisfied. When this happens, the room thermostat will remove the 24Vac from the coil of HR1. The contacts on HR1 will open between 30 to 70 seconds and turn off both heater element(s). The heat pump remains on along with the blower motor because the “Y” demand for first stage heat will still be present. 4.5 When the first stage heat demand “Y” is satisfied, the room thermostat will remove the 24Vac from “G” and “Y”. The heat pump is turned off and the blower motor turns off after a 65 second off delay. 5.0 Defrost Operation On heat pump units, when the room thermostat is set to the heating mode, the reversing valve is not energized. As long as the thermostat is set for heating, the reversing valve will be in the de-energized position for heating except during a defrost cycle. 5.1 The heat pump will be on and operating in the heating mode as described the Heating Operation in section 4. 5.2 The defrost control in the heat pump unit checks to see if a defrost is needed every 30, 60 or 90 minutes of heat pump operation depending on the selectable setting by monitoring the state of the defrost thermostat attached to the outdoor coil. 5.3 If the temperature of the outdoor coil is low enough to cause the defrost thermostat to be closed when the defrost board checks it, the board will initiate a defrost cycle. 5.4 When a defrost cycle is initiated, the contacts of the HVDR relay on the defrost board open and turns off the outdoor fan. The contacts of the LVDR relay on the defrost board closes and supplies 24Vac to “O” and “W2”. The reversing valve is energized and the contacts on HR1 close and turns on the electric heater(s). The unit will continue to run in this mode until the defrost cycle is completed. 5.5 When the temperature of the outdoor coil rises high enough to causes the defrost thermostat to open, the defrost cycle will be terminated. If at the end of the programmed 10 minute override time the defrost thermo- stat is still closed, the defrost board will automatically terminate the defrost cycle. 5.6 When the defrost cycle is terminated, the contacts of the HVDR relay will close to start the outdoor fan and the contacts of the LVDR relay will open and turn off the reversing valve and electric heater(s). The unit will now be back in a normal heating mode with a heat pump demand for heating as described in the Heating Opera- tion in section 4. S-41 AER & AEPT WITH SINGLE STATE CONDENSERS AER & AEPT ELECTRONIC BLOWER TIME DELAY RELAY SEQUENCE OF OPERATION This document covers the basic sequence of operation for a typical application with a mercury bulb thermostat. When a digital/electronic thermostat is used, the on/off staging of the auxiliary heat will vary. Refer to the installation instructions and wiring diagrams provided with the AER and AEPT for specific wiring connections, dip switch settings and system configuration. AER & AEPT WITH SINGLE STAGE CONDENSERS When used with a single stage condenser, dip switch #4 must be set to the on position on the VSTB inside the AER and AEPT. The “Y” output from the indoor thermostat must be connected to the yellow wire labeled “Y/Y2” inside the wire bundle marked “Thermostat” and the yellow wire labeled “Y/ Y2” inside the wire bundle marked “Outdoor Unit” must be connected to “Y” at the condenser. The orange jumper wire from terminal “Y1” to terminal “O” on the VSTB inside the AEPT must remain connected. 1.0 Cooling Operation 1.1 On a demand for cooling, the room thermostat energizes “G” and “Y” and 24Vac is supplied to “G” and “Y/Y2” of the AER and AEPT unit. The VSTB inside the AER and AEPT will turn on the blower motor and the motor will ramp up to the speed programmed in the motor based on the settings for dip switch 5 and 6. The VSTB will supply 24Vac to “Y” at the condenser and the compressor and condenser are turned on. 1.2 When the cooling demand is satisfied, the room thermo- stat removes the 24Vac from “G” and “Y”. The AEPT removes the 24Vac from “Y’ at the condenser and the compressor and condenser fan are turned off. The blower motor will ramp down to a complete stop based on the time and rate programmed in the motor. SERVICING 151 2.0 Heating Operation 2.1 On a demand for heat, the room thermostat energizes “W1” and 24Vac is supplied to terminal “E/W1” of the VSTB inside the AER and AEPT units. The VSTB will turn on the blower motor and the motor will ramp up to the speed programmed in the motor based on the settings for dip switch 1 and 2. The VSTB will supply 24Vac to heat sequencer HR1 on the electric heater assembly. 2.2 HR1 contacts M1 and M2 will close within 10 to 20 seconds and turn on heater element #1. At the same time, if the heater assembly contains a second heater element, HR1 will contain a second set of contacts, M3 and M4, which will close and turn on heater element #2. 5.0 Defrost Operation On heat pump units, when the room thermostat is set to the heating mode, the reversing valve is not energized. As long as the thermostat is set for heating, the reversing valve will be in the de-energized position for heating except during a defrost cycle. 5.1 The heat pump will be on and operating in the heating mode as described the Heating Operation in section 4. 5.2 The defrost control in the heat pump unit checks to see if a defrost is needed every 30, 60 or 90 minutes of heat pump operation depending on the selectable setting by monitoring the state of the defrost thermostat attached to the outdoor coil. 5.3 If the temperature of the outdoor coil is low enough to cause the defrost thermostat to be closed when the defrost board checks it, the board will initiate a defrost cycle. 5.4 When a defrost cycle is initiated, the contacts of the HVDR relay on the defrost board open and turns off the outdoor fan. The contacts of the LVDR relay on the defrost board closes and supplies 24Vac to “O” and “W2”. The reversing valve is energized and the contacts on HR1 close and turns on the electric heater(s). The unit will continue to run in this mode until the defrost cycle is completed. 5.5 When the temperature of the outdoor coil rises high enough to causes the defrost thermostat to open, the defrost cycle will be terminated. If at the end of the programmed 10 minute override time the defrost thermo- stat is still closed, the defrost board will automatically terminate the defrost cycle. 5.6 When the defrost cycle is terminated, the contacts of the HVDR relay on the defrost board will close to start the outdoor fan and the contacts of the LVDR relay will open and turn off the reversing valve and electric heater(s). The unit will now be back in a normal heating mode with a heat pump demand for heating as described in the Heating Operation in section 4. S-60 ELECTRIC HEATER (OPTIONAL ITEM) Optional electric heaters may be added, in the quantities shown in the specifications section, to provide electric resistance heating. Under no condition shall more heaters than the quantity shown be installed. The low voltage circuit in the air handler is factory wired and terminates at the location provided for the electric heater(s). A minimum of field wiring is required to complete the instal- lation. Other components such as a Heating/Cooling Thermostat and Outdoor Thermostats are available to complete the installation. The system CFM can be determined by measuring the static pressure external to the unit. The installation manual supplied with the blower coil, or the blower performance table in the service manual, shows the CFM for the static mea- sured. Alternately, the system CFM can be determined by operating the electric heaters and indoor blower WITHOUT having the compressor in operation. Measure the temperature rise as close to the blower inlet and outlet as possible. If other than a 240V power supply is used, refer to the BTUH CAPACITY CORRECTION FACTOR chart below. BTUH CAPACITY CORRECTION FACTOR SUPPLY VOLTAGE 250 230 220 208 MULTIPLICATION FACTOR 1.08 .92 .84 .75 EXAMPLE: Five (5) heaters provide 24.0 KW at the rated 240V. Our actual measured voltage is 220V, and our measured temperature rise is 42°F. Find the actual CFM: Answer: 24.0KW, 42°F Rise, 240 V = 1800 CFM from the TEMPERATURE RISE CHART, Table 5. Heating output at 220 V = 24.0KW x 3.413 x .84 = 68.8 MBH. Actual CFM = 1800 x .84 Corr. Factor = 1400 CFM. NOTE: The temperature rise table is for sea level installa- tions. The temperature rise at a particular KW and CFM will be greater at high altitudes, while the external static pressure at a particular CFM will be less. SERVICING 152 TEMPERATURE RISE (F°) @ 240V CFM 4.8 KW 7.2 KW 9.6 KW 14.4 KW 19.2 KW 24.0 KW 28.8 KW 600 25 38 51 - - - - 700 22 33 43 - - - - 800 19 29 38 57 - - - 900 17 26 34 51 - - - 1000 15 23 30 46 - - - 1100 14 21 27 41 55 - - 1200 13 19 25 38 50 - - 1300 12 18 23 35 46 - - 1400 11 16 22 32 43 54 65 1500 10 15 20 30 40 50 60 1600 9 14 19 28 38 47 57 1700 9 14 18 27 36 44 53 1800 8 13 17 25 34 42 50 1900 8 12 16 24 32 40 48 2000 8 12 15 23 30 38 45 2100 7 11 14 22 29 36 43 2200 7 11 14 21 27 34 41 2300 7 10 13 20 26 33 39 Table 5 HTR KW 3.0 KW 4.7 KW 6.0 KW 7.0 KW 9.5 KW 14.2 KW 19.5 KW 21.0 KW BTUH 10200 16200 20400 23800 32400 48600 66500 71600 ELECTRIC HEATER CAPACITY BTUH Table 6 FORMULAS: Heating Output = KW x 3413 x Corr. Factor Actual CFM = CFM (from table) x Corr. Factor BTUH = KW x 3413 BTUH = CFM x 1.08 x Temperature Rise (T) CFM = KW x 3413 1.08 x T T = BTUH CFM x 1.08 S-61A CHECKING HEATER LIMIT CONTROL(S) Each individual heater element is protected with a limit control device connected in series with each element to prevent overheating of components in case of low airflow. This limit control will open its circuit at approximately 150°F. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Remove the wiring from the control terminals. 2. Using an ohmmeter, test for continuity across the nor- mally closed contacts. No reading indicates the control is open - replace if necessary. IF FOUND OPEN - REPLACE - DO NOT WIRE AROUND. S-61B CHECKING HEATER FUSE LINK (OPTIONAL ELECTRIC HEATERS) Each individual heater element is protected with a one time fuse link which is connected in series with the element. The fuse link will open at approximately 333°. 1. Remove heater element assembly so as to expose fuse link. 2. Using an ohmmeter, test across the fuse link for continu- ity - no reading indicates the link is open. Replace as necessary. NOTE: The link is designed to open at approximately 333°F. DO NOT WIRE AROUND - determine reason for failure. S-62 CHECKING HEATER ELEMENTS 1. Disassemble and remove the heating element. 2. Visually inspect the heater assembly for any breaks in the wire or broken insulators. 3. Using an ohmmeter, test the element for continuity - no reading indicates the element is open. Replace as necessary. SERVICING 153 S-100 REFRIGERATION REPAIR PRACTICE DANGER Always remove the refrigerant charge in a proper manner before applying heat to the system. When repairing the refrigeration system: WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 1. Never open a system that is under vacuum. Air and moisture will be drawn in. 2. Plug or cap all openings. 3. Remove all burrs and clean the brazing surfaces of the tubing with sand cloth or paper. Brazing materials do not flow well on oxidized or oily surfaces. 4. Clean the inside of all new tubing to remove oils and pipe chips. 5. When brazing, sweep the tubing with dry nitrogen to prevent the formation of oxides on the inside surfaces. 6. Complete any repair by replacing the liquid line drier in the system, evacuate and charge. BRAZING MATERIALS Copper to Copper Joints - Sil-Fos used without flux (alloy of 15% silver, 80% copper, and 5% phosphorous). Recom- mended heat 1400°F. Copper to Steel Joints - Silver Solder used without a flux (alloy of 30% silver, 38% copper, 32% zinc). Recommended heat - 1200°F. S-101 LEAK TESTING (NITROGEN OR NITROGEN-TRACED) To avoid the risk of fire or explosion, never use oxygen, high pressure air or flammable gases for leak testing of a refrigeration system. WARNING To avoid possible explosion, the line from the nitrogen cylinder must include a pressure regulator and a pressure relief valve. The pressure relief valve must be set to open at no more than 150 psig. WARNING Pressure test the system using dry nitrogen and soapy water to locate leaks. If you wish to use a leak detector, charge the system to 10 psi using the appropriate refrigerant then use nitrogen to finish charging the system to working pressure, then apply the detector to suspect areas. If leaks are found, repair them. After repair, repeat the pressure test. If no leaks exist, proceed to system evacuation. S-102 EVACUATION WARNING REFRIGERANT UNDER PRESSURE! Failure to follow proper procedures may cause property damage, personal injury or death. This is the most important part of the entire service procedure. The life and efficiency of the equipment is dependent upon the thoroughness exercised by the serviceman when evacuating air (non-condensables) and moisture from the system. Air in a system causes high condensing temperature and pressure, resulting in increased power input and reduced performance. Moisture chemically reacts with the refrigerant oil to form corrosive acids. These acids attack motor windings and parts, causing breakdown. The equipment required to thoroughly evacuate the system is a high vacuum pump, capable of producing a vacuum equiva- lent to 25 microns absolute and a thermocouple vacuum gauge to give a true reading of the vacuum in the system NOTE: Never use the system compressor as a vacuum pump or run when under a high vacuum. Motor damage could occur. Do not front seat the service valve(s) with the compressor open, with the suction line of the comprssor closed or severely restricted. WARNING WARNING Operating the compressor with the suction valve closed will void the warranty and cause serious compressor damage. WARNING SCROLL COMPRESSOR. Do not front seat the service valve(s) with the compressor operating in an attempt to save refrigerant. With the suction line of the compressor closed or severely restricted, the scroll compressor can and will draw a deep vacuum very quickly. This vacuum can cause internal arcing of the fusite, resulting in a damaged or failed compressor. SERVICING 154 1. Connect the vacuum pump, vacuum tight manifold set with high vacuum hoses, thermocouple vacuum gauge and charging cylinder as shown. 2. Start the vacuum pump and open the shut off valve to the high vacuum gauge manifold only. After the compound gauge (low side) has dropped to approximately 29 inches of vacuum, open the valve to the vacuum thermocouple gauge. See that the vacuum pump will blank-off to a maximum of 25 microns. A high vacuum pump can only produce a good vacuum if its oil is non-contaminated. LOW SIDE GAUGE AND VALVE HIGH SIDE GAUGE AND VALVE TO UNIT SERVICE VALVE PORTS VACUUM PUMP VACUUM PUMP ADAPTER 800 PSI RATED HOSES CHARGING CYLINDER AND SCALE { R-22 MANIFOLD EVACUATION 3. If the vacuum pump is working properly, close the valve to the vacuum thermocouple gauge and open the high and low side valves to the high vacuum manifold set. With the valve on the charging cylinder closed, open the manifold valve to the cylinder. 4. Evacuate the system to at least 29 inches gauge before opening valve to thermocouple vacuum gauge. 5. Continue to evacuate to a maximum of 250 microns. Close valve to vacuum pump and watch rate of rise. If vacuum does not rise above 1500 microns in three to five minutes, system can be considered properly evacuated. 6. If thermocouple vacuum gauge continues to rise and levels off at about 5000 microns, moisture and non- condensables are still present. If gauge continues to rise a leak is present. Repair and re-evacuate. 7. Close valve to thermocouple vacuum gauge and vacuum pump. Shut off pump and prepare to charge. S-103 CHARGING WARNING REFRIGERANT UNDER PRESSURE! * Do not overcharge system with refrigerant. * Do not operate unit in a vacuum or at negative pressure. Failure to follow proper procedures may cause property damage, personal injury or death. CAUTION Use refrigerant certified to ARI standards. Used refrigerant may cause compressor damage and will void the warranty. Most portable machines cannot clean used refrigerant to meet ARI standards. CAUTION Operating the compressor with the suction valve closed will void the warranty and cause serious compressor damage. Charge the system with the exact amount of refrigerant. Refer to the specification section or check the unit name- plates for the correct refrigerant charge. An inaccurately charged system will cause future prob- lems. 1. When using an ambient compensated calibrated charg- ing cylinder, allow liquid refrigerant only to enter the high side. 2. After the system will take all it will take, close the valve on the high side of the charging manifold. 3. Start the system and charge the balance of the refriger- ant through the low side. DO NOT charge in a liquid form. 4. With the system still running, close the valve on the charg- ing cylinder. At this time, you may still have some liquid refrigerant in the charging cylinder hose and will definitely have liquid in the liquid hose. Reseat the liquid line core. Slowly open the high side manifold valve and transfer the liquid refrigerant from the liquid line hose and charging cylinder hose into the suction service valve port. CARE- FUL: Watch so that liquid refrigerant does not enter the compressor. 5. With the system still running, reseat the suction valve core, remove hose and reinstall both valve core caps. 6. Check system for leaks. SERVICING 155 NOTE: This charging procedure can only be done in the cooling mode of operation. (Early production "a" models only.) All models with compressor process tube access valve can be processed in heating cycle if this valve is used. When charging a remote condensing unit with a non-match- ing evaporator coil, or a system where the charge quantity is unknown, alternate charging methods must be used. These systems must be charged according to subcooling or super- heat. 65 70 75 80 85 115 3 100 5 5 95 5 5 5 90 7 12 18 85 5 10 17 20 80 5 12 21 26 75 5 10 17 25 29 70 5 14 20 28 32 65 13 19 26 32 35 60 17 25 30 33 37 Return Air Temperature (°F Drybulb) SYSTEM SUPERHEAT Ambient Condenser Inlet Temp. (°F Drybulb) Coils having flow control restrictors should be charged to match the System Superheat chart above. Coils with ther- mostatic expansion valves (TXV's) should be charged by sub- cooling. See "Checking Subcooling and Superheat" sec- tions in this manual. Due to their design, Scroll compressors are inherently more tolerant of liquid refrigerant. NOTE: Even though the compressor section of a Scroll com- pressor is more tolerant of liquid refrigerant, continued flood- back or flooded start conditions may wash oil from the bear- ing surfaces causing premature bearing failure. If a restriction is located, replace the restricted part, replace drier, evacuate and recharge. S-104 CHECKING COMPRESSOR EFFICIENCY The reason for compressor inefficiency is broken or dam- aged suction and/or discharge valves, or scroll flanks on Scroll compressors, reducing the ability of the compressor to pump refrigerant vapor. The condition of the valves or scroll flanks is checked in the following manner. 1. Attach gauges to the high and low side of the system. 2. Start the system and run a "Cooling Performance Test. If the test shows: a. Below normal high side pressure. b. Above normal low side pressure. c. Low temperature difference across coil. d. Low amp draw at compressor. and the charge is correct. The compressor is faulty - re- place the compressor. NOTE: THIS TEST CANNOT BE DONE IN THE HEATING MODE Verification of proper rotation of Scroll Compressors is made as follows. NOTE: The compressor may run backwards (noisy opera- tion) for 1 or 2 seconds at shutdown. This is normal and does not harm the compressor. 1. Install gauges and verify that the suction pressure drops while the discharge pressure increases. 2. Listen for normal compressor sound levels. Reverse ro- tation results in elevated or unusual sound levels. 3. Reverse rotation will result in substantially reduced amp draw from tabulated values. To correct improper rotation, switch any two power supply leads at the outdoor unit contactor. The 3 phase Scroll Compressors are direction of rotation sensitive. They will rotate in either direction depending on the phasing of the power. There is no negative impact on durability caused by operating 3 phase compressors in re- versed rotation. The compressors internal protector will trip, de-energizing the compressor. Continued operation of 3 phase scroll compressors with the rotation reversed will contribute to compressor failure. All 3 phase scroll compressors should be checked for correct phase rotation. S-105B THERMOSTATIC EXPANSION VALVE The expansion valve is designed to control the rate of liquid refrigerant flow into an evaporator coil in exact proportion to the rate of evaporation of the refrigerant in the coil. The amount of refrigerant entering the coil is regulated since the valve responds to temperature of the refrigerant gas leaving the coil (feeler bulb contact) and the pressure of the refriger- ant in the coil. This regulation of the flow prevents the return of liquid refrigerant to the compressor. The illustration below shows typical heat pump TXV/check valve operation in the heating and cooling modes. SERVICING 156 COOLING HEATING THERMOSTATIC EXPANSION VALVES Some TXV valves contain an internal check valve thus eliminating the need for an external check valve and bypass loop. The three forces which govern the operation of the valve are: (1) the pressure created in the power assembly by the feeler bulb, (2) evaporator pressure, and (3) the equivalent pressure of the superheat spring in the valve. 0% bleed type expansion valves are used on indoor and outdoor coils. The 0% bleed valve will not allow the system pressures (High and Low side) to equalize during the shut down period. The valve will shut off completely at approxi- mately 100 PSIG. 30% bleed valves used on some other models will continue to allow some equalization even though the valve has shut-off completely because of the bleed holes within the valve. This type of valve should not be used as a replacement for a 0% bleed valve, due to the resulting drop in performance. The bulb must be securely fastened with two straps to a clean straight section of the suction line. Application of the bulb to a horizontal run of line is preferred. If a vertical installation cannot be avoided, the bulb must be mounted so that the capillary tubing comes out at the top. THE VALVES PROVIDED BY GOODMAN ARE DESIGNED TO MEET THE SPECIFICATION REQUIREMENTS FOR OPTIMUM PRODUCT OPERATION. DO NOT USE SUB- STITUTES. S-106 OVERFEEDING Overfeeding by the expansion valve results in high suction pressure, cold suction line, and possible liquid slugging of the compressor. If these symptoms are observed: 1. Check for an overcharged unit by referring to the cooling performance charts in the servicing section. 2. Check the operation of the power element in the valve as explained in S-110 Checking Expansion Valve Operation. 3. Check for restricted or plugged equalizer tube. S-107 UNDERFEEDING Underfeeding by the expansion valve results in low system capacity and low suction pressures. If these symptoms are observed: 1. Check for a restricted liquid line or drier. A restriction will be indicated by a temperature drop across the drier. 2. Check the operation of the power element of the valve as described in S-110 Checking Expansion Valve Operation. S-108 SUPERHEAT The expansion valves are factory adjusted to maintain 12 to 18 degrees superheat of the suction gas. Before checking the superheat or replacing the valve, perform all the proce- dures outlined under Air Flow, Refrigerant Charge, Expan- sion Valve - Overfeeding, Underfeeding. These are the most common causes for evaporator malfunction. CHECKING SUPERHEAT Refrigerant gas is considered superheated when its tempera- ture is higher than the saturation temperature corresponding to its pressure. The degree of superheat equals the degrees of temperature increase above the saturation temperature at existing pressure. See Temperature - Pressure Chart Table 7. 1. Attach an accurate thermometer or preferably a thermo- couple type temperature tester to the suction line at a point at least 6" from the compressor. 2. Install a low side pressure gauge on the suction line ser- vice valve at the outdoor unit. 3. Record the gauge pressure and the temperature of the line. 4. Convert the suction pressure gauge reading to tempera- ture by finding the gauge reading in Temperature - Pres- sure Chart and reading to the left, find the temperature in the °F. Column. 5. The difference between the thermometer reading and pres- sure to temperature conversion is the amount of super- heat. EXAMPLE: a. Suction Pressure = 84 b. Corresponding Temp. °F. = 50 c. Thermometer on Suction Line = 63°F. To obtain the degrees temperature of superheat subtract 50.0 from 63.0°F. The difference is 13°Superheat. The 13°Superheat would fall in the ± range of allowable superheat. SUPERHEAT ADJUSTMENT The expansion valves used on Amana® coils are factory set and are not field adjustable. If the superheat setting becomes disturbed, replace the valve. On systems using capillary tubes or flow control restrictors, superheat is adjusted in accordance with the "DESIRED SUPERHEAT vs. OUTDOOR TEMP" chart as explained in section S-103 CHARGING SERVICING 157 S-109 CHECKING SUBCOOLING Refrigerant liquid is considered subcooled when its tempera- ture is lower than the saturation temperature corresponding to its pressure. The degree of subcooling equals the degrees of temperature decrease below the saturation temperature at the existing pressure. 1. Attach an accurate thermometer or preferably a thermo- couple type temperature tester to the liquid line as it leaves the condensing unit. 2. Install a high side pressure gauge on the high side (liquid) service valve at the front of the unit. 3. Record the gauge pressure and the temperature of the line. 4. Convert the liquid line pressure gauge reading to tempera- ture by finding the gauge reading in Temperature - Pres- sure Chart and reading to the left, find the temperature in the °F. Column. 5. The difference between the thermometer reading and pressure to temperature conversion is the amount of subcooling. EXAMPLE: a. Liquid Line Pressure = 260 b. Corresponding Temp. °F. = 120° c. Thermometer on Liquid line = 109°F. To obtain the amount of subcooling subtract 109°F from 120°F. The difference is 11°subcooling. The normal subcooling range is 9°- 13°subcooling for heat pumps units, 14 to 18 for straight cool units. S-110 CHECKING EXPANSION VALVE OPERATION 1. Remove the remote bulb of the expansion valve from the suction line. 2. Start the system and cool the bulb in a container of ice water, closing the valve. As you cool the bulb, the suction pressure should fall and the suction temperature will rise. 3. Next warm the bulb in your hand. As you warm the bulb, the suction pressure should rise and the suction tempera- ture will fall. 4. If a temperature or pressure change is noticed, the expansion valve is operating. If no change is noticed, the valve is restricted, the power element is faulty, or the equalizer tube is plugged. 5. Capture the charge, replace the valve and drier, evacuate and recharge. Temp. °F. Gauge Pressure (PSIG) Freon-22 Temp. °F. Gauge Pressure (PSIG) Freon-22 -40 -38 -36 -34 0.61 1.42 2.27 3.15 60 62 64 65 102.5 106.3 110.2 114.2 -32 -30 -28 -26 4.07 5.02 6.01 7.03 68 70 72 74 118.3 122.5 126.8 131.2 -24 -22 -20 -18 8.09 9.18 10.31 11.48 76 78 80 82 135.7 140.5 145.0 149.5 -16 -14 -12 -10 12.61 13.94 15.24 16.59 84 86 88 90 154.7 159.8 164.9 170.1 -8 -6 -4 -2 17.99 19.44 20.94 22.49 92 94 96 96 175.4 180.9 186.5 192.1 0 2 4 6 24.09 25.73 27.44 29.21 100 102 104 106 197.9 203.8 209.9 216.0 8 10 12 14 31.04 32.93 34.88 36.89 108 110 112 114 222.3 228.7 235.2 241.9 16 18 20 22 38.96 41.09 43.28 45.53 116 118 120 122 248.7 255.6 262.6 269.7 24 26 28 30 47.85 50.24 52.70 55.23 124 126 128 130 276.9 284.1 291.4 298.8 32 34 36 38 57.83 60.51 63.27 66.11 132 134 136 136 306.3 314.0 321.9 329.9 40 42 44 46 69.02 71.99 75.04 78.18 140 142 144 146 338.0 346.3 355.0 364.3 48 50 52 54 81.40 84.70 88.10 91.5 158 150 152 154 374.1 384.3 392.3 401.3 56 58 95.1 98.8 156 158 160 411.3 421.8 433.3 Table 7 SERVICING 158 S-111 CAPILLARY TUBES/RESTRICTOR ORI- FICES The capillary tubes/restrictor orifices used in conjunction with the indoor and outdoor coil, are a predetermined length and bore (I.D.). They are designed to control the rate of liquid refrigerant flow into an evaporator coil. The amount of refrigerant that flows through the capillary tube/ restrictor orifice is regulated by the pressure difference between the high and low sides of the system. In the cooling cycle when the outdoor air temperature rises, the high side condensing pressure rises. At the same time, the cooling load on the indoor coil increases, causing the low side pressure to rise, but at a slower rate. Since the high side pressure rises faster when the tempera- ture increases, more refrigerant flows to the evaporator, increasing the cooling capacity of the system. When the outdoor temperature falls, the reverse takes place. The condensing pressure falls, and the cooling loads on the indoor coil decrease, causing less refrigerant flow. A strainer is placed on the entering side of the tubes to prevent any foreign material from becoming lodged inside the capil- lary tubes. If a restriction should become evident, proceed as follows: 1. Capture the refrigerant charge. 2. Remove the capillary tubes/restrictor orifice or tube strainer assembly, and replace. 3. Replace liquid line drier, evacuate and recharge. Capillary Tubes/Orifice Assembly CHECKING EQUALIZATION TIME During the "OFF" cycle, the high side pressure bleeds to the low side through the capillary tubes/restrictor orifices. Check equalization time as follows: 1. Attach a gauge manifold to the suction and liquid line dill valves. 2. Start the system and allow the pressures to stabilize. 3. Stop the system and check the time it takes for the high and low pressure gauge readings to equalize. If it takes more than seven (7) minutes the capillary tubes/ restrictor orifices are inoperative. Replace, install a liquid line drier, evacuate and recharge. S-112 CHECKING RESTRICTED LIQUID LINE When the system is operating, the liquid line is warm to the touch. If the liquid line is restricted, a definite temperature drop will be noticed at the point of restriction. In severe cases, frost will form at the restriction and extend down the line in the direction of the flow. Discharge and suction pressures will be low, giving the appearance of an undercharged unit. However, the unit will have normal to high subcooling. Locate the restriction, replace the restricted part, replace drier, evacuate and recharge. S-113 OVERCHARGE OF REFRIGERANT An overcharge of refrigerant is normally indicated by an excessively high head pressure. An evaporator coil, using an expansion valve metering device, will basically modulate and control a flooded evaporator and prevent liquid return to the compressor. An evaporator coil, using a capillary tube metering device, could allow refrigerant to return to the compressor under extreme overcharge conditions. Also with a capillary tube metering device, extreme cases of insufficient indoor air can cause icing of the indoor coil and liquid return to the compres- sor, but the head pressure would be lower. There are other causes for high head pressure which may be found in the "Service Problem Analysis Guide." If other causes check out normal, an overcharge or a system containing non-condensables would be indicated. If this system is observed: 1. Start the system. 2. Remove and capture small quantities of gas from the suction line dill valve until the head pressure is reduced to normal. 3. Observe the system while running a cooling performance test. If a shortage of refrigerant is indicated, then the system contains non-condensables. S-114 NON-CONDENSABLES If non-condensables are suspected, shut down the system and allow the pressures to equalize. Wait at least 15 minutes. Compare the pressure to the temperature of the coldest coil since this is where most of the refrigerant will be. If the pressure indicates a higher temperature than that of the coil temperature, non-condensables are present. Non-condensables are removed from the system by first removing the refrigerant charge, replacing and/or installing liquid line drier, evacuating and recharging. SERVICING 159 S-115 COMPRESSOR BURNOUT When a compressor burns out, high temperature develops causing the refrigerant, oil and motor insulation to decom- pose forming acids and sludge. If a compressor is suspected of being burned-out, attach a refrigerant hose to the liquid line dill valve and properly remove and dispose of the refrigerant. NOTICE Violation of EPA regulations may result in fines or other penalties. Now determine if a burn out has actually occurred. Confirm by analyzing an oil sample using a Sporlan Acid Test Kit, AK- 3 or its equivalent. Remove the compressor and obtain an oil sample from the suction stub. If the oil is not acidic, either a burnout has not occurred or the burnout is so mild that a complete clean-up is not necessary. If acid level is unacceptable, the system must be cleaned by using the clean-up drier method. CAUTION Do not allow the sludge or oil to contact the skin. Severe burns may result. NOTE: The Flushing Method using R-11 refrigerant is no longer approved by Goodman Company, L.P. Suction Line Drier Clean-Up Method Use AMANA ® brand part number RF000127 suction line filter drier kit. This drier should be installed as close to the compressor suction fitting as possible. The filter must be accessible and be rechecked for a pressure drop after the system has operated for a time. It may be necessary to use new tubing and form as required. NOTE: At least twelve (12) inches of the suction line immediately out of the compressor stub must be discarded due to burned residue and contaminates. 1. Remove compressor discharge line strainer. 2. Remove the liquid line drier and expansion valve. 3 Purge all remaining components with dry nitrogen or carbon dioxide until clean. 4. Install new components including liquid line drier. 5. Braze all joints, leak test, evacuate, and recharge sys- tem. 6. Start up the unit and record the pressure drop across the drier. 7. Continue to run the system for a minimum of twelve (12) hours and recheck the pressure drop across the drier. Pressure drop should not exceed 6 PSIG. 8. Continue to run the system for several days, repeatedly checking pressure drop across the suction line drier. If the pressure drop never exceeds the 6 PSIG, the drier has trapped the contaminants. Remove the suction line drier from the system. 9. If the pressure drop becomes greater, then it must be replaced and steps 5 through 9 repeated until it does not exceed 6 PSIG. NOTICE: Regardless, the cause for burnout must be deter- mined and corrected before the new compressor is started. S-120 REFRIGERANT PIPING The piping of a refrigeration system is very important in relation to system capacity, proper oil return to compressor, pumping rate of compressor and cooling performance of the evaporator. This long line set application guideline applies to all ARI listed R22 air conditioner and heat pump split system matches of nominal capacity 18,000 to 60,000 Btuh. This guideline will cover installation requirements and additional accessories needed for split system installations where the line set exceeds 50 feet in actual length. Additional Accessories: 1. Crankcase Heater- a long line set application can critically increase the charge level needed for a system. As a result, the system is very prone to refrigerant migration during its off-cycle and a crankcase heater will help minimize this risk. A crankcase heater is recom- mended for any long line application (50 watt minimum). 2. Hard Start Assist- increased charge level in long line applications can require extra work from the compressor at start-up. A hard start assist device may be required to overcome this. Tube Sizing: 1. In long line applications, the “equivalent line length” is the sum of the straight length portions of the suction line plus losses (in equivalent length) from 45 and 90 degree bends. Select the proper suction tube size based on equivalent length of the suction line (see Tables 8 & 9) and recalculated system capacity. Equivalent length = Length horizontal + Length vertical + Losses from bends (see Table 9) 2. For any residential split system installed with a long line set, the liquid line size must never exceed 3/8". Limiting the liquid line size to 3/8" is critical since an increased refrigerant charge level from having a larger liquid line could possibly shorten a compressor’s lifespan. SERVICING 160 3. Single Stage Condensing Unit: The maximum length of tubing must not exceed 150 feet. • 50 feet is the maximum recommended vertical differ- ence between the condenser and evaporator when the evaporator is above the condenser. Equivalent length is not to exceed 150 feet. • The vertical difference between the condenser and evaporator when the evaporator is below the condenser can approach 150 feet, as long as the equivalent length does not exceed 150 feet. • The distance between the condenser and evaporator in a completely horizontal installation in which the indoor and outdoor unit do not differ more than 10 feet in vertical distance from each other can approach 150 feet, as long as the equivalent length does not exceed 150 feet. 4. Two-Stage Condensing Unit: The maximum length of tubing must not exceed 75 feet where indoor coil is located above the outdoor unit. NOTE: When the outdoor unit is located above the indoor coil, the maximum vertical rise must not exceed 25 feet. If the maximum vertical rise exceeds 25 feet, premature compressor failure will occur due to inad- equate oil return. 5. TXV Requirement: All line set applications over 50 ft will require a TXV. 6. Vibration and Noise: In long line applications, refriger- ant tubing is highly prone to transmit noise and vibration to the structure it is fastened to. Use adequate vibration- isolating hardware when mounting line set to adjacent structure. Most refrigerant tubing kits are supplied with 3/8"-thick insulation on the vapor line. For long line installations over 50 feet, especially if the line set passes through a high ambient temperature, ½”-thick suction line insulation is recommended to reduce loss of capacity. The liquid line should be insulated if passing through an area of 120°F or greater. Do not attach the liquid line to any non-insulated portion of the suction line Table 8 lists multiplier values to recalculate system-cooling capacity as a function of a system’s equivalent line length (as calculated from the suction line) and the selected suction tube size. Table 2 lists the equivalent length gained from adding bends to the suction line. Properly size the suction line to minimize capacity loss. Cond Unit Tons Suct Liq Suct Liq Suct Liq 1 1/2 5/8 1/4 3/4 3/8 3/4 3/8 2 5/8 1/4 3/4 3/8 3/4 3/8 2 1/2 3/4 3/8 3/4* 3/8 7/8 3/8 3 3/4 3/8 3/4** 3/8 7/8** 3/8 3 1/2 3/4 3/8 7/8** 3/8 1 1/8 3/8 4 7/8 3/8 1 1/8 3/8 1 1/8 3/8 5 7/8 3/8 1 1/8 3/8 1 1/8 3/8 Line Diameter (In. OD) REFRIGERANT LINE LENGTH (Ft) 0-24 25-49 50-74*** *7/8" required for full ratings **1 1/8" required for full ratings ***Lines greater than 74 feet in length or vertical elevation changes more than 50 feet, refer to the long line set. TABLE 8. CAPACITY MULTIPLIERS AS A FUNCTION OF SUCTION LINE SIZE & EQUIVALENT LENGTH 50 75 100 125 150 18,000 3/4 .99 .97 .96 .95 .95 24,000 3/4 1 .99 .99 .98 .97 30,000 3/4 .98 .97 .96 .95 .94 3/4 .93 .90 .86 .83 .79 7/8 .98 .96 .94 .92 .90 3/4 .93 .90 .87 .83 .80 7/8 .97 .96 .94 .93 .92 1-1/8 1 1 .99 .99 .98 3/4 .90 .86 .82 .78 N/R 7/8 .96 .94 .93 .91 .89 1-1/8 1 1 .99 .99 .98 7/8 .93 .91 .89 .86 .84 1-1/8 .99 .98 .98 .97 .97 36,000 42,000 48,000 60,000 Nominal capacity Btuh Vapor line diameter (in.) EQUIVALENT LINE LENGTH (FT) Table 8 NOTE: For a condenser with a liquid valve tube connection less than 3/8" diameter, use 3/8" liquid line tubing for a line set greater than 25 feet. TABLE 9. LOSSES FROM SUCTION LINE ELBOWS (EQUIVALENT LENGTH, FT.) 3/4 7/8 1-1/8 90°short radius 1.7 2 2.3 90°long radius 1.5 1.7 1.6 45° 0.7 0.8 1 I.D. (in.) Type of elbow fitting Table 9 Installation Requirements 1. In a completely horizontal installation with a long line set where the evaporator is at the same altitude as (or slightly below) the condenser, the line set should be sloped towards the evaporator. This helps reduce refrigerant migration to the condenser during a system’s off-cycle. SERVICING 161 2. For a system installation where the evaporator is above the condenser, an inverted vapor line trap should be installed on the suction line just before the inlet to the evaporator (see Fig 6). The top of the inverted loop must be slightly above the top of the evaporator coil and can be created simply by brazing two 90°long radius elbows together, if a bending tool is unavailable. Properly support and secure the inverted loop to the nearest point on the indoor unit or adjacent structure. Fig 6. Evaporator unit with inverted vapor loop 3. An oil trap is required at the evaporator only if the condenser is above the evaporator. Preformed oil traps are available at most HVAC supply houses, or oil traps may be created by brazing tubing elbows together (see diagram below). Remember to add the equivalent length from oil traps to the equivalent length calculation of the suction line. For example, if you construct an oil trap using two 45°elbows, one short and one long 90°elbow in a ¾” diameter suction line, the additional equivalent length would be 0.7+ 0.7+1.7+1.5, which equals 4.6 feet (refer to table 9). Long Radius Street Ell 45° Street Ell 45 ° Ell Short Radius Street Ell Oil Trap Construction Fig 7. Oil Trap 4. Low voltage wiring. Verify low voltage wiring size is adequate for the length used since it will be increased in a long line application. System Charging R22 condensers are factory charged for 15 feet of line set. To calculate the amount of extra refrigerant (in ounces) needed for a line set over 15 feet, multiply the additional length of line set by 0.6 ounces. Note for the formula below, the linear feet of line set is the actual length of liquid line (or suction line, since both should be equal) used, not the equivalent length calculated for the suction line. Extra refrigerant needed = (Linear feet of line set – 15 ft) x X oz/ft. Where X = 0.6 for 3/8" liquid tubing Remember, for condensers with a liquid valve connection less than 3/8" diameter, 3/8" liquid tubing is required for a line set longer than 25 feet. Follow the charging procedures in the outdoor unit I/O manual to ensure proper superheat and sub-cooling levels, especially on a system with a TXV installed in the indoor unit. Heat pumps should be checked in both heating and cooling mode for proper charge level. This guideline is meant to provide installation instructions based on most common long line set applications. Installation variables may affect sys- tem operation. NO ADDITIONAL COMPRESSOR OIL IS NEEDED FOR LONG LINE SET APPLICATIONS ON RESIDENTIAL SPLIT SYSTEMS. S-122 REVERSING VALVE REPLACEMENT Remove the refrigerant charge from the system. When brazing a reversing valve into the system, it is of extreme importance that the temperature of the valve does not exceed 250°F. at any time. Wrap the reversing valve with a large rag saturated with water. "Re-wet" the rag and thoroughly cool the valve after each brazing operation of the four joints involved. The wet rag around the reversing valve will eliminate conducting of heat to the valve body when brazing the line connection. The use of a wet rag sometimes can be a nuisance. There are commercial grades of heat absorbing paste that may be substituted. After the valve has been installed leak test, evacuate and recharge. SERVICING 162 S-202 DUCT STATIC PRESSURES AND/OR STATIC PRESSURE DROP ACROSS COILS This minimum and maximum allowable duct static pressure for the indoor sections are found in the specifications section. Tables are also provided for each coil, listing quantity of air (CFM) versus static pressure drop across the coil. Too great an external static pressure will result in insufficient air that can cause icing of the coil. Too much air can cause poor humidity control and condensate to be pulled off the evaporator coil causing condensate leakage. Too much air can also cause motor overloading and in many cases this constitutes a poorly designed system. S-203 AIR HANDLER EXTERNAL STATIC To determine proper air movement, proceed as follows: 1. Using a draft gauge (inclined manometer), measure the static pressure of the return duct at the inlet of the unit, (Negative Pressure). 2. Measure the static pressure of the supply duct, (Positive Pressure). 3. Add the two readings together. TOTAL EXTERNAL STATIC NOTE: Both readings may be taken simultaneously and read directly on the manometer if so desired. 4. Consult proper table for quantity of air. If external static pressure is being measured on a furnace to determine airflow, supply static must be taken between the "A" coil and the furnace. Ai r Fl ow TOTAL EXTERNAL STATIC S-204 COIL STATIC PRESSURE DROP 1. Using a draft gauge (inclined manometer), connect the positive probe underneath the coil and the negative probe above the coil. 2. A direct reading can be taken of the static pressure drop across the coil. 3. Consult proper table for quantity of air. STATIC PRESSURE DROP If the total external static pressure and/or static pressure drop exceeds the maximum or minimum allowable statics, check for closed dampers, dirty filters, undersized or poorly laid out duct work. ACCESSORIES WIRING DIAGRAMS 163 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! +5VDC 24VAC G POWER SUPPLY INPUT POWER SUPPLY COMMON OUT TO HP CONTROL P3-1 6.8K P3-7 Y-HP P1-6 P1-4 COMPRESSOR OUTPUT P1-7 O POWER SUPPLY OUT TO THERMOSTAT 24VAC Q2 K3 W1 POWER SUPPLY INPUT (COMMON) +VDC E/W1 Y P2-8 CALL FOR REVERSING VALVE P3-5 C C BLOWER FAN DEMAND OUTPUT P3-3 P1-8 Y-STAT Y-FURN C P3-2 P1-1 P3-8 REVERSING VALVE OUTPUT BREAK FOR ODT FURNACE DEMAND OUTPUT P1-3 R 24VAC K4 HP CALL FOR FURNACE (DURING DEFROST) W2 Y2-STAT Y2-FURN CALL FOR COMPRESSOR P2-7 P3-6 +VDC Y2 O REVERSING VALVE OUTPUT Q1 Y P2-4 K1 OT-NO Y P2-9 CALL FOR 2ND STAGE COMPRESSOR Y2 1.0K G-FURN P2-1 C OT-C C SECOND STAGE COMPRESSOR OUTPUT G CALL FOR EMERGENCY HEAT W1-FURN W2-HP F1 3A OT-NC 24VAC 2ND STAGE COMPRESSOR DEMAND OUTPUT W1 CALL FOR FURNACE HEAT 6.8K G-STAT +VDC P3-4 F U R N A C E P2-6 K2 ODT (OUTDOOR THERMOSTAT) Y R SECOND STAGE FURNACE DEMAND OUTPUT MICROPROCESSOR Y2-HP P1-5 CALL FOR 2ND STAGE FURNACE HEAT O W2 CALL FOR BLOWER FAN T H E R M O S T A T P2-5 1 2 R Y2 POWER SUPPLY COMPRESSOR CONTACTOR OUTPUT O H E A T P U M P P2-3 +5VDC W2 P3-9 P2-2 E POWER SUPPLY COMMON OUT TO THERMOSTAT POWER SUPPLY OUT TO HP CONTROL C P1-2 ALL FUEL SYSTEM AFE 18-60 & AFE18-60A CONTROL BOARD ALL FUEL CONTROL BOARD - AFE18-60 and AFE18-60A This wiring diagram is for reference only. Not all wiring is as shown above. Refer to the appropriate wiring diagram for the unit being serviced. (For use with Heat Pumps in conjunction with 80% or 90% Single-Stage or Two-Stage Furnaces) 164 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! ACCESSORIES WIRING DIAGRAMS AFE 18-60 *NOTE: K3 IS SHOWN WITH THE CONTROL POWERED. THE "Y" PATH TO THE HEAT PUMP WILL BE OPEN IF CONTROL IS NOT POWERED. FIELD WIRING INTERNAL CONTROL TRACES REMOVE BREAKAWAY TAB WHEN USING OUTDOOR THERMOSTAT OUTDOOR THERMOSTAT HEAT PUMP FURNACE THERMOSTAT R W G C R O Y E G W2 C R W2 O Y C OT-NO OT-NC OT-C TIMERS & RELAYS K3 K2 K1 3A FUSE P1 K2 P2 P3 ACCESSORIES WIRING DIAGRAMS 165 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! EMERGENCY HEAT RELAY 1 3 4 2 BLUE WHITE BLACK BROWN THERMOSTAT OT/EHR18-60 2 1 From Air Handler C G W2 R C R W2 O Y From Outdoor Unit C G W2 E R O Y I n d o o r T h e r m o s t a t B L U E G R E E N W H IT E R E D B L U E R E D W H IT E O R A N G E Y E L L O W 10kw and Below, One Stage Electric Heat RED EMERGENCY HEAT RELAY 1 4 2 BLUE WHITE BLACK BROWN THERMOSTAT OT/EHR18-60 2 1 From Air Handler C G W2 R C R W2 O Y From Outdoor Unit C G W2 E R O Y I n d o o r T h e r m o s t a t W3 B L U E G R E E N W H IT E R E D B R O W N B L U E R E D W H IT E O R A N G E Y E L L O W 15kw and Above, Two Stage Electric Heat 3 RED SEE NOTE Not e: When using a Thermost at wit h onl y one st age f or elect ri c heat (W2), t i e whit e and brown wires from ai r handl er t oget her. Typical Wiring Schematics for OT/EHR18-60 (Outdoor Thermostat & Emergency Heat Relay). This wiring diagram is for reference only. Not all wiring is as shown above. Refer to the appropriate wiring diagram for the unit being serviced. 166 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! ACCESSORIES WIRING DIAGRAMS EMERGENCY HEAT RELAY 1 3 4 2 BLUE WHITE BLACK BROWN THERMOSTAT OT/EHR18-60 #2 2 1 From Air Handler C G W2 R C R W2 O Y From Outdoor Unit C G W2 E R O Y I n d o o r T h e r m o s t a t W3 W3 B L U E G R E E N W H IT E R E D B R O W N B L U E R E D W H IT E O R A N G E Y E L L O W 15kw and Above with Two OT/EHR18-60's, Two Stage Electric Heat and Two Stage Thermostat HEAT RELAY EMERGENCY THERMOSTAT 1 4 3 2 1 2 BROWN BLACK WHITE BLUE OT/EHR18-60 #1 RED RED Typical Wiring Schematics for OT/EHR18-60 (Outdoor Thermostat & Emergency Heat Relay). This wiring diagram is for reference only. Not all wiring is as shown above. Refer to the appropriate wiring diagram for the unit being serviced. WIRING DIAGRAMS 167 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! CKL 90-120 168 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! WIRING DIAGRAMS CPLE, CPLJ, CRPT, CPLT A N D T H E R M O S T A T I N 'O F F ' P O S IT I O N . C O N T R O L S S H O W N W I T H U T IL I T I E S I N 'O N ' P O S I T I O N O U T D O O R F A N M O T O R D E F R O S T C O N T R O L L O W V O L T A G E D E F R O S T R E L A Y C R A N K C A S E H E A T E R I N T E R N A L O V E R L O A D L O W P R E S S U R E S W I T C H O U T D O O R T H E R M O S T A T ( O P T I O N A L ) R U N C A P A C I T O R F O R C O M P R E S S O R & F A N D E F R O S T T H E R M O S T A T R E V E R S I N G V A L V E C O I L S T A R T C A P A C I T O R F O R C O M P R E S S O R ( O P T I O N A L ) S T A R T R E L A Y F O R C O M P R E S S O R ( O P T I O N A L ) H I G H V O L T A G E D E F R O S T R E L A Y L O W V O L T A G E H I G H V O L T A G E F I E L D W I R I N G O T - 3 O T - 2 O T - 1 P O W E R S U P P L Y U S E C O P P E R C O N D U C T O R S O N L Y E Q U I P M E N T G R O U N D G R O U N D E D S U P P L Y I F U S E D U S E L 1 F O R N E U T R A L O R ( S E E R A T I N G P L A T E ) U S E C O P P E R C O N D U C T O R S O N L Y I O U S E N . E . C . C L A S S 2 W I R E C M C O L O R C O D E P U R P L E P U O W B R O R A N G E W H I T E B R O W N R E D B L U E B L Y B K R Y E L L O W B L A C K A U X M A I N S T A R T A S S I S T S C B L Y R C C F F R Y B K B K B K B R P U Y C R S R B K A U X M A I N B K B K D C D F T B K C O M P . H V D R S C S R R V C R V C B K B K R C C F O T L P C H I O L V D R C O M P O N E N T C O D E O P T I O N A L H I G H V O L T A G E F A C T O R Y W I R I N G C C O M P C M L O W V O L T A G E H I G H V O L T A G E C O M P R E S S O R C O N T A C T O R L P R C H E R M R B R Y Y S R 5 R 2 1 B K R Y Y Y B L B L C L 1 L 2 Y Y T 1 T 2 C O N T A C T O R D O U B L E P O L E A L T E R N A T E B K B K L 2 T 2 L 1 T 1 R B K B K B L R B K B L Y B R D F T R R W I R I N G C O D E C O N T R O L B O X N O T E - 1 B K C O W 2 R R D C R W W 2 B K O C Y O O R R D F T L V D R H V D R R D F 1 P U D F 2 R L V D R B 1 7 2 4 4 - 2 5 1 0 / 0 3 I N D O O R P O W E R S U P P L Y N O T E S : R W 2 O W 2 Y L P Y R V C C C C H C M C O M P P O L E C O N T A C T O R O N L Y A U X R B L Y O W R D F T D F T M A IN I O A L T E R N A T E D O U B L E I O T 1 C M A IN R A U X 5 S 2 D C C D F 2 D F 1 S T A R T A S S I S T H V D R S R 1 R C C F S C T 2 C S E E R A T I N G P L A T E O U T D O O R P O W E R S U P P L Y L 1 L 2 1 ) T O I N D O O R U N I T L O W V O L T A G E T E R M I N A L B L O C K & I N D O O R T H E R M O S T A T 2 ) S E E I N D O O R U N I T & O U T D O O R U N I T I N S T A L L A T I O N I N S T R U C T IO N S F O R C O N N E C T I O N O F O P T I O N A L O U T D O O R T H E R M O S T A T . 3 ) S T A R T A S S I S T F A C T O R Y E Q U I P P E D W H E N R E Q U I R E D . O P T I O N A L S T A R T A S S I S T ( S T A R T A S S I S T I F U S E D ) ( C R A N K C A S E H E A T I F U S E D ) ( I F U S E D ) ( I F U S E D ) F C H C Y O O O S E E N O T E 2 Y C H WIRING DIAGRAMS 169 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! CPLE 90-120 170 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! WIRING DIAGRAMS CLQ, CLJ, CKL, CRT, CLT CONTROLS SHOWN WITH UTILITIES IN 'ON'POSITION LOWVOLTAGE DEFROST RELAY OUTDOORTHERMOSTAT (OPTIONAL) HIGH VOLTAGE DEFROST RELAY AND THERMOSTAT IN 'OFF' POSITION. REVERSINGVALVE COIL FAN CAPACITOR HIGH PRESSURE CONTROL CRANKCASE HEATER INTERNAL OVERLOAD LOWPRESSURE CONTROL DEFROST THERMOSTAT COMPONENT CODE OUTDOORFAN MOTOR DEFROST CONTROL COMPRESSOR CONTACTOR CONNECT TOAPPROP. CONTROL CIRCUIT HAVING LIMITED CLASS 2 TRANSFORMER. INSTALLATION. USE C.S.A. CERTIFIED ENERGY TRAMSFORMER ORFOR CERTIFIED C.S.A MIN. 40 VA. 24 VOLT N.E.C. CALSS 2 WIRING CODE COPPERCONDUCTORS ONLY EQUIPMENT GROUND USE R LIGHT BLUE USE N.E.C. CLASS 2 WIRE G GREEN W O ORANGE WHITE V BR LTBL BL R Y VIOLET BROWN YELLOW BLUE RED COLOR CODE BK BLACK V R CM AUX MAIN IO BK BR V POWER SUPPLY (SEE RATING PLATE) USE COPPER CONDUCTORS ONLY FC BR DC BK CH BK COMP C BK R S RVC HVDR LDVR CH IO HP OT LP FC DFT Y BK BK COMP C CM LOW VOLTAGE HIGH VOLTAGE FACTORY WIRING T3 L3 R L1 C L2 T1 BL T2 BK R Y BK Y BR V Y HP 1) TOINDOOR UNIT LOW 2) SEE INDOOR UNIT & INDOOR THERMOSTAT. OF OPTIONAL OUTDOOR THERMOSTAT. INSTRUCTIONS FORCONNECTION OUTDOOR UNIT INSTALLATION VOLTAGE TERMINAL BLOCK & I NDOOR POWER SUPPLY NOTES: FIELD WIRING R ADJ. HEAT ANTICIPATOR THERMOSTAT BULB THERMOSTAT R COOL THERMOSTAT ANTICIPATOR B17783-00 07/97 REV. D 24V TRANSFORMER HEAT W COIL SYSTEM SWITCH THERMOSTAT OFF COOL COIL FAN RELAY COIL C CH THERMOSTAT FAN SWITCH H P 3 COMP 2 C T3 L3 C T2 L2 MOTOR AUTO ON G CONTACTOR 1 CAP C T1 L1 OUTDOOR POWER SUPPLY Y LINE SPLICE WIRE NUT C T1 L1 BL V V LOW VOLTAGE BK ANTICIPATOR THERMOSTAT BULB THERMOSTAT ADJ. HEAT THERMOSTAT ANTICIPATOR HIGH VOLTAGE LOWVOLTAGE OPTIONAL START ASSIST WIRE NUT REPLACEMENT WIRE MUST BE SAME GAGE AND INSULATION THICKNESS, 105°CAPPLIANCEWIRINGMATERIAL. NOTES: CRANKCASE HEATER IF USED WIRINGCODE BK WIRING FACTORY FIELD WIRING WIRINGFOR FACTORY OPTIONS G BR LTBL LIGHT BLUE GREEN BROWN R COLOR CODE PU Y BL R BK YELLOW PURPLE BLUE RED BLACK R B17784-01 W 24V INDOOR POWER SUPPLY 3/98 REV. A LOW VOLTAGE TRANSFORMER COOL OFF HEAT COOL THERMOSTAT SYSTEM SWITCH COIL FAN RELAY Y COIL C THERMOSTAT FAN SWITCH Y (START ASSIST START ASSIST OUTDOORCONTROL BOX COMPRESSOR/FAN R BR R R BK S C COMPRESSOR Y BK PU PU FAN MOTOR IF USED) Y CAPACITOR HERM F C T2 BK BK Y R PU PU L1 T1 TRANSFORMER OR FOR MIN. 40 VA 24 VOLT CONTROL CIRCUIT HAVING INSTALLATION. USEC.S.A. CERTIFIED ENERGYLIMITED CLASS 2 TRANSFORMER. CERTIFIED C.S.A. N.E.C. CLASS2 CONNECT TO APPROP. OUTDOORPOWER SUPPLY - (SEE UNIT RATING USECOPPER CONDUCTORS ONLY GROUNDED SUPPLY NEUTRAL OR EQUIPMENT GROUND USEL1 FOR IF USED L2 T2 PLATE) R Y R BR PU BK BK ALT. DOUBLE POLE CONTACTOR R R L1 T1 L2 T2 T O T A C O N L2 C T1 C CONTACTOR CAPACITOR AUTO ON G COIL COMPRESSOR INTERNAL OVERLOAD START ASSIST (IF USED) MOTOR S FAN MOTOR R OUTDOOR POWERSUPPLY CRANKCASE HEATER COMPRESSOR R (IF USED) T T O C A L1 O N C SINGLE PHASE THREE PHASE WIRING DIAGRAMS 171 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! Wiring Diagram - Line Voltage Control Circuit (Typical Wiring for use with Ductless Indoor Section) Circuit (Typical Wring For Use With Ductled Indoor Section - *Note: 24 Volt Contactor is Field Supplied. Wiring Diagram - Line Voltage Control WMH / HDP 172 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! WIRING DIAGRAMS THERMOSTAT WIRING Thermostat Anticipator Setting for optional heat kits 10 KW and below AIR HANDLER MODEL THERMOSTAT HEAT ANTICIPATOR SETTING AR18-61 .2 Low Voltage Wiring Diagram for Cooling Unit with optional heat kit 10 KW and below Thermostat Anticipator Setting for optional heat kits 15 KW and above THERMOSTAT HEAT ANTICIPATOR SETTING 2 STAGE T’STAT KW STAGES WHEN STAGING AIR HANDLER MODEL 1 STAGE T’STAT STAGE 1 STAGE 2 STAGE 1 STAGE 2 AR18-32 AR36-42 AR48-61 .4 .4 .4 .2 .2 .2 .2 .2 .2 7.3 KW 9.8 KW 9.8 KW 4.8 KW 5.0 KW 9.8 KW Low Voltage Wiring Diagram for Cooling Unit with optional heat kit 15 KW and above Important: If outdoor thermostat is not used, tie white and brown wires from Airhandler together AR18-61 WIRING DIAGRAMS 173 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! Low Voltage Wiring Diagram for Heat Pump Unit with optional heat kit 10 KW and below Low Voltage Wiring Diagram for Heat Pump Unit with optional heat kit 15 KW and above AR18-61 174 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! WIRING DIAGRAMS Low Voltage Wiring Diagram for Heat Pump Unit with optional heat kit 15 KW and above With Optional Outdoor Thermostats and Emergency Heat Relay THERMOSTATS Note: Second Stage heat can be accomplished by multi-stage heating thermostat or the addition of an outdoor thermostat as shown Goodman Cooling and Heating thermostat part number is CHT18-60. This thermostat is single stage cool and single stage heat. Goodman Heat Pump thermostat part number is HPT18-60. This thermostat is single stage cool, two stage heat, first stage is heat pump heating and second stage is optional electric heat. If additional features are desired, such as digital or programmable thermostat other thermostats are commercially available that are compatible to this product line. Follow the thermostat manufacturer’s instruction for installation. AR18-61 WIRING DIAGRAMS 175 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! Thermostat Wiring Use thermostat wiring diagram Figures 10 thru 13 and those provided with the thermostat when making these connections. NOTE: DO NOT USE THESE DIAGRAMS FOR AEPT MODELS. SEE SUPPLEMENTAL INSTALLATION AND OPERATING INSTRUCTIONS FOR AEPT MODELS. ROOM THERMOSTAT W Y G R #18 GA. 4 WIRES WITH COOLING 3 WIRES WITHOUT R G W Y TO CONDENSING UNIT 24V. CONNECTIONS #18 GA. 2 WIRES BLUE WHITE GREEN RED CONTACTOR COIL AR UNIT Figure 10 - Low Voltage Wiring Diagram for Cooling Unit with optional heat kit 10KW and below W2 W Y G R R G Y W GREEN RED WHITE BLUE BROWN #18 GA. 4 WIRE WITH COOLING 3 WIRE WITHOUT ROOM THERMOSTAT OUTDOOR THERMOSTAT (OPTIONAL) CONDENSING UNIT 24V. CONNECTIONS #18 GA. 2 WIRES #18 GA. 2 WIRES CONTACTOR COIL AR UNIT Figure 11 - Low Voltage Wiring Diagram for Cooling Unit with optional heat kit 15KW and above AR*F AIR HANDLER 176 TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! WIRING DIAGRAMS C W2 O Y R Y O C G R E W2 TYPICAL H/P ROOM THERMOSTAT HEAT PUMP AR/ARUF/ARPF/ARPT 18-60 10 KW & BELOW (OPTIONAL) OUTDOOR THERMOSTAT CLOSE ON TEMPERATURE FALL RED GREEN WHITE BLUE AR UNIT R Y O W BL #18 GA. 5 WIRE #18 GA. 7 WIRE SEE NOTE #3 R G BR W BL R E D Y E L L O W O R A N G E W H I T E B L U E #18 GA. 6 WIRE NEEDED WHEN OT IS USED O R A N G E Y E L L O W #18 GA. 7 WIRE NEEDED WHEN TWO OT'S ARE USED #18 GA. 5 WIRE BL O W Y BL SEE NOTE #3 W G BLUE WHITE GREEN TYPICAL H/P ROOM THERMOSTAT AR/ARUF/ARPF/ARPT 18-60 ABOVE 10 KW HEAT PUMP B L U E W H I T E C W2 R E D Y O R R Y C O W2 #18 GA. 7 WIRE R G E R AR UNIT RED OT-1 OT-2 3 EHR 1 2 4 BROWN SEE NOTE #2 NOTES: 1) OUTDOOR THERMOSTAT (OT-1) SHOULD BE THE FIRST TO CLOSE AND THE LAST TO OPEN. 2) CONNECT WHITE AND BROWN WIRES FROM AIR- HANDLER TOGETHER IF OT-2 IS NOT USED. 3) REMOVE WIRE WHEN USING OUTDOOR THERMOSTAT NOMENCLATURE OT ---OUTDOOR THERMOSTAT (OPTIONAL) EHR -EMERGENCY HEAT RELAY (OPTIONAL) COLOR CODES R --RED Y --YELLOW BL-BLUE BR-BROWN O --ORANGE W -WHITE G --GREEN (OPTIONAL) OUTDOOR THERMOSTAT CLOSE ON TEMPERATURE FALL BR R G BL W G R BL BR FIGURE 12 FIGURE 13 Important: If outdoor thermostat is not used, tie white and brown wires from Air Handler together AR / ARUF / ARPF / ARPT 18-60 177 INSTALLER These instructions must be used in conjunction with the latest version of IO-230, which is shipped with the unit. It is important to follow both of these instructions and those in the latest version of IO-230 when installing the AER and AEPT series of air handlers. THERMOSTAT CONNECTIONS The following composite wiring diagrams detail various con- figurations in which the AEPT air handlers can be used. Examples include single-stage cooling and heat pump with single or two-stage electric heating. All these configurations can be applied with convenient connections to outdoor thermostat applications. The following sections will be detailed: • Single-Stage Cooling (GMC Thermostat Part #CHT18-60 or equivalent.) • Heat Pump (GMC Thermostat Part #18-60 or equivalent) Each diagram details the connections between room ther- mostat and AEPT air handlers, and the connections be- tween the AEPT air handlers and the Condensing Unit (or Heat Pump) with optional connections to Outdoor Thermo- stats. For each configuration, refer to the explanation of the proper jumper(s) to remove for the corresponding blower speed that will result in the programmed ECM™ motor. IMPORTANT: When matching the AEPT or AER Air Handlers to a Single Stage Cooling Unit or Heat Pump, remember to connect the "Y/Y2" thermostat connection on the vari- able speed board (VSTB) to the thermostat. Connecting the "Y1" will result in first stage cooling blower speed and may cause the contactor to chatter. An equivalent thermostat can be used in place of the Goodman thermostat part number. The GMC thermostats that listed are mercury type thermostats. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. SINGLE STAGE COOLING WITH SINGLE OR TWO-STAGE HEATING COOLING ONLY - 2 STAGE HEAT THERMOSTAT NOTES: 1.) Y/Y2 ENABLES HI SPD FAN COOLING 2.) E/W1 ENABLES LO SPD FAN HEATING W/W2 ENABLES HI SPD FAN HEATING 3.) OT1 PJ4 MUST BE CUT FOR THIS CONFIGURATION OTC O R C E\W1 W/W2 Y1 OT1 OT2 YCON CONDENSER PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH CONFIGURATION. R D I P (CFM) O N O F F OUTDOOR W1 HUM OT2 OT1 W2 HEATPUMP COM O W2 ED S W I T C H HEATER W1 W2 24 VAC C R CONDENSING UNIT THERMOSTATS I F N E E D E D Y/Y2 G HUM Y1 HUMIDISTAT (OPTIONAL) HUMIDISTAT ROOM THERMOSTAT W2 C R G Y W1 2nd STAGE HEATER 1st STAGE HEATER SEE NOTE 5 4.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. 5.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. STAT OPENS ON HUMIDITY RISE. AER / AEPT 178 COOLING ONLY - 2 STAGE HEAT (1st ROOM T'STAT & 2nd OT) ROOM THERMOSTAT W C R G Y OT2 OT1 Y1 W/W2 E\W1 C R O OTC CONFIGURATION. DIP SWITCH FOR PROPER TO MANUAL PLEASE REFER CONDENSER YCON R D IP (CFM) O N O F F OUTDOOR W1 HUM OT2 OT1 W2 HEATPUMP COM O W2 ED S W I T C H HEATER W1 W2 24 VAC C R CONDENSING UNIT THERMOSTATS I F N E E D E D HUM G Y/Y2 Y1 SEE NOTE 5 HUMIDISTAT (OPTIONAL) HUMIDISTAT NOTES: 1.) Y/Y2 ENABLES HI SPD FAN COOLING 2.) E/W1 ENABLES LO SPD FAN HEATING E/W1 WITH OT CLOSED ENABLES HI SPD FAN HEATING 3.) OT1 PJ4 MUST BE CUT FOR THIS CONFIGURATION 4.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. 5.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. STAT OPENS ON HUMIDITY RISE. 2nd STAGE HEATER 1st STAGE HEATER OUTDOOR THERMOSTAT 1st STAGE ENABLED THRU ROOM T'STAT 2nd STAGE ENABLED THRU CLOSED OT AER / AEPT TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! COOLING ONLY - 2 STAGE HEAT (T'STAT ENABLED OT) NOTES: 1.) Y/Y2 ENABLES HI SPD FAN COOLING 2.) E/W1 ENABLES LO SPD FAN HEATING W/W2 WITH OT CLOSED ENABLES HI SPD FAN HEATING 3.) OT1 PJ4 MUST BE CUT FOR THIS CONFIGURATION OT2 PJ2 MUST BE CUT FOR THIS CONFIGURATION OT2 PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH CONFIGURATION. (CFM) HUM O N D I P O F F YCON CONDENSER R E\W1 CONDENSING UNIT OUTDOOR THERMOSTATS HEATPUMP W1 OT1 COM O W2 W2 ED W/W2 O OTC OT1 W1 W2 S W I T C H HEATER C R 24 VAC OT2 C R Y1 W1 I F N E E D E D THERMOSTAT ROOM W2 C R G 2nd STAGE HEATER 1st STAGE HEATER HUMIDISTAT (OPTIONAL) SEE NOTE 5 Y1 HUM HUMIDISTAT Y/Y2 G Y OUTDOOR THERMOSTAT 1st STAGE ENABLED THRU ROOM T'STAT 2nd STAGE ENABLED THRU ROOM T'STAT AND CLOSED OT2 4.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. 5.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. STAT OPENS ON HUMIDITY RISE. 179 HEATPUMP - WITH 1 STG EMHT 1 STG AUX HEAT NOTES: 1.) Y ENABLES HI SPD FAN COOLING 2.) E AND W2 ENABLE HI SPD FAN HEATING 3.) IF OT2 PJ2 JUMPER IS CUT E AND W2 ENABLE LO SPD FAN HEATING HUMIDISTAT (OPTIONAL) I F N E E D E D OT2 OT1 Y1 W/W2 E\W1 C R O OTC CONFIGURATION. DIP SWITCH FOR PROPER TO MANUAL PLEASE REFER CONDENSER YCON R D I P (CFM) O N O F F OUTDOOR W1 HUM OT2 OT1 W2 HEATPUMP COM O W2 ED S W I T C H HEATER W1 W2 24 VAC C R THERMOSTATS HUM G Y/Y2 Y1 HUMIDISTAT SEE NOTE 5 1st STAGE HEATER ROOM THERMOSTAT E C R G Y HEATPUMP R Y C O W2 HEATPUMP YCON CONDENSER R COM O W2 ED W2 O REMOVE PRODUCTION WIRE Y1 - O 4.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. 5.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. STAT OPENS ON HUMIDITY RISE. HEAT PUMP WITH SINGLE OR TWO-STAGE HEATING (OPTIONS FOR EMERGENCY HEAT) AER / AEPT TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! 1st STAGE HEATER REMOVE PRODUCTION WIRE Y1 - O Y ROOM I F N E E D E D THERMOSTATS THERMOSTAT W2 E O C R G SEE NOTE 5 HUMIDISTAT (OPTIONAL) HUMIDISTAT 2nd STAGE HEATER HEATPUMP - 2 STG EMHT 1 STG AUX HEAT NOTES: 1.) Y ENABLES HI SPD FAN COOLING 2.) E ENABLES LO SPD FAN HEATING W2 ENABLES HI SPD FAN HEATING 3.) OT1 PJ4 MUST BE CUT FOR THIS CONFIGURATION CONDENSER YCON R R HEATPUMP COM O ED W2 C HEATPUMP Y O W2 Y/Y2 G HUM OTC O R C E\W1 W/W2 Y1 OT1 OT2 Y1 D I P TO MANUAL FOR PROPER DIP SWITCH CONFIGURATION. (CFM) O N O F F HEATPUMP W1 PLEASE REFER HUM OT2 OT1 YCON CONDENSER R COM O W2 HEATER S W I T C H W2 W1 24 VAC C R W2 ED OUTDOOR 4.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. 5.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. STAT OPENS ON HUMIDITY RISE. 180 NOTES: 1.) Y ENABLES HI SPD FAN COOLING 2.) E ENABLES LO SPD FAN HEATING W2 ENABLES LO SPD FAN HEATING W2 AND OT2 CLOSED ENABLES HI SPD FAN HEATING 3.) 0T2 PJ2 MUST BE CUT FOR THIS CONFIGURATION YCON CONDENSER R R HEATPUMP COM O ED W2 HEATPUMP C Y O W2 OT2 PLEASE REFER CONFIGURATION. DIP SWITCH FOR PROPER TOMANUAL (CFM) HUM D I P O F F O N 2nd STAGE HEATER 1st STAGE HEATER Y Y1 W1 HEATPUMP OTC CONDENSER YCON R OT1 COM O E\W1 W/W2 O S W I T C H HEATER W2 W1 W2 W2 ED R C 24 VAC THERMOSTATS OUTDOOR OT1 OT2 C R Y1 I F N E E D E D THERMOSTAT ROOM W2 E O R C G SEE NOTE 5 REMOVE PRODUCTION WIRE Y1 - O HUMIDISTAT Y/Y2 G HUM HUMIDISTAT (OPTIONAL) 1st STAGE AUX HEAT ENABLED BY ROOM T'STAT 2ND STAGE AUX ENABLED BY ROOM T'STAT AND OUTDOOR T'STAT HEATPUMP - 2 STG EMHT 2 STG AUX - 1 OUTDOOR T'STAT OUTDOOR THERMOSTAT 4.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. 5.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. STAT OPENS ON HUMIDITY RISE. AER / AEPT TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! ROOM THERMOSTAT OT2 THERMOSTATS W1 HEATER OT1 O W/W2 E\W1 OTC NOTES: 1.) Y ENABLES HI SPD FAN COOLING 2.) E ENABLES LO SPD FAN HEATING W2 AND OT1 CLOSED ENABLES LO SPD FAN HEATING W2 AND OT2 CLOSED ENABLES HI SPD FAN HEATING 3.) OT1 PJ4 AND 0T2 PJ2 MUST BE CUT FOR THIS CONFIGURATION PLEASE REFER TOMANUAL FOR PROPER DIP SWITCH CONFIGURATION. (CFM) R OT1 HUM OT2 W2 W1 HEATPUMP COM CONDENSER YCON O ED W2 OUTDOOR O HEATPUMP HEATPUMP R CONDENSER YCON O COM R Y C OT2 W2 ED W2 O E W2 HUM G Y/Y2 Y1 R C REMOVE PRODUCTION WIRE Y1 - O D I P 1st STAGE HEATER 2nd STAGE HEATER O N O F F S W I T C H W2 24 VAC C R Y1 HUMIDISTAT I F N E E D E D G C R Y HUMIDISTAT (OPTIONAL) SEE NOTE 5 OT1 OT2 OUTDOOR OT1 OTC NO AUX HEAT IN HEATPUMP MODE UNTIL OUTDOOR T'STAT CLOSES HEATPUMP - 2 STG EMHT 2 STG AUX - 2 OUTDOOR T'STATS 4.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. 5.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. STAT OPENS ON HUMIDITY RISE. 181 Quality Makes the Difference! All of our systems are designed and manufactured with the same high quality standards regardless of size of efficiency. Our designs virtually eliminate the most frequent causes of product failure. They are simple to service and forgiving to operate. We use the highest quality materials and components available because if a part fails then the unit fails. Finally, every unit is run tested before it leaves the factory. That’s why we know... There’s No Better Quality. Visit our website at www.goodmanmfg.com for information on: • Goodman products • Warranties • Customer Services • Parts • Contractor Programs and Training • Financing Options ROOM THERMOSTAT OT2 THERMOSTATS W1 HEATER HEATPUMP - 2 STG EMHT 1 STG AUX - 1 OUTDOOR T'STAT OT1 O W/W2 E\W1 OTC NOTES: 1.) Y ENABLES HI SPD FAN COOLING 2.) E ENABLES LO SPD FAN HEATING W2 AND OT2 CLOSED ENABLES HI SPD FAN HEATING 3.) OT1 PJ4 AND 0T2 PJ2 MUST BE CUT FOR THIS CONFIGURATION PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH CONFIGURATION. (CFM) R OT1 HUM OT2 W2 W1 HEATPUMP COM CONDENSER YCON O ED W2 OUTDOOR O HEATPUMP HEATPUMP R CONDENSER YCON O COM R Y C THERMOSTAT W2 ED W2 O E W2 OUTDOOR HUM G Y/Y2 Y1 R C REMOVE PRODUCTION WIRE Y1 - O D I P 1st STAGE HEATER 2nd STAGE HEATER O N O F F S W I T C H W2 24 VAC C R Y1 HUMIDISTAT I F N E E D E D G C R Y HUMIDISTAT (OPTIONAL) SEE NOTE 5 NO AUX HEAT IN HEATPUMP MODE UNTIL OUTDOOR T'STAT CLOSES 4.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. 5.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. STAT OPENS ON HUMIDITY RISE. AER / AEPT TO AVOID POSSIBLE ELECTRICAL SHOCK, PERSONAL INJURY, OR DEATH, DISCONNECT THE POWER BEFORE SERVICING. WARNING ! INDEX IMPORTANT INFORMATION .......................................... 4 PRODUCT IDENTIFICATION .......................................... 6 HEAT PUMPS AND COOLERS ................................. 6 COILS ........................................................................ 9 AIR HANDLERS ...................................................... 10 ACCESSORIES ....................................................... 13 PRODUCT SPECIFICATIONS ....................................... 17 CKL ......................................................................... 20 CKL090-120 ............................................................. 27 CLJ .......................................................................... 30 CLT .......................................................................... 37 CRT ......................................................................... 41 TWC ........................................................................ 46 HDC ......................................................................... 48 CPLE ....................................................................... 49 CPLE090-120 .......................................................... 55 CPLJ ........................................................................ 58 CPRT ....................................................................... 62 CPLT ........................................................................ 67 HDP ......................................................................... 70 UC ........................................................................... 71 H .............................................................................. 74 HT ............................................................................ 75 CAUF ....................................................................... 77 CAPF ....................................................................... 78 CHPF ....................................................................... 79 A18-61 ..................................................................... 83 AR ........................................................................... 86 AR COMMERCIAL SERIES ..................................... 88 AH ........................................................................... 91 AC ........................................................................... 93 ACHP ...................................................................... 96 AWB ........................................................................ 97 ARUF ..................................................................... 100 ARPF ..................................................................... 103 ARPT ..................................................................... 105 AER ....................................................................... 107 AEPT ..................................................................... 111 WMC ..................................................................... 117 WMH ..................................................................... 119 LOCATION AND CLEARANCES ................................... 39 PRODUCT DESIGN ....................................................... 67 SYSTEM OPERATION .................................................. 72 COOLING ................................................................. 72 COOLING CYCLE .................................................... 72 HEATING CYCLE .................................................... 72 DEFROST CYCLE ................................................... 73 FAN OPERATION .................................................... 73 OPERATING INSTRUCTIONS .................................. 74 SCHEDULED MAINTENANCE ..................................... 134 ONCE A MONTH ................................................... 134 ONCE A YEAR ...................................................... 131 TEST EQUIPMENT ................................................ 131 COOLING & HEATING PERFORMANCE TEST ..... 131 SERVICING ................................................................. 132 COOLING /HEAT PUMP- SERVICE ANALYSIS GUIDE .. 132 S-1 S-2 S-3 Checking Voltage ............................................. 134 Checking Wiring ............................................... 134 Checking Thermostat, Wiring & Anticipator ...... 135 S-3A Thermostat & Wiring ......................................... 135 S-3B Cooling Anticipator ........................................... 135 S-3C Heating Anticipator ........................................... 135 S-3D Checking Encoded Thermostats ....................... 136 S-4 S-5 S-6 S-7 S-8 S-9 S-12 S-13 S-15 Checking Transformer & Control Circuit ........... 137 Checking Cycle Protector ................................. 137 Checking Time Delay Relay ............................. 137 Checking Contactor and/or Relays ................... 138 Checking Contactor Contacts ........................... 138 Checking Fan Relay Contact ............................ 138 Checking High Pressure Control ....................... 139 Checking Low Pressure Control ........................ 139 Checking Capacitor .......................................... 139 S-15A Resistance Check ............................................ 140 S-15B Capacitance Check .......................................... 140 S-16A Checking Fan & Blower Motor Windings (PSC Motors) ................................... 141 S-16B Checking Fan & Blower Motor (ECM Motors) ... 141 S-16C Checking ECM Motor Windings ........................ 144 S-16D ECM CFM Adjustments ................................... 144 S-17 Checking Compressor Windings ....................... 145 S-17A Resistance Test ............................................... 145 S-17B Ground Test ...................................................... 146 S-17D Operation Test .................................................. 146 S-18 Testing Crankcase Heater (optional item) ......... 147 2 INDEX (Cont.) S-21 S-24 S-25 S-26 S-27 S-40 S-41 S-60 Checking Reversing Valve Solenoid .................. 147 Testing Defrost Timer Board ............................. 147 Testing Defrost Control ..................................... 148 Checking Heater Limit Control(s) ...................... 148 Checking Heater Elements ............................... 148 A, AR*F Electronic Blower Time Delay ............. 148 AER, AEPT with Single Speed Air Conditioning and Heat Pump ....................... 150 Electric Heater (optional item) .......................... 151 S-61A Checking Heater Limit Control(S) ..................... 152 S-61B Checking Heater Fuse Line .............................. 152 S-62 Checking Heater Elements ............................... 152 S-100 Refrigeration Repair Practice ............................ 152 S-101 Leak Testing ..................................................... 153 S-102 Evacuation ........................................................ 153 S-103 Charging ........................................................... 154 S-104 Checking Compressor Efficiency ...................... 155 S-105BThermostatic Expansion Valve ............................. 155 S-106 Overfeeding ....................................................... 155 S-107 Underfeeding ..................................................... 155 S-108 Superheat ......................................................... 156 S-109 Checking Subcooling ........................................ 157 S-110 Checking Expansion Valve Operation ............... 157 S-111 Fixed Orifice Restriction Devices ...................... 158 S-112 Checking Restricted Liquid Line ....................... 158 S-113 Refrigerant Overcharge ...................................... 158 S-114 Non-condensables ............................................ 158 S-115 Compressor Burnout ......................................... 159 S-120 Refrigerant Piping ............................................. 159 S-122 Replacing Reversing Valve ................................ 161 S-202 Duct Static Pressure & Static Pressure Drop Across Coils ................ 162 S-203 Air Handler External Static ............................... 162 S-204 Coil Static Pressure Drop ................................. 162 WIRING DIAGRAMS ................................................... 163 AFE 18-60/18-60A ............................................ 163 CKL90-120 ....................................................... 167 CPLE, CPLJ, CRPT, CPLT ............................... 168 CPLE90-120 ..................................................... 169 CLQ, CLJ, CKL, CRT, CLT ................................ 170 WMH, HDP ....................................................... 171 AR18-61 ........................................................... 172 AR*F AIR HANDLER ........................................ 175 AR, ARUF, ARPF, ARPT18-60 ......................... 176 AER, AEPT ...................................................... 177 WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. 3 Serious property damage.S. Products should be serviced only by a qualified service technician who is familiar with the safety procedures required in the repair and who is equipped with the proper tools. For further assistance. If you install or perform service on this unit. that during its lifetime a product may require service. contact your local EPA office. please consult your telephone book or the dealer from whom you purchased this product. Many jurisdictions require a license to install or service heating and air conditioning equipment. WARNING ONLY individuals meeting the requirements of an “Entry Level Technician” as specified by the Air Conditioning and Refrigeration Institute (ARI) may use this information. product damage. 4 . personal injury or death. TOLL FREE 1-877-254-4729 (U.. testing instruments and the appropriate service manual. It is possible. Failure to follow these regulations may harm the environment and can lead to the imposition of substantial fines. A certified technician must perform the installation and service of this product. WARNING Do not connect to or use any device that is not design certified by Goodman for use with this unit. or death.P. please contact: CONSUMER INFORMATION LINE GOODMAN MANUFACTURING COMPANY. WARNING To prevent the risk of property damage. reduced unit performance and/or hazardous conditions may result from the use of such non-approved devices. however.) Outside the U. call 1-713-861-2500. personal injury. WORDS AND LABELS WARNING Hazards or unsafe practices which could result in property damage.) Your telephone company will bill you for the call. WARNING The United States Environmental Protection Agency ("EPA") has issued various regulations regarding the introduction and disposal of refrigerants introduced into this unit. WARNING Goodman will not be responsible for any injury or property damage arising from improper service or service procedures. do not store combustible materials or use gasoline or other flammable liquids or vapors in the vicinity of this appliance. These regulations may vary by jurisdiction. only) email us at: customerservice@goodmanmfg. (Not a technical assistance line for dealers. To locate an authorized servicer.S. Attempting to install or repair this unit without such background may result in product damage. personal injury. or death. Violations of EPA regulations may result in fines or penalties. parts. L. IMPORTANT NOTICES FOR CONSUMERS AND SERVICERS RECOGNIZE SAFETY SYMBOLS. personal injury. you assume responsibility for any personal injury or property damage which may result. REVIEW ALL SERVICE INFORMATION IN THE APPROPRIATE SERVICE MANUAL BEFORE BEGINNING REPAIRS.com fax us at: (731) 856-1821 (Not a technical assistance line for dealers.IMPORTANT INFORMATION Pride and workmanship go into every product to provide our customers with quality products. Should questions arise. IMPORTANT INFORMATION SAFE REFRIGERANT HANDLING While these items will not cover every conceivable situation, they should serve as a useful guide. WARNING Refrigerants are heavier than air. They can "push out" the oxygen in your lungs or in any enclosed space.To avoid possible difficulty in breathing or death: • Never purge refrigerant into an enclosed room or space. By law, all refrigerants must be reclaimed. • If an indoor leak is suspected, thoroughly ventilate the area before beginning work. • Liquid refrigerant can be very cold. To avoid possible frostbite or blindness, avoid contact with refrigerant and wear gloves and goggles. If liquid refrigerant does contact your skin or eyes, seek medical help immediately. • Always follow EPA regulations. Never burn refrigerant, as poisonous gas will be produced. WARNING To avoid possible explosion: • Never apply flame or steam to a refrigerant cylinder. If you must heat a cylinder for faster charging, partially immerse it in warm water. • Never fill a cylinder more than 80% full of liquid refrigerant. • Never add anything other than R-22 to an R-22 cylinder or R-410A to an R-410A cylinder. The service equipment used must be listed or certified for the type of refrigerant used. • Store cylinders in a cool, dry place. Never use a cylinder as a platform or a roller. WARNING To avoid possible injury, explosion or death, practice safe handling of refrigerants. WARNING To avoid possible explosion, use only returnable (not disposable) service cylinders when removing refrigerant from a system. • Ensure the cylinder is free of damage which could lead to a leak or explosion. • Ensure the hydrostatic test date does not exceed 5 years. • Ensure the pressure rating meets or exceeds 400 lbs. When in doubt, do not use cylinder. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Failure to do so may cause property damage, personal injury or death. WARNING System contaminants, improper service procedure and/or physical abuse affecting hermetic compressor electrical terminals may cause dangerous system venting. The successful development of hermetically sealed refrigeration compressors has completely sealed the compressor's moving parts and electric motor inside a common housing, minimizing refrigerant leaks and the hazards sometimes associated with moving belts, pulleys or couplings. Fundamental to the design of hermetic compressors is a method whereby electrical current is transmitted to the compressor motor through terminal conductors which pass through the compressor housing wall. These terminals are sealed in a dielectric material which insulates them from the housing and maintains the pressure tight integrity of the hermetic compressor. The terminals and their dielectric embedment are strongly constructed, but are vulnerable to careless compressor installation or maintenance procedures and equally vulnerable to internal electrical short circuits caused by excessive system contaminants. In either of these instances, an electrical short between the terminal and the compressor housing may result in the loss of integrity between the terminal and its dielectric embedment. This loss may cause the terminals to be expelled, thereby venting the vaporous and liquid contents of the compressor housing and system. A venting compressor terminal normally presents no danger to anyone, providing the terminal protective cover is properly in place. If, however, the terminal protective cover is not properly in place, a venting terminal may discharge a combination of (a) hot lubricating oil and refrigerant (b) flammable mixture (if system is contaminated with air) in a stream of spray which may be dangerous to anyone in the vicinity. Death or serious bodily injury could occur. Under no circumstances is a hermetic compressor to be electrically energized and/or operated without having the terminal protective cover properly in place. See Service Section S-17 for proper servicing. 5 PRODUCT IDENTIFICATION CONDENSING UNITS CLT 24 1 CLQ 24 1 1 PHASE 1 PHASE 24,000 BTUH CONDENSING LOUVERED 13 SEER HDC 12 1 24,000 BTUH CONDENSING LOUVERED 14 SEER TWC 18 1 1 PHASE 1 PHASE 12,000 BTUH HORIZONTAL DISHCARGE CONDENSER 18,000 BTUH THROUGH WALL CONDENSER CKL 18 1 CLJ 18 1 1 PHASE 1 PHASE 18,000 BTUH CONDENSING SERIES LOUVERED 10 SEER 18,000 BTUH CRT 24 CONDENSING LOUVERED 12 SEER 24,000 BTUH CONDENSING SERIES T 13 SEER 6 PRODUCT IDENTIFICATION HEAT PUMPS CPLE 18 1 CPLJ 18 1 1 PHASE 1 PHASE 18,000 BTUH 18,000 BTUH CONDENSING PUMP LOVERED EFFICIENCY 10 SEER CONDENSING PUMP LOVERED EFFICIENCY J 12 SEER CPRT 24 X CPLT 36 1 1 PHASE REVISION 36,000 BTUH 24,000 BTUH CONDENSING PUMP LOVERED EFFICIENCY J 12 SEER CONDENSING HEAT PUMP REMOTE STYLE - T 13 SEER HDP 12 12,000 BTUH HORIZONTAL DISHCARGE HEAT PUMP 7 5 to 5 Ton 12 SEER Heat Pump Units 2 to 5 Ton 13 SEER Heat Pump Units 2 to 5 Ton 13 SEER Heat Pump Units Horizontal Discharge Heat Pump 1 thru 2 Ton COILS Model UC-18-62 U-18-62 CAUF018-061 CAPF018-060 CAUX018-061 CAPX018-061 CHPF024-060 CHPX024-060 CACF018-061 H-24F-61F HT-18-61 Uncased Upflow Coil Cased Upflow Coil A Coil Upflow/Downflow Flowrator A Coil Upflow/Downflow Painted Cased Flowrator A Coil Upflow/Downflow w/ TXV A Coil Upflow/Downflow Painted Cased w/ TXV Horizontal A Coil Painted Cased w/ Flowrator Horizontal A Coil Painted Cased w/ TXV Cased Upflow/Downflow Coil Horizontal Evaporator Coil Horizontal "Butt-up" Evaporator Coil Description 8 .5 to 5 Ton 12 SEER Condensing Units 2 to 5 Ton 13 SEER Condensing Units 2 to 5 Ton 13 SEER Condensing Units 2 to 5 Ton 14 SEER Condensing Units 2 to 5 Ton 10 SEER Condensing Units Horizontal Discharge Air Cond.5 to 5 Ton 10 SEER Heat Pump Units 1. 1 thru 2 Ton HEAT PUMPS Model CPLE18-120 CPLJ18-60 CPRT24-60 CPLT24-60 HDP12-24-1A Descripton 1.5 to 10 Ton 10 SEER Condensing Units 1.PRODUCT IDENTIFICATION CONDENSING UNITS Model CKL18-120 CLJ18-64 CRT24-60 CLT24-60 CLQ24-60 TWC18-30 HDC12-24-1A Description 1. 000 BTUH 18.000 24.000 61.000 48.000 BTUH HORIZONTAL EVAPORATOR COILS HORIZONTAL "BUTT-UP" EVAPORATOR COIL 9 .000 30.PRODUCT IDENTIFICATION COILS CA Prefix A: Air Handler U F 018 A 2 A Revision A: First Version B: Second Revision C: Painted Cased Coils are Painted in Architectural Gray Cabinet Finish P: Painted U: Unpainted Refrigerant Nominal BTUH Expansion Device F: Flowrator T: TXV (Expansion Device 018: 024: 025: 030: 032: 036: 037: 048: 049: 060: 061: 062: 18.000 37.000 32.000 UC 18 2: R-22 Cabinet Description CA Models (Cabinet Height) A: 14" B: 17½" C 21" D: 24½" Cabinet Description CH Models (Cabinet Height) U 18 A: 14" B: 17½" D: 24½" 18.000 62.000 BTUH CASED UPFLOW COILS UNCASED UPFLOW COILS H 24 HT 24 24.000 36.000 49.000 25.000 60.000 BTUH 24. 000 BTUH 24. Power supply is AC 208-230v. 1 phase. 60 hz.49.36.18.48.60.000 BTUH 36.42.24.PRODUCT IDENTIFICATION AIR HANDLERS A Product Type A: Air Handler Motor * * * 024 -00 A -1 A Revision* E: ECM Motor R: PSC Motor Cabinet Finish P: Painted U: Unpainted Expansion Device F: Flowrator T: TXV (Expansion Device Nominal Capacity 018: 024: 030: 032: 036: 042: 048: 049: 060: 061: 1½ Tons 2 Tons 2½ Tons 2½ Tons 3 Tons 3½ Tons 4 Tons 4 Tons 5 Tons 5 Tons Feature Electrical Supply 1: 208-230V/60Hz/1ph A: First Series B: Downflow C: Factory-sealed Series Factory-Installed Electric Heat 00: None 05: 5 KW et al *All revisions A or higher are Architectural Gray AR 60 18.000 BTUH 48.000 BTUH 60. 10 .61. 32.30.000 BTUH 30.000 BTUH AR-AIRHANDLER WITH COIL (2nd Generation) All Airhandlers use DIRECT DRIVE MOTORS.000 BTUH 42. 000 BTUH 30 .60.48.48.PRODUCT IDENTIFICATION AIR HANDLERS A 24 00 2 RA SECOND GENERATION 50 HTZ MODEL W/OPTION FOR HEATER KIT * 24 .36.000 BTUH AIR HANDLER WALL MOUNT B REVISION CIRCUIT BREAKER KW OF HEAT 24.0 KW) 60 .24. Power supply is AC 208-230v.000 BTUH (14. 11 .000 BTUH (17.5 KW) 48 .60.36.000 BTUH (7.000 BTUH 48 .000 BTUH 60 .000 BTUH AIR HANDLER CEILING MOUNT All Airhandlers use DIRECT DRIVE MOTORS.000 BTUH (10.30.000 BTUH AER-AIRHANDLER WITH COIL (2nd Generation) AWB 24 08 C AC 24 05 D CIRCUIT BREAKER KW OF HEAT 24.0 KW) 36 .24. 1 phase.000 BTUH 36 . 60 hz.6 KW) Air Handler w/Coil AER 60 24 . Air Handler w/ TXV Ductless Air Conditioning Indoor Section 1 thru 2 Ton Ductless Heat Pump Indoor Section 1 thru 2 Ton 12 . Cooling & Heat Pump Air Handler Vertical Wall Mount Air Handler Multi-Position Variable Spd Air Handler Hydronic Heat Air Handler Hydronic Heat Air Handler AC Electric Heat Air Handler Vertical Wall Mount Air Handler Multi-Position Electric Heat Air Handler w/ Flowrator Multi-Position Painted Electric Heat Air Handler w/ TXV Multi-Position Painted Electric Heat Air Handler w/ Flowrator Multi-Position Painted Variable Spd.PRODUCT IDENTIFICATION AIR HANDLERS Model AR18-120 AW 18-30 AER24-60 ACHP18-36 AH18-36 AC18-36 AWB18-36 ARUF018-061 ARPT024-060 ARPF024-060 AEPT030-060 WMC12-24-1A WMH12-24-1A Description Elec. for AC Air Handlers Anti-Short Cycle Control Kit Description COIL ACCESSORIES Model TX3N2 TX5N2 DFK DFKT Description TXV Kit 1. & Heat Pump TXV Kit 3. for AC Air Handlers Freeze Protection Kit.5 to 5 Ton Air Cond.CAPF CHPF CAUF.CAPF CHPF U.ACCESSORIES SPLIT SYSTEM AIR CONDITIONING ACCESSORIES Model LA-01 HLPK-01 LPS-01 FP-01 ASC01A Low Ambient Kit High and Low Pressure Switch Kit Low Pressure Kit Freeze Protection Kit for AC Air Handlers & Coils Anti-Short Cycle Control Kit Description SPLIT SYSTEM HEAT PUMP ACCESSORIES Model AFE-18 OT18-60 EH18-60 HPSK-01 FP-01 ASC01A All Fuel Kit Outdoor Thermostat Kit Emergency Heat Relay Kit Heat Pump Shut Off.UC coils U-UC Coils COIL INSULATION KIT FOR DOWNFLOW APPLICATIONS Chassis Size Small Medium Large Insulation Kit DPI18-30/20 DPI36-42/20 DPI48-60/20 NOTE: Each kit contains enough material to modify 20 coils.5 to 3 Ton Air Cond. 13 . & Heat Pump Downflow Kits Downflow Kits Used With These Units CAUF. ARUF AEPT. ARUF AR.ACCESSORIES AIR HANDLER ACCESSORIES Model WCK-01 FIL18-32 FIL36-42 FIL48-61 CAP-1 CAP-2 CAP-3 CAP-1L CAP-2L CAP-3L WAD-1 WAD-2 XV18-36C XV42-60C XVB18-36C XVB42-60C TX3N2 TX5N2 DPI18-30/20 DPI36-42/20 DPI48-60/20 FP-01 Description Water Circulator Timer Kit Washable Air Filter Washable Air Filter Washable Air Filter Ceiling Access Panels Ceiling Access Panels Ceiling Access Panels Ceiling Access Panels Ceiling Access Panels Ceiling Access Panels Wall Access Door Wall Access Door Expansion Valve Kit.ACHP AC.AEPT. Medium Chassis { Downflow} Coil Insulation Kit.ARPF.AER.ARUF AEPT.ARPT. & Heat Pump Coil Insulation Kit.ARPT.ACHP AH.ARPT. Non-bleed Expansion Valve Kit.ARPF.AWB AH. ARUF AR.ACHP AC. Large Chassis { Downflow} Freeze Protection Kit Used With These Units AH.ARUF All Models.AWB APRF/ARUF18-36 ARPF/ARUF42-60 ARPF/ARUF18-36 ARPF/ARUF42-60 ARPF/ARUF18-36 AAPF/ARUF42-60 AEPT.ACHP AC.ARPT. 20% bleed Expansion Valve Kit. Small Chassis { Downflow} Coil Insulation Kit.5 to 5 Ton Air Cond. ACHP AR. ARUF AC. 20% bleed TXV Kit 1. & Heat Pump TXV Kit 3. OT/EHR18-60 OUTDOOR THERMOSTAT & EMERGENCY HEAT RELAY OT18-60 Thermostat Dial 315º DEAD DIAL COLD WARM 45º (Turn Clockwise) (Turn Counterclockwise) Set Point Adjustment Screw Set Point Indicator Mark (Shown @ Oº F) 14 .AER.AER.ACHP AC.5 to 3 Ton Air Cond.AEPT.ARPT.ACHP AC.ARPF.AEPT. Non-bleed Expansion Valve Kit.ARPT. ACCESSORIES EXPANSION VALVE KITS For Applications requiring 1/4 FLARE CONNECTION BULB TO BE LOCATED AT 10 OR 2 O'CLOCK a field installed access fitting SUCTION LINE EVAPORATOR COIL BULB SEAL SUPPLIED W/ KIT SEAL SUPPLIED W/ KIT EXPANSION VALVE PISTON DISTRIBUTOR BODY SEAL TAILPIECE REMOVE BEFORE INSTALLING EXPANSION VALVE 3/8"SWEAT 7/8" NUT 1/4' FLARE CONNECTION For Applications not requiring a field installed access fitting BULB TO BE LOCATED AT 10 OR 2 O'CLOCK BULB SUCTION LINE PISTON EXPANSION VALVE EVAPORATOR COIL TAILPIECE DISTRIBUTOR BODY SEAL 3/8"SWEAT SEAL SUPPLIED W/ KIT REMOVE BEFORE INSTALLING EXPANSION VALVE SEAL SUPPLIED W/ KIT 7/8" NUT EXPANSION VALVE KITS FOR AIR CONDITIONING-ONLY APPLICATIONS Kit Number XVB18-36C XVB42-60C XV18-36C XV42-60C Use With ARUF018 to ARUF036 ARUF042 to ARUF060 ARUF018 to ARUF 036 ARUF042 to ARUF061 Description 20% Bleed Valve 20% Bleed Valve Non-Bleed Valve Non-Bleed Valve 15 . 088 .059 .082 .082 .062 .082 .059 .093 .055 .055 .068 .057 .059 . (1) PISTON SUPPLIED WITH THE OUTDOOR UNIT.078 .065 . (2) B1789873 (1) B1789873 (1) B1789873 (1) (2) (2) B1789878 (1) B1789878 (1) B1789878 (1) B1789878 (1) B1789878 (1) (2) (2) B1789882 (1) B1789882 (1) B1789882 (1) B1789882 (1) (2) B1789893 (1) B1789893 (1) B1789893 (1) B1789893 (1) B1789893 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) (2) B1789865 (1) B1789865 (1) B1789865 (1) B1789865 (1) B1789865 (1) B1789874 (1) B1789874 (1) B1789874 (1) B1789874 (1) (2) (2) B1789878 (3) B1789878 (3) B1789880 (1) B1789880 (1) (2) (2) (2) B1789882 (1) B1789882 (1) B1789882 (1) (2) B1789888 (1) B1789888 (1) B1789888 (1) B1789888 (1) B1789859 (1) B1789859 (1) B1789859 (1) B1789859 (1) B1789859 (1) B1789859 (1) B1789859 (1) B1789865 (1) B1789865 (1) B1789865 (1) B1789865 (1) B1789865 (1) B1789865 (1) B1789865 (1) B1789873(1) B1789873(1) B1789873(1) B1789873(1) B1789873(1) B1789880 (1) B1789880 (1) B1789880 (1) B1789880 (1) B1789880 (1) (2) B1789882 (1) B1789882 (1) B1789882 (1) (2) (2) (2) (2) (2) 16 .078 .082 .055 .074 .073 .093 .073 . (5) PISTON PROVIDED IN THE OUTDOOR UNIT LIQUID LINE SERVICE VALVE.090 .082 .057 .088 .057 .065 .065 .074 .093 .078 .080 .080 .055 .078 .074 .082 .055 .059 .071 .055 .068 .065 .074 .057 .065 .093 .082 .078 .071 .082 .093 .055 .055 .065 .082 .065 .073 .088 .065 .082 .080 . (2) B1789852 (3) B1789852 (3) B1789855 (3) B1789855 (3) B1789855 (3) (2) B1789855 (3) (2) (2) B1789859 (3) B1789862 (3) B1789862 (3) B1789862 (3) (2) (3) (4) (2) B1789865 (3) B1789865 (3) B1789865 (3) B1789868 (3) B1789868 (3) (2) B1789868 (3) (2) (2) B1789873 (3) B1789873 (3) (2) (2) B1789878 (3) B1789878 (3) B1789878 (3) B1789878 (3) (2) (2) (2) (2) B1789882 (1) B1789882 (1) B1789882 (1) (2) (2) (2) (2) B1789893 (1) B1789893 (1) B1789893 (1) B1789893 (1) B1789893 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) B1789852 (3) B1789855 (1) B1789857 (1) B1789857 (1) B1789857 (1) B1789857 (1) B1789857 (1) B1789857 (1) B1789857 (1) (2) B1789865 (1) B1789865 (1) B1789865 (1) B1789865 (1) B1789865 (1) OUTDOOR UNIT CLJ36-1* INDOOR UNIT BTU's CLJ42-1* CLJ48-1* CLJ60-1* CLT24-1*/CRT24-1* CLT30-1*/CRT30-1* CLT36-1*/CRT36-1* CLT42-1*/CRT42-1* CLT48-1*/CRT48-1* CLT60-1*/CRT60-1* CLQ24-1* CLQ30-1* (*) SIGNIFIES UNIT REVISION.059 .082 .078 .093 .052 .065 .082 .080 .068 .074 .052 .082 .065 .055 .078 .052 .052 .065 .082 .055 .073 .073 .093 .073 .065 .055 .062 .082 .090 .059 .078 .093 .090 PISTON KIT PART NO.073 .073 .055 .090 .065 .055 .065 .073 .062 .082 .055 .055 .065 .065 .074 .080 .078 .082 .082 .065 .082 .082 .090 .082 . (3) PURCHASE PISTON KIT FROM DISTRIBUTOR.071 .065 .049 .055 .093 .055 .082 .080 .055 .082 .080 .062 .065 .090 .074 .078 .055 .055 .093 .078 .057 .068 .073 .059 .090 .090 .065 .078 .078 . (4) B1789865 PISTON PROVIDED IN THE INDOOR UNIT.ACCESSORIES PISTON KIT CHART OUTDOOR UNIT CKL18-1* INDOOR UNIT BTU's 18000 24000 29000 31000 32000 36000 AH18 AE(R)24 24000 29000 30000 31000 32000 36000 AE(R)24 24000 29000 30000 31000 32000 36000 42000 49000 AE(R)30 AE(R)36 35000 36000 42000 49000 AE(R)36 42000 47000 48000 49000 60000 AE(R)48 47000 48000 49000 59000 60000 61000 60000 61000 62000 AE(R)60 59000 60000 61000 62000 AE(R)60 18000 24000 29000 30000 31000 32000 36000 AH18 AE(R)24 24000 29000 30000 31000 32000 36000 AE(R)24 30000 31000 32000 36000 AE(R)30 AE(R)36 CKL24-1* CKL30-1* CKL36-1* CKL42-1* CKL49-1*/3* CKL60-1*/3* CKL62-1* CLJ18-1* CLJ24-1* CLJ30-1* INDOOR PISTON SIZE .065 .059 .088 .065 .059 .082 .078 .065 .059 . (2) PISTON SUPPLIED WITH THE INDOOR UNIT.057 .082 .065 PISTON KIT PART NO.057 .065 .082 . CLQ36-1* CLQ42-1* CLQ48-1* CLQ60-1* 36000 42000 47000 49000 AE(R)36 42000 48000 49000 59000 60000 AE(R)48 48000 49000 59000 60000 61000 62000 AE(R)48 59000 60000 61000 62000 AE(R)60 24000 29000 31000 32000 36000 42000 49000 AE(R)24 30000 32000 36000 42000 49000 AE(R)36 47000 48000 49000 60000 AE(R)36 42000 48000 49000 61000 62000 AE(R)48 48000 49000 60000 61000 62000 AE(R)48 60000 61000 62000 AE(R)60 31000 32000 36000 42000 47000 49000 AE(R)24 31000 32000 36000 60000 61000 62000 AE(R)36 49000 60000 61000 62000 AE(R)36 49000 60000 61000 62000 AE(R)48 49000 60000 61000 62000 AE(R)48 60000 61000 62000 AE(R)60 INDOOR PISTON SIZE . ACCESSORIES OUTDOOR UNIT CPLE18-1* INDOOR UNIT BTU's 18000 24000 29000 36000 24000 29000 30000 31000 32000 36000 29000 30000 31000 32000 36000 48000 35000 36000 42000 47000 48000 49000 42000 47000 48000 49000 47000 49000 59000 60000 61000 62000 61000 18000 24000 32000 36000 AE(R)24 24000 30000 31000 32000 36000 42000 AE(R)24 30000 32000 36000 42000 AE(R)30 AE(R)36 36000 42000 49000 AE(R)36 42000 49000 60000 61000 AE(R)48 INDOOR PISTON SIZE .059 .065 .059 .078 .089 .059 .068 .078 .055 .082 .068 .045 .052 .078 .055 .059 .078 PISTON KIT PART NO.059 .045 .052 .071 .078 .052 .074 .089 .073 .078 .078 .084 .078 .082 .068 .076 .068 .092 PISTON KIT PART NO.059 .062 (2) (2) B1789859 (3) B1789862 (1) WARNING It is essential that indoor and outdoor units be properly matched.071 .071 .052 .073 .092 .082 .052 . (3) PURCHASE PISTON KIT FROM DISTRIBUTOR.045 .074 .062 . (5) PISTON PROVIDED IN THE OUTDOOR UNIT LIQUID LINE SERVICE VALVE.084 .068 .073 .089 .084 .068 .084 .052 .076 .045 . property damage and/or personal injury.052 .067 .090 .067 .073 .082 .068 . 17 . (2) B1789852 (3) B1789852 (3) B1789852 (3) (2) (2) B1789859 (3) B1789859 (3) B1789859 (3) B1789859 (3) B1789865 (3) (2) (2) (2) B1789868 (3) B1789868 (3) B1789873 (1) B1789873 (1) B1789873 (1) B1789873 (1) B1789873 (1) B1789873 (1) (2) B1789878 (3) B1789878 (3) B1789878 (3) (2) (2) B1789882 (3) B1789882 (3) B1789882 (3) B1789882 (3) B1789892 (1) (2) B1789855 (1) B1789855 (1) B1789855 (1) B1789855 (1) (2) B1789859 (1) B1789859 (1) B1789859 (1) B1789859 (1) B1789859 (1) B1789859 (1) (2) (2) B1789868 (1) B1789868 (1) (2) B1789868 (1) (2) B1789874 (1) B1789874 (1) (2) (2) B1789878 (1) B1789878 (1) B1789878 (1) B1789878 (1) OUTDOOR UNIT CPLJ48-1* INDOOR UNIT BTU's 48000 49000 60000 61000 AE(R)48 60000 61000 62000 AE(R)60 32000 36000 42000 AE(R)24 32000 36000 42000 AE(R)30 AE(R)36 48000 49000 60000 AE(R)36 49000 60000 61000 AE(R)48 61000 AE(R)48 61000 AE(R)60 CPLE24-1* CPLJ60-1* CPLE30-1* CPLT24-1*/CPRT24-1* CPLT30-1*/CPRT30-1* CPLE36-1* CPLT36-1*/CPRT36-1* CPLE42-1* CPLT42-1*/CPRT42-1* CPLE48-1* CPLT48-1*/CPRT48-1* CPLT60-1*/CPRT60-1* CPLE60-1*/3* CPLJ18-1* INDOOR PISTON SIZE .068 .078 . (2) PISTON SUPPLIED WITH THE INDOOR UNIT. THROUGH THE WALL UNITS TWC18-1* TWC24-1* TWCR30-1* 18000 24000 30000 36000 .073 .055 .055 .065 .090 .055 (5) (5) (5) (5) (5) (5) (5) (5) (5) (5) (2) (2) (2) (2) (2) (2) (2) (2) B1789867 (3) B1789867 (3) B1789873 (3) (2) (2) (2) B1789892 (3) CPLJ24-1* CPLJ30-1* CPLJ36-1* CPLJ42-1* (*) SIGNIFIES UNIT REVISION.090 .059 .073 .055 .078 .059 .065 .092 .067 .062 .073 .059 . No warranty will be honored for mix-matched systems that fail to adhere to these instructions.059 .073 .073 .067 .067 . (4) B1789865 PISTON PROVIDED IN THE INDOOR UNIT.067 .059 .074 .073 .052 .078 .062 .082 . (1) PISTON SUPPLIED WITH THE OUTDOOR UNIT.082 .084 .078 .059 . Failure to follow these instructions or to properly match evaporators and condensors can result in unit damage.059 .073 .059 .059 . (2) B1789884 (1) B1789884 (1) B1789884 (1) B1789884 (1) (2) (2) (2) (2) B1789862 (1) B1789862 (1) B1789862 (1) (2) B1789871 (1) (2) B1789871 (1) B1789871 (1) B1789871 (1) B1789873 (1) B1789873 (1) B1789873 (1) B1789873 (1) B1789878 (1) B1789878 (1) B1789878 (1) B1789878 (1) B1789884 (1) B1789884 (1) B1789892 (1) B1789892 (1) EXPORT UNITS CKF36-2L* CKF36-5L* CKF48-5L* CKF60-5L* CKF70-5L* CPKF24-2L* CPKF36-2L* CPKF36-5L* CPKF36-2L* CPKF36-5L* CPKF42-5L* CPKF48-2L* CPKF48-5L* CPKF60-5L* CPKF61-5L* 36000 36000 48000 60000 60000 24000 36000 36000 48000 48000 48000 48000 48000 60000 60000 .090 .071 .062 .071 .076 .052 .092 MINI SPLIT UNITS HDC12-1* HDC18-1* HDC24-1* HDP12-1* HDP18-1* HDP24-1* 12000 18000 18000 24000 24000 12000 18000 18000 24000 24000 .082 .071 .078 .084 .052 .068 .059 . ACCESSORIES FP-01 FREEZE THERMOSTAT KIT Wire Nut Y Bl ac k Y k ac Bl Wire Nut Install Line Thermostat Here Wire Nut Install Line Thermostat Here Bla ck Bla ck Wire Nut Y Y ASC01A ANTI-SHORT -CYCLE CONTROL KIT SHORT CYCLE PROTECTOR Y1 R1 Y2 R2 YELLOW 1 CONTACTOR T2 T1 BLACK 1 L2 L1 C BLACK 1 UNIT TERMINAL BOARD Y THERMOSTAT WIRE 18 . HKR SERIES ELECTRIC HEAT KITS 19 . ƒ When using a 20 kW heat kit. this air handler must be on high speed HEATER KIT APPLICATION OPTIONS AER24-1 HKR-03 HKR-05 HKR-06 HKR-08 HKR-10 HKR-15 HKR-20 C C C C C C AER30-1 AER36-01 AER48-1 AER60-1 X X X X X X X X X X X X X X X HKR-21 C Circuit Breakers optional. + When using a 10 kW heat kit. this air handler must either be in medium or high speed † When using a 15 kW heat kit. this air handler must be on high speed.ACCESSORIES HEATER KIT APPLICATION OPTIONS AURF032-00A-1B/-1C AURF018-00A-1/-1A AURF024-00A-1/-1A AURF030-00A-1/-1A AURF036-00A-1/-1A AURF042-00A-1/-1A AURF042-00A-1/-1A AURF049-00A-1/-1A AURF060-00A-1/-1A AURF061-00A-1/-1A AURF042-00A-1B AURF049-00A-1B AURF061-00A-1B X X X X X X X X X X HKR-03 HKR-05 C X X X X X X X X X X X X X X X X X X X X + X X X X X X X X X X X X X X X X X X X X X X X X Xƒ X ƒ X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X HKR-06 HKR-08 HKR-10 C C HKR-15C HKR-20C HKR-21 C * X† HKR3-15 X X X Xƒ HKR3-20* C Circuit breakers optional. * Heat Kit requires 3-phase power supply. PRODUCT SPECIFICATIONS Specifications Model CKL18-1L CKL24-1L CKL24-1M CKL30-1L CKL36-1L CKL42-1L CKL49-1L CKL60-1L CKL62-1L CKL36-3L CKL49-3L CKL60-3L CKL60-4L CKL62-1L Nominal Cooling Capacity (BTUH) 18.000 47.3 1.3 1.8 1. 20 .3 1.000 Service Valve Liquid 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction 3/4” 3/4” 3/4” 3/4” 3/4” 7/8” 7/8” 7/8” 7/8” 3/4” 7/8” 7/8” 7/8” 7/8” Connection Type Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Compressor RLA 8. 2) May use fuses or HACR type Circuit Breakers of the same size as noted.4 27.1 10.1 13.8 2.000 62.000 41.1 36.7 33.3 12.8 24.000 29.4 22.4 7.1 36.3 1.4 18.1 LRA 49 56 57 75 96 105 102 150 144 75 91 124 59.3 1.3 25 27.3 1.8 1.000 24.7 17.000 57.000 62.3 Shipping Weight (pounds) 125 127 127 130 152 160 176 208 258 142 176 208 208 258 CKL Electrical Data Model CKL18-1L CKL24-1L CKL24-1M CKL30-1L CKL36-1L CKL42-1L CKL49-1L CKL60-1L CKL62-1L CKL36-3L CKL49-3L CKL60-3L CKL60-4L CKL62-1L Minimum Circuit Ampacity 11.1 14.000 47.1 10. Extensive wire runs will require larger wire sizes.8 2.000 57.6 144 Condenser Fan HP 1/6 1/6 1/6 1/6 1/6 1/6 1/4 1/4 1/3 1/6 1/4 1/4 1/4 1/3 FLA 1.000 24.2 17.2 18.6 15.8 22.2 17.6 16.6 21.3 1.3 1.8 0.1 Maximum Overcurrent Protection 20 amps 20 amps 20 amps 30 amps 40 amps 40 amps 40 amps 50 amps 60 amps 20 amps 30 amps 30 amps 15 amps 60 amps Voltage-Phase 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-3 208/230-3 208/230-3 460-3 208/230-1 Minimum Volts 197 197 197 197 197 197 197 197 197 197 197 197 414 197 Maximum Volts 253 253 253 253 253 253 253 253 253 253 253 253 506 253 1) Wire size should be determined in accordance with National Electrical Codes.8 12.000 35.9 13.000 57.5 9.000 35. SUCTION CONN. CONTROL LIQUID CONN. POWER ADDITIONAL 1 -1/2" ELEVATED CHANNEL FORMED INTO BOTTOM PAN 7/8" DIA.CKL Dimensions W PRODUCT SPECIFICATIONS D H 1 -1/8" DIA. Model CKL18-1L CKL24-1L CKL24-1M CKL30-1L CKL36-1L CKL42-1L CKL49-1L CKL60-1L CKL62-1L CKL36-3L CKL49-3L CKL60-3L CKL60-4L Width 23” 23” 23” 23” 23” 23” 29” 29” 29” 23” 29” 29” 29” Depth 23” 23” 23” 23” 23” 23” 29” 29” 29” 23” 29” 29” 29” Height 24” 24” 24” 24” 29” 31½” 29” 31½” 39” 26½” 29” 31½” 31½” 21 . 052 16.000 23.00 10.50 9.00 10.400 18.50 9.00 9.000 24.00 9.00 9.000 17.140 12.00 10.640 17.800 17.325 12.50 10.400 18.000 17.00 10.00 9. The Goodman Gas Furnace contains the EEP cooling time delay.50 9.00 10.000 24.00 9.50 9.00 9.905 16. # 467525 467533 517544 467531 517514 517529 517511 517512 517498 517497 467564 467560 503271 503272 503273 503276 530822 503277 466994 466980 467561 467556 517545 467559 517509 517501 517495 517507 517521 467568 503280 503281 503282 503285 530824 503286 467002 467008 Decibel 76 76 76 76 76 76 76 76 76 76 76 76 76 76 76 76 76 76 76 76 75 75 75 75 75 75 75 75 75 75 75 75 75 75 75 75 75 75 CKL (1) Seasonal Energy Efficiency Ratio (2) Energy Efficiency Ratio @ 80°F/67°F Inside .000 17. B13707-38 is not interchangeable with B13707-35S.00 10.00 10.000 23.000 16.790 17.00 9.00 9.00 9.325 12.50 10.702 13.00 10.50 9. Part No.00 9.50 EER 9.520 16.00 9.00 9.00 10.80 9.050 12.00 9.702 13.264 12.000 24.702 12.50 10.640 16.PRODUCT SPECIFICATIONS Performance Ratings Condenser Evaporator Model AC18-XX ACHP1819-1 AEPT030-00*-1* AH18 ARPF024-00B-1* ARPT024-00*-1* ARPT032-00*-1* ARUF018-00*-1* ARUF024-00*-1* CKL18-1* ARUF032-00*-1* AWB18-XX AWB24-XX CA*F018*2*+EEP CA*F024*2*+EEP CA*F030*2*+EEP CHPF024A2*+EEP CHPF025B2*+EEP CHPF030A2*+EEP H24F+EEP H36F+EEP AC24-XX ACHP2423-1 AEPT030-00*-1* AH24 ARPF024-00B-1* ARPT024-00*-1* ARPT032-00*-1* ARUF024-00*-1* CKL24-1* ARUF032-00*-1* AWB24-XX CA*F024*2*+EEP CA*F030*2*+EEP CA*F036*2*+EEP CHPF024A2*+EEP CHPF025B2*+EEP CHPF030A2*+EEP H24F+EEP H36F+EEP Total BTUH 17.702 12. B13707-38 or new Solid State Board B13707-35S.00 9.410 12.50 10.00 9.000 23.50 10.905 17.00 9.50 ARI Ref.400 18.052 17. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.905 17.00 10.00 10.000 17.000 23.00 9.00 10.80 9.00 10.00 10.00 9.528 12.50 9.400 SEER 10.615 12.50 10.052 16.200 23.905 17.50 9.00 9.050 12.000 16.00 10.00 10.640 17.400 18.50 9.264 13.615 13.400 18.800 18.400 17.00 11. (5) EEP .200 23.200 24.00 10.410 12.000 23.675 17.00 10.400 17.50 10.00 9.00 10.000 Sensible BTUH 12.000 17.960 17.00 9.00 9.000 17.00 11.615 13. Part No.000 17.790 16.052 17.00 9. (4) Note: XX of A Model Designate Electric Heat Quantity.50 10.400 17.50 9.640 16.000 24.95°F (3) When matching the outdoor unit to the indoor unit.00 10.000 24.00 10.200 23.00 10. 22 .140 12.000 24.000 23.140 12.00 9.000 23.00 9.50 9.Order from Service Dept.00 10.640 17.50 10.00 10.00 10.50 10.000 23. 000 Sensible BTUH 24.600 29.50 9.400 29.00 10.845 20.50 9.000 29.820 25.00 10.315 21.000 28.000 34.000 28.820 25.00 10.00 10.) Condenser Evaporator Model AC30-XX AC36-XX ACHP3028-1 AEPT030-00*-1* AEPT036-00*-1* AH30 AH36 ARPF036-00B-1* ARPT032-00*-1* ARPT036-00*-1* CKL30-1* ARUF030-00*-1* ARUF032-00*-1* ARUF036-00*-1* AWB30-XX AWB36-XX CA*F030*2*+EEP CA*F042*2*+EEP CHPF024A2*+EEP CHPF030A2*+EEP CHPF036B2*+EEP H36F+EEP H49F+EEP Total BTUH 28.000 27.50 11.000 34.00 10.00 11.021 21.00 10.50 10.315 21.580 19.50 10.50 10.580 21.00 9.00 10.000 35.112 24.00 10.170 SEER 10.000 35.315 20.00 10.000 34.80 9.580 21.50 10.375 24.00 9.50 9.00 9.820 24.550 24.00 9.000 28.50 EER 9.00 10.000 28.600 29.992 21.000 29.00 9.00 10.00 10. # 467562 467555 467567 517526 517538 467574 467588 517528 517515 517516 517543 517531 517502 467583 467577 503289 503290 503293 503294 503295 467013 467010 Decibel 78 78 78 78 78 78 78 78 78 78 78 78 78 78 78 78 78 78 78 78 78 78 Condenser Evaporator Model AC36-XX ACHP3632-1 AEPT036-00*-1* AH36 ARPF036-00B-1* ARPT036-00*-1* ARPT042-00*-1* ARUF036-00*-1* CKL36-1* ARUF042-00*-1* AWB36-XX CA*F036*2*+EEP CA*F042*2*+EEP CHPF030A2*+EEP CHPF036B2*+EEP CHPF042B2*+EEP CHPF048C2*+EEP H36F+EEP H49F+EEP Total BTUH 33.315 20.375 SEER 10.000 29.400 34.00 9.580 21.50 ARI Ref.940 24.650 25.580 19.00 10.200 32.50 9.000 28.000 35.00 9.000 35.50 EER 9.00 9.00 10.236 24.200 28.50 9.000 27.000 29.50 9.50 10.650 25.000 35.50 ARI Ref.50 9.00 9.000 28.00 10.00 9.400 33.00 9.00 9.00 10.00 10.650 25.50 10.00 9.375 24.00 9.550 24.50 10.000 28.80 9.550 25.00 9.00 9.200 34.580 20.000 28.50 10.315 20.00 10.50 9.590 21.00 9.200 29.360 25.00 9.000 35.315 19.00 10.00 10.315 20.CKL Performance Ratings (cont.50 9.00 9.000 34.315 20.00 10.00 10. # 503315 503318 517535 503313 517525 517541 517537 517546 517524 503320 503301 503302 503307 503310 503304 530821 503300 503303 Decibel 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 23 .600 29.50 9.00 10.50 9.00 9.00 9.50 10.236 23.50 10.00 9.000 34.878 21.375 25.00 9.000 PRODUCT SPECIFICATIONS Sensible BTUH 20.00 10.00 10.00 9.992 21.000 35.00 9.000 27.021 21.00 10.000 34. 070 24.940 24.550 25.000 41.50 SEER 11.000 40.50 9.50 10.00 10.00 10.00 10.50 EER 9.820 25.00 10. (4) Note: XX of A Model Designate Electric Heat Quantity.50 9.000 41. B13707-38 or new Solid State Board B13707-35S.000 35.112 24.000 35.95°F (3) When matching the outdoor unit to the indoor unit.50 10.50 10.000 41.000 35.50 10.00 10.00 10.650 25.000 39.000 40.00 9.400 27.00 10.650 29.400 34.00 9.375 24.820 24.000 34.375 Sensible BTUH 30.400 34.00 10.200 25.50 10.400 33.00 9.00 9.650 25.50 9. B13707-38 is not interchangeable with B13707-35S.000 34.400 28.80 9.00 10.50 9. # 517475 517478 517473 517469 517479 517470 517472 503352 503353 503354 503357 530820 503358 467033 467030 Decibel 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 Decibel 82 82 82 82 82 82 82 82 82 82 82 82 82 82 82 CKL (1) Seasonal Energy Efficiency Ratio (2) Energy Efficiency Ratio @ 80°F/67°F Inside .000 Total BTUH 41.50 9.00 9. Part No.160 30.00 10.500 41.00 10.000 35.00 9.000 34.00 10.375 24.00 9.50 9.650 25.Order from Service Dept.50 9.00 9.000 41.50 10.00 9.070 23.00 10.000 40. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.375 24.00 10.00 10.50 10.00 9.00 9.00 10.000 40.400 30.500 40.820 25.200 34.00 9.000 34.00 9.50 9.000 40.375 24.50 10.000 30.00 11. 24 .50 10.400 28.50 EER 9.000 30.000 34.00 10.00 9.000 40. (5) EEP .000 35.) Condenser Evaporator Model AC36-XX ACHP3632-1 AEPT036-00*-1* AH36 ARPF036-00B-1* ARPT036-00*-1* ARPT042-00*-1* ARUF036-00*-1* CKL36-3* ARUF042-00*-1* AWB36-XX CA*F036*2*+EEP CA*F042*2*+EEP CHPF030A2*+EEP CHPF036B2*+EEP CHPF042B2*+EEP H36F+EEP H49F+EEP Condenser Evaporator Model AEPT060-00*-1* ARPF048-00B-1* ARPT042-00*-1* ARPT049-00*-1* ARUF042-00*-1* ARUF048-00*-1* ARUF049-00*-1* CKL42-1* CA*F042*2*+EEP CA*F048*2*+EEP CA*F060*2*+EEP CHPF042B2*+EEP CHPF048C2*+EEP CHPF048D2*+EEP H49F+EEP H60F+EEP Total BTUH 33. # 503345 503347 517533 503338 517519 517539 517517 517522 517510 503339 503325 503330 503334 503327 503337 503333 503332 ARI Ref.00 9.400 28.00 9.00 9.200 32.PRODUCT SPECIFICATIONS Performance Ratings (cont.000 28.00 10.00 9. Part No.000 Sensible BTUH 24.000 34.50 ARI Ref.000 35. The Goodman Gas Furnace contains the EEP cooling time delay.00 10.400 28.80 9.00 10.00 9.000 41.000 30.200 SEER 10.50 9.000 30. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.200 36.00 9.00 9.80 9.00 9.50 EER 9.000 33.000 33.30 9.00 9.00 10.50 10.CKL Performance Ratings (cont.000 34.000 34.000 33.00 10.50 9.000 45.00 10.50 EER 9.000 46.000 47.00 9.00 10.000 34.50 10.000 47.000 34.000 45.50 10. Part No.80 9.30 9. B13707-38 or new Solid State Board B13707-35S. B13707-38 is not interchangeable with B13707-35S.000 46.00 10.000 Sensible BTUH 35.00 10.000 46.00 9.000 45.95°F (3) When matching the outdoor unit to the indoor unit. # 517468 517476 517474 517467 517485 503369 503370 503372 503373 503374 466763 466765 466767 Decibel 80 80 80 80 80 80 80 80 80 80 80 80 80 (1) Seasonal Energy Efficiency Ratio (2) Energy Efficiency Ratio @ 80°F/67°F Inside .50 10.200 36. 25 .00 10.000 33.000 44.00 10.000 45.00 10.000 45.00 9.200 35.00 10. (4) Note: XX of A Model Designate Electric Heat Quantity.200 35.000 44.000 34.00 9.000 PRODUCT SPECIFICATIONS Sensible BTUH 35.000 47. # 517486 517477 517480 517482 517487 503361 503362 503364 530823 503365 503366 466757 466759 466770 Decibel 80 80 80 80 80 80 80 80 80 80 80 80 80 80 Condenser Evaporator Model AEPT060-00*-1* ARPF048-00B-1* ARPT049-00*-1* ARUF048-00*-1* ARUF049-00*-1* CA*F048*2*+EEP CKL49-3* CA*F060*2*+EEP CHPF042B2*+EEP CHPF048D2*+EEP CHPF060D2*+EEP H49F+EEP H60F+EEP H61F+EEP Total BTUH 45.50 10.200 SEER 11.00 9.00 9.000 46.000 45.50 9.30 ARI Ref.50 9.50 10.000 44.00 9.000 35.000 33.000 46.00 9.000 33.000 SEER 11.00 10.00 10.000 47.50 10.50 9.000 46.000 34.000 34.000 34.000 34.200 35.000 46.000 35.30 9.50 ARI Ref.00 10.00 10.000 46.000 44. The Goodman Gas Furnace contains the EEP cooling time delay.200 36.) Condenser Evaporator Model AEPT060-00*-1* ARPF048-00B-1* ARPT049-00*-1* ARUF048-00*-1* ARUF049-00*-1* CA*F048*2*+EEP CKL49-1* CA*F060*2*+EEP CHPF042B2*+EEP CHPF048C2*+EEP CHPF048D2*+EEP CHPF060D2*+EEP H49F+EEP H60F+EEP H61F+EEP Total BTUH 45.00 10.00 10.00 10.00 9.00 9. Part No.000 44.200 35.000 45.50 10.Order from Service Dept.00 9.50 9.000 45. (5) EEP .200 36. 000 55.50 10.000 SEER 10.) Condenser Evaporator Model AEPT060-00*-1* ARPF060-00B-1* ARPT061-00*-1* ARUF060-00*-1* ARUF061-00*-1* CKL60-1* CA*F060*2*+EEP CA*F061*2*+EEP CHPF048D2*+EEP CHPF060D2*+EEP H60F+EEP H61F+EEP AEPT060-00*-1* ARPF060-00B-1* ARPT061-00*-1* ARUF060-00*-1* ARUF061-00*-1* CKL60-3/4* CA*F060*2*+EEP CA*F061*2*+EEP CHPF048D2*+EEP CHPF060D2*+EEP H60F+EEP H61F+EEP AEPT060-00*-1* ARPF060-00B-1* ARPT061-00*-1* ARUF060-00*-1* CKL62-1* ARUF061-00*-1* CA*F060*2*+EEP CA*F061*2*+EEP CHPF048D2*+EEP CHPF060D2*+EEP H61F+EEP Total BTUH 57.000 62.000 57.50 10.00 9.300 42.00 10.000 57.50 9.300 39.600 40.000 45.00 10.000 57.000 39.50 9.50 9.Order from Service Dept.50 10.000 62.000 40.000 40.00 9.000 60.50 9. (4) Note: XX of A Model Designate Electric Heat Quantity.000 56.300 42.50 9.50 9.00 10.00 9.00 EER 9.00 9.50 10.000 58.50 10.00 9.00 10.00 9.300 39. Part No.50 10.50 9.50 10.000 42.50 9.00 10.00 9.50 10.000 55.50 10. # 517464 517466 517489 517471 517483 503382 503383 503386 503387 504198 504195 517488 517481 517484 517548 517536 503398 503399 503402 503403 503405 504197 517496 517520 517504 517523 517547 503417 503418 503421 503422 503424 Decibel 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 CKL (1) Seasonal Energy Efficiency Ratio (2) Energy Efficiency Ratio @ 80°F/67°F Inside .00 9.00 10.00 10. Part No.00 9.000 57. B13707-38 or new Solid State Board B13707-35S.00 ARI Ref.000 42.000 57.50 10.000 42.50 9.00 10.00 10.00 10.50 9.000 45.00 9.300 42.00 10.00 10.95°F (3) When matching the outdoor unit to the indoor unit.000 58.000 58.000 56.000 42.600 40.50 10.000 39.00 9.50 9.50 10.PRODUCT SPECIFICATIONS Performance Ratings (cont.000 57.000 42.000 61.000 56. (5) EEP .000 42. The Goodman Gas Furnace contains the EEP cooling time delay.000 60. 26 .000 42.50 9.50 9.000 60.00 10.50 10.50 10.000 61.600 40. B13707-38 is not interchangeable with B13707-35S.000 43.00 9.00 10.000 43.000 56.300 39.50 10.000 55.00 10.50 9.000 57.300 39.00 10.00 9.00 9.300 45.000 56.000 43.600 40.000 55.000 55.000 56.000 55.000 56.600 40.000 45.000 56.00 9. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.000 Sensible BTUH 42.50 9.00 9.600 40. 8 CKL090-4/-4L 43.2 35 506 414 15.7 196 5.CKL090-120 Specifications Model CKL090-3/-3L CKL090-4/-4L CKL120-3/-3L CKL120-4/-4L Refrigerant Line Connection Liquid Suction 5/8” 1 ” 5/8” 1 ” 5/8” 1 ” 5/8” 1 ” PRODUCT SPECIFICATIONS Approximate Shipping Weight (pounds) 370 370 420 420 Type Sweat Sweat Sweat Sweat Electrical Data Minimum Maximum Compressor Condenser Maximum Minimum Circuit Overcurrent Volts Volts RLA LRA FLA Ampacity1 Protection2 37. Model Volts PH Fan HP 1 1 1 1 Dimensions 27 . 3) The -3L and -4L models are painted Architectural Gray.8 CKL120-4/-4L 1) Wire size should be determined in accordance with National Electrical Codes. All other models are painted Bahama Beige.3 60 253 197 30.5 114 2.8 60 253 197 25.6 CKL120-3/-3L 208/230 3 460 3 22. 2) May use fuses or HACR type Circuit Breakers of the same size as noted.1 225 5. Extensive wire runs will require larger wire sizes.8 100 2.6 CKL090-3/-3L 208/230 3 460 3 18.8 30 506 414 12. 6 108.65 9.2 101.4 115 °F SENS MBTUH 39.91 8.7 95.1 77.60 7.9 90.7 88.6 85 SENS MBTUH 46.3 50.5 84.4 72.4 65.80 8.4 WATTS KWH 9.4 66.31 9.8 53.29 7.6 80.89 8.2 88.1 67.0 81.0 72.2 85.3 86.7 83.21 7. 75 °F DB AND 63 °F WB INDOOR TOTAL MBTUH 83.400 64.6 89.2 75.8 57.9 WATTS KWH 8.0 67.0 51.7 100.P)X060D2A AR120 (2) U-61.6 75.7 58.63 8.69 7.65 TOTAL MBTUH 89.74 9.0 75 °F SENS MBTUH 47.0 59.3 90.40 9.69 8.1 81.6 62.89 TOTAL MBTUH 81.4 88. or add 84 BTUH per 100 CFM of evaporator coil air per degree above 80 °F.9 53.9 Outdoor Unit CKL090-3/-4/-3L/-4L INDOOR AIR SCFM WB 72 67 62 57 72 67 62 57 72 67 62 57 TOTAL MBTUH 104.6 72.8 53.4 56.2 72.5 95.04 7.6 52.5 LATENT MBTUH 23.21 TOTAL MBTUH 94.2 50.91 8.40 2493 2933 3373 Sensible heat capacities shown are based on 80 °F DB entering air at the evaporator coil.4 28 .23 8.0 83.6 103.74 8.9 88.3 92.7 68.1 81.8 88.1 53.48 8.4 67.4 82.86 7.9 69.43 8.17 8.0 71.7 48.9 68.9 99.1 93.86 7.7 90. CAPACITIES AT 95 °F OUTDOOR.86 9.40 9.5 77.48 8.4 74.6 67.9 92.26 10. 75 °F DB AND 63 °F WB INDOOR TOTAL MBTUH 85.95 7.8 79.8 66.2 97.17 6.69 9.06 10.35 7.7 78.8 72.4 62.2 SENS MBTUH 44.09 TOTAL MBTUH 83.5 79.6 71.3 77.9 81.3 83.9 WATTS KWH 8.2 87.4 71.8 111.6 81.9 51.5 75.78 7. or add 84 BTUH per 100 CFM of evaporator coil air per degree above 80 °F.44 8.48 7.8 95.7 84.1 94.6 86.35 8.87 9. reduce BTUH by 2.4 73.7 80.8 74.2 72.4 8.4 98.95 7. Outdoor Unit CKL090-3/-4/-3L/-4L Indoor Air SCFM WB 72 67 62 57 72 67 62 57 72 67 62 57 TOTAL MBTUH 102.2 86.0 Indoor Unit (2) U60 CONDENSER AIR TEMPERATURE 95 WATTS KWH 9.43 7.23 8.000 Sensible BTUH @ 95 °F 63.12 7. For sensible heat capacities at other than 80 °F DB.000 @ 208 volts.9 72.8 54.4 68.54 8.9 83.0 81.4 70.8 63.6 89.3 106.71 8.9 92.6 90.6 49.5 97.1 79.2 95.1 93.7 106.6 75.9 87.4 88.61 2550 3000 3450 Sensible heat capacities shown are based on 80 °F DB entering air at the evaporator coil.26 8.7 51.2 79.20 9. (2) CA(U.04 7.5 45.2 95 °F SENS MBTUH 43.4 1) EER = Energy Efficiency Ratio = Capacity BTUH @ 95 °F/kWI (kWI = Compressor + Indoor Blower Motor + Outdoor Fan Motor) 2) For CKL**-3 models.9 73.1 77.0 95.9 91.3 79.3 73.69 7.77 7.30 7.7 69.7 SENS MBTUH 41.80 8.8 84.6 61.1 SENSIBLE MBTUH 60.800 82.7 56.8 WATTS KWH 8.2 98.2 65.6 84.03 TOTAL MBTUH 92.6 72.29 8.7 88.65 8.86 9.46 7.54 9.5 85 °F SENS MBTUH 45.3 47.46 8.14 9.4 8.03 8.60 7.2 93.21 8. For sensible heat capacities at other than 80 °F DB.3 86.7 75.9 46.3 78.26 9.9 73.7 81.4 95.29 7.3 10.4 85.PRODUCT SPECIFICATIONS Performance Ratings Model CKL090-3/-3L CKL090-4/-4L CKL120-3/-3L CKL120-4/-4L Evaporator Model AR090 (2) U-60.6 55.2 67.1 80.7 82.57 9.8 109.71 8.52 7.97 8.8 68.5 76.200 80.6 WATTS KWH 9.8 73.3 10.91 9.P)X061D2A Total BTUH @ 95 °F 88.06 8.0 65.2 84.83 8.48 8.1 90.8 92.5 71.4 77.83 8.9 79.0 79.86 7.5 61.7 65.2 115 SENS MBTUH 40.4 103.0 WATTS KWH 9.3 78.9 84.5 86.800 EER1 10.26 8.1 74.30 9.01 6.61 9.1 80.14 8.8 76.3 Indoor Unit AR090 Condenser Air Temperature 105 °F WATTS KWH 8.9 86.35 9.0 69.3 CKL090-120 Decibels 8.65 8.2 77.0 SENSIBLE MBTUH 61.78 TOTAL MBTUH 99.08 9.4 74.0 78.5 97.3 10.3 86.1 83.6 60.79 9.2 LATENT MBTUH 22. (2) CA(U. deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 °F.000 114.3 69.60 TOTAL MBTUH 97.5 91.46 TOTAL MBTUH 87.51 7.65 8.74 8.43 8.12 8.2 82.74 10.29 8.30 8.1 WATTS KWH 9.7 75.4 84.1 101.3 84.6 93.2 80.6 82.6 105 SENS MBTUH 42.83 8. deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 °F.8 81.65 9.6 59.4 79.1 48.00 8.8 98.9 64.5 77.12 9.14 8.06 9.7 79. CAPACITIES AT 95 °F OUTDOOR.0 71.3 61.0 79.6 74.3 64.0 103.1 WATTS KWH 8.3 75.3 71.1 66.46 7.99 8.26 8.2 75 SENS MBTUH 48.54 9.70 9.8 54.09 9.61 9.4 75.39 9.00 8.4 81.8 88.13 7.7 55.03 7.44 8.87 9.4 52.5 54.000 90.54 8.63 8.6 67.5 87.9 83.5 70.7 91.6 57.000 112.6 58.0 60.5 81.2 68.48 8.4 8.0 77.2 86.9 62.3 71.7 82. 09 10.79 104.7 109.3 100.61 11.1 104.7 111.7 WATTS KWH 10.3 96.29 9.87 105.7 65.46 101.51 11.7 107.2 95.73 11.) Outdoor Unit CKL120-3/-4/-3L/-4L Indoor Air SCFM WB 72 67 62 57 72 67 62 57 72 67 62 57 TOTAL MBTUH PRODUCT SPECIFICATIONS Indoor Unit AR120 Condenser Air Temperature 95 °F WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH 75 °F SENS MBTUH WATTS KWH TOTAL MBTUH 85 °F SENS MBTUH 105 °F SENS MBTUH WATTS KWH TOTAL MBTUH 115 °F SENS MBTUH WATTS KWH 3230 3800 4370 132.96 11.2 60.4 10.6 55.7 71.41 10.5 115.5 119.2 100.18 9.9 102.74 10.09 108.2 74.1 92.22 109.1 88.4 131.68 9.7 11.3 69.96 10.2 120.8 Indoor Unit (2) U61 CONDENSER AIR TEMPERATURE 95 WATTS TOTAL SENS WATTS TOTAL KWH MBTUH MBTUH KWH MBTUH 10.7 79.0 10.3 10.74 117.07 11.7 101.6 115 SENS MBTUH 50.79 104.0 93.0 85.4 97.2 11.1 116.7 79.1 LATENT MBTUH 29.4 107.1 12.7 SENSIBLE MBTUH 76.6 75.6 131.5 92.96 112.6 98.5 89. or add 84 BTUH PER 100 CFM of evaporator coil air per degree above 80 °F.08 8.8 111.41 11.7 10.9 118.87 12.6 9.3 67.29 11.6 SENSIBLE MBTUH 78.1 87.3 92.9 101.4 90.31 TOTAL MBTUH 104.4 87.2 138.0 106.1 110.8 109.2 97.84 11.18 10.1 106.3 10.0 10.5 85. 75 °F DB AND 63 °F WB INDOOR TOTAL MBTUH 107.3 88.1 104.7 94.53 12. CAPACITIES AT 95 °F OUTDOOR.40 9.7 9.74 10.1 123.79 90.63 12.2 67.51 106.0 69.33 99.2 99.4 111.3 92.6 134.0 92.55 10.8 84.6 132.2 107.87 12.2 122.1 85.6 63.6 88.74 10.5 90.5 65.0 97.3 135.2 101.8 111.4 100.5 98.6 78.4 77.7 86.7 109.4 90.2 WATTS KWH 11.9 126.8 9.6 104.9 11.4 76.3 105 SENS MBTUH 53.5 11.2 95.3 114.77 105.8 121.29 11.0 102. 75 °F DB AND 63 °F WB INDOOR TOTAL MBTUH 105.6 102.7 58.95 11.74 9.0 84.11 9.5 90. deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 °F.5 110.51 11.3 118.8 LATENT MBTUH 29.3 141.0 121.5 Outdoor Unit CKL120-3/-4/-3L/-4L INDOOR AIR SCFM WB 72 67 62 57 72 67 62 57 72 67 62 57 TOTAL MBTUH 129.51 11.4 106.42 10.83 12.5 94.77 10.07 11.3 117.3 95.6 87.6 83.1 9.0 95.4 100.53 115. CAPACITIES AT 95 °F OUTDOOR.31 11.9 105.9 67.40 12.7 100.77 105.40 10.07 12.63 10.0 88.96 3173 3733 4293 Sensible heat capacities shown are based on 80 °F DB entering air at the evaporator coil.57 8.0 79.6 100.2 112.33 112.2 96.2 87.17 Sensible heat capacities shown are based on 80 °F DB entering air at the evaporator coil.3 9.8 10.5 85 SENS MBTUH 58.55 100.2 72.90 9.6 10.1 101.0 74.4 90.1 66.2 54.24 10.55 115.3 115.1 61.98 122.2 72.8 108.40 10.8 84.7 110.8 105.85 10.95 11.40 10.6 85.6 10.96 10.9 86.4 114.35 9.2 70.8 105.63 11.07 12.87 10.1 120.96 11.17 11.5 70.7 117.9 96.8 68.4 116.3 92.3 10.84 12.7 10.8 11.92 8.7 92.85 126.68 TOTAL MBTUH 124.5 117.3 82.18 9.6 107.96 9.8 11.3 87.9 128.8 128.33 99.5 124.85 9.1 94.6 10.7 107.7 76.8 94.8 101.1 64.6 112.18 11.51 9.7 56.52 9.1 62.29 10.1 64.1 123.77 117.8 102.0 106.8 90.2 137.1 92.6 94.4 67.96 10.0 10. deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 °F.29 10.0 75 SENS MBTUH 60.7 110.6 83. For sensible heat capacities at other than 80 °F DB.3 10.5 107.96 11.07 10.07 9.6 59.3 113.6 63.73 11.98 10.0 83.2 107.0 127.4 84.63 9.2 98.8 118.0 86.17 12.18 11.55 9.7 109.5 WATTS KWH 12.20 125.8 95.00 107.3 51.51 11.8 97.9 71.22 9.20 110.2 94.70 10.74 11.4 103.06 12.29 11.9 103.8 69.5 124.62 11.4 78.0 80.9 81.1 102.84 11.22 109.96 11.00 98.9 10.5 101.44 12.8 97.8 11.74 10. or add 84 BTUH per 100 CFM of evaporator coil air per degree above 80 °F.7 61.7 110.6 118. For sensible heat capacities at other than 80 °F DB.24 96.0 96.8 101.40 119.9 78.73 13.CKL090-120 Performance Ratings (cont.0 124.4 57.1 93.5 116.8 112.53 11.0 29 .9 98.51 10. 4 17.400 30.3 1.000 30.1 12.1 20.000 41.000 47.5 23.9 1.7 33.400 23.8 14.3 1 0.PRODUCT SPECIFICATIONS Specifications Model Nominal Cooling Capacity (BTUH) 18.000 56.8 1.3 1.5 1.1 13.3 1.1 Maximum Overcurrent Protection (amps) 20 20 20 20 20 30 30 30 30 40 30 40 60 VoltagePhase 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 Minimum Volts 197 197 197 197 197 197 197 197 197 197 197 197 197 Maximum Volts 253 253 253 253 253 253 253 253 253 253 253 253 253 CLJ18-1A CLJ18-1C CLJ24-1A CLJ24-1C CLJ24-1D CLJ30-1A CLJ30-1C CLJ30-1D CLJ36-1A/-1C CLJ42-1B CLJ42-1C CLJ48-1A/-1C/-1D CLJ60-1/-1C 1) Wire size should be determined in accordance with National Electrical Codes. Electrical Data Model Minimum Circuit Ampacity 12.3 25 49 49 49 49 43 60 60 60 82 96 96 109 148 CLJ Ship Wgt (lbs) 135 135 160 160 160 173 173 174 174 175 175 208 270 CLJ18-1A CLJ18-1C CLJ24-1A CLJ24-1C CLJ24-1D CLJ30-1A CLJ30-1C CLJ30-1D CLJ36-1A/-1C CLJ42-1B CLJ42-1C CLJ48-1A/-1C/-1D CLJ60-1/-1C NOTE: The -*C models are painted in Architectural Gray.9 1.4 14. 30 .6 1.1 12.4 9.1 0. 2) May use fuses or HACR type Circuit Breakers of the same size as noted.6 9.9 18.6 1.3 19. All other models are painted in Bahama Beige.6 8. Extensive wire runs will require larger wire sizes.8 Connect RLA LRA Type Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat 8.4 17.400 18.4 9.400 23.2 24.400 23.000 Service Valve Liquid 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 7/8” 7/8” 7/8” 7/8” Compressor Type Reciprocating Reciprocating Reciprocating Reciprocating Reciprocating Reciprocating Reciprocating Reciprocating Reciprocating Reciprocating Reciprocating Scroll Scroll Condenser Fan HP 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/6 1/4 1/4 1/4 1/4 1/4 FLA 1.000 30.000 36.1 13.2 14.000 41.2 17.2 13 13 10. 5” 31. Model CLJ18-1A CLJ18-1C CLJ24-1A CLJ24-1C CLJ24-1D CLJ30-1A CLJ30-1C CLJ30-1D CLJ36-1A/-1C CLJ42-1B CLJ42-1C Width 23” 23” 23” 23” 23” 29” 29” 29” 29” 29” 29” Depth 23” 23” 23” 23” 23” 29” 29” 29” 29” 29” 29” Height 26.5” 31. SUCTION CONN.5” 26. CONTROL ELEVATED CHANNEL FORMED INTO BOTTOM PAN LIQUID CONN.CLJ Dimensions PRODUCT SPECIFICATIONS W D H 1 -1/8" DIA.5” 29” 29” 31.5” 31.5” 31.5” 26.5” 26. POWER ADDITIONAL 1 -1/2" 7/8" DIA.5” 31 . 750 11.00 13.Order from Service Dept.000 16.000 18.800 12.50 11.000 18.200 13.000 18.00 10.600 12. 4.800 12.50 10.) Energy Efficiency Ratio @ 80 °F/67 °F Inside .000 16.000 18.50 10.400 13.00 11.400 13.200 13.000 18.400 13. Part No.10 10.00 11.50 10.00 12.00 10.) EEP .50 10.50 10. The Goodman Gas Furnace contains the EEP cooling time delay.50 12.00 11.00 11.600 12.200 11.) Seasonal Energy Efficiency Ratio 2.50 11.30 12.10 10.000 18.PRODUCT SPECIFICATIONS Performance Ratings Condenser Evaporator Model AC18-XX ACHP1819-1 AEPT030-00*-1* AH18 AH30 ARPF024-00B-1* ARPF036-00B-1* ARPT024-00*-1* ARPT032-00*-1* ARUF018-00*-1* ARUF024-00*-1* ARUF032-00*-1* AWB18-XX CLJ18-1* AWB24-XX CA*F018*2*+EEP CA*F024*2*+EEP CA*F030*2*+EEP CA*F030*2*+G*V80703B** CA*F042*2*+G*V80703B** CA*F042*2*+G*V90704C** CHPF024A2*+EEP CHPF030A2*+EEP CHPF030A2*+G*V80703B** CHPF042B2*+G*V80703B** CHPF042B2*+G*V90704C** H36F+EEP H36F+GV80703B** H36F+GV90453B** Total BTUH 17. 32 Decibel SEER EER .50 11.50 12.00 13. # 467428 467432 517499 467430 467429 517505 517503 517513 517508 517534 517542 517530 467498 467491 503429 505285 503432 520819 520833 503433 503438 503439 520822 520835 503442 467040 527381 527364 CLJ 10.200 18.00 11.50 12.50 11. B13707-38 is not interchangeable with B13707-35S.200 13.000 16.50 11.00 13.50 11.00 10.400 16. B13707-38 or new Solid State Board B13707-35S.000 18.10 10. 5.000 16.10 10.750 13.750 12.00 11.30 11. Part No.200 13.50 10.30 11.00 13.00 12.50 12.200 ARI Ref.000 18.) Note: XX of A Model Designate Electric Heat Quantity.00 13.400 17.00 13.200 16.200 13.800 12.800 18.200 17.200 12.800 18.800 18.10 10.95 °F 3.00 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 NOTES: 1.00 11.50 11.000 18.) When matching the outdoor unit to the indoor unit.50 12.000 16.50 10.50 11.900 12.200 13.00 10.00 13.400 13.000 16.50 10.20 12.800 18.00 13.000 Sensible BTUH 12.000 17.200 13.400 13.200 12. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.800 18.50 11.200 11.50 12.200 13.50 10.00 13.000 17.200 13. 00 13.00 11.400 23.700 17.270 16.50 11.400 23. B13707-38 is not interchangeable with B13707-35S.00 11.30 12.30 12.00 11.Order from Service Dept.00 11.) EEP .50 10.000 23.600 17.50 10.270 17.50 10. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.800 17.50 12.700 16.) When matching the outdoor unit to the indoor unit.00 10.30 13.800 17.000 22.400 24.50 11.00 10. 5.00 12.00 12. Part No.00 13.800 23.200 21.800 16.270 16.00 12.270 17.800 17.00 10.600 23.600 23.50 10.200 15.00 11.600 23.800 23.50 12.600 16.95 °F 3.00 12.270 17.270 17.700 16. The Goodman Gas Furnace contains the EEP cooling time delay.00 10.50 10.30 12. B13707-38 or new Solid State Board B13707-35S.00 10.400 23.CLJ Performance Ratings (cont.800 22.00 13.400 23.00 13.) Note: XX of A Model Designate Electric Heat Quantity.50 10.50 11.400 PRODUCT SPECIFICATIONS Sensible BTUH 15.00 10.00 13.270 16.00 13.30 12.00 11.00 12.800 16.800 17.50 10.50 11.50 11.800 17.50 10.50 11.50 10.400 23.50 10.400 23.270 17.) Condenser Evaporator Model AC24-XX AC30-XX ACHP2423-1 ACHP3028-1 AEPT030-00*-1* AH30 ARPF024-00B-1* ARPF036-00B-1* ARPT024-00*-1* ARPT032-00*-1* ARUF024-00*-1* ARUF032-00*-1* AWB24-XX AWB30-XX CA*F024*2*+EEP CA*F030*2*+G*V80703B** CA*F036*2*+EEP CA*F037*2*+EEP CA*F042*2*+G*V80703B** CA*F042*2*+G*V90704C** CHPF024A2*+EEP CHPF030A2*+EEP CHPF030A2*+G*V80703B** CHPF042B2*+G*V80703B** CHPF042B2*+G*V90704C** H24F+EEP H36F+EEP H36F+GV80703B** H36F+GV90453B** Total BTUH 21.50 11.400 23.400 22.50 11.270 16.) Energy Efficiency Ratio @ 80 °F/67 °F Inside . 4.50 10. Part No.30 12.200 23.270 17.00 13.400 23.270 17.400 22.400 22.200 22.50 11.000 17.800 17.800 23.00 11.00 13.270 ARI Ref.00 10.00 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 CLJ24-1* NOTES: 1. Decibel SEER EER 33 . # 467511 467521 467502 467516 517500 467515 517532 517518 517506 517527 517540 517583 467513 467510 505284 520840 503449 521423 520839 503450 503454 503455 520916 520915 503458 467416 467413 527379 527390 10.50 10.270 16.) Seasonal Energy Efficiency Ratio 2.400 22.400 22.800 22.400 22.270 17.00 11. 5.50 11. B13707-38 or new Solid State Board B13707-35S.000 27.00 12.) Note: XX of A Model Designate Electric Heat Quantity.50 9.000 28.80 11.50 10.000 21.10 10.Order from Service Dept.750 20.50 13.00 11.750 20.00 11.750 20.00 12.000 28. Part No.50 11.) Energy Efficiency Ratio @ 80 °F/67 °F Inside .00 12. 4.50 11.50 10.300 20. 34 .50 13.50 11.50 10.750 20.750 20.750 20.665 20.00 12.10 11. Part No.) Seasonal Energy Efficiency Ratio 2. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.00 12.750 20.00 13.00 11. # 467575 467587 467578 517557 517605 467585 467673 517601 517617 517612 517597 467666 467672 503463 520923 503466 521424 520925 503467 503473 520926 520922 503476 467425 527395 527376 Decibel SEER EER CLJ 10.00 10.400 28.00 12.665 20.000 20.000 27.50 11.80 10.000 27.00 11.200 19.550 20.000 28.50 9.00 13.750 20.00 11.00 12.00 10.750 20.80 10.50 9.000 30.500 22.000 28.00 12.000 20.000 28.400 28.) EEP .00 11.750 20.000 28.000 28.50 11.000 28.000 26.50 10.750 20.00 12.750 ARI Ref.000 28.50 10.) Condenser Evaporator Model AC30-XX AC36-XX ACHP3632-1 AEPT030-00*-1* AEPT036-00*-1* AH30 AH36 ARPF036-00B-1* ARPT032-00*-1* ARUF030-00*-1* ARUF032-00*-1* AWB30-XX AWB36-XX CA*F030*2*+EEP CA*F030*2*+G*V80703B** CA*F036*2*+EEP CA*F037*2*+EEP CA*F042*2*+G*V80703B** CA*F042*2*+G*V90704C** CHPF030A2*+EEP CHPF030A2*+G*V80703B** CHPF042B2*+G*V80703B** CHPF042B2*+G*V90704C** H36F+EEP H36F+GV80703B** H36F+GV90704C** Total BTUH 27.PRODUCT SPECIFICATIONS Performance Ratings (cont.00 11.00 13.000 28.000 29.750 20.750 20.50 13.750 20.000 27.000 28.95 °F 3.000 28.50 12.00 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 73 CLJ30-1* NOTES: 1.000 Sensible BTUH 20.000 28.000 28.20 12.750 20.50 10.50 12.50 12.50 10.000 20. B13707-38 is not interchangeable with B13707-35S.000 28.00 11. The Goodman Gas Furnace contains the EEP cooling time delay.000 28.00 12.) When matching the outdoor unit to the indoor unit. 300 26.50 10.00 13.00 13.000 41.000 36.300 26.500 39.00 11.10 10.000 30.50 11.000 30.300 24.00 11.000 36.50 10.000 36.50 11.000 41.00 11.00 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 35 .000 35.300 24.000 36.300 26. # 503480 503481 517571 503483 517580 517592 517611 517584 517553 503489 503490 503491 520920 520935 503492 503493 503496 520941 520946 503497 503498 503505 520937 503507 503506 530825 520936 520942 503508 518830 503515 503516 527392 527384 517550 517606 517556 517608 517570 517573 517559 503530 503531 520944 503532 520965 503533 503540 520960 503541 520969 503542 468541 468553 527397 527389 Decibel SEER EER Sensible BTUH 24.300 24.80 11.00 12.000 34.50 10.50 11.300 26.30 12.000 40.20 12.50 11.50 13.000 36.000 36.00 10.000 36.00 12.000 36.00 10.00 13.00 12.00 10.000 36.20 12.50 10.20 12.300 26.50 12.00 10.00 13.00 11.CLJ Performance Ratings (cont.700 30.900 24.300 26.000 40.80 9.50 11.300 26.200 29.000 36.200 30.000 34.000 41.00 13.000 36.300 26.500 40.00 12.000 36.00 12.50 11.000 36.000 36.00 11.50 10.00 13.000 41.300 24.50 10.500 26.300 26.700 CLJ36-1* CLJ42-1* 9.00 13.00 13.00 13.000 40.) Condenser Evaporator Model AC36-XX ACHP3632-1 AEPT036-00*-1* AH36 ARPF048-00B-1* ARPT036-00*-1* ARPT042-00*-1* ARUF036-00*-1* ARUF042-00*-1* AWB36-XX CA*F036*2*+EEP CA*F042*2*+EEP CA*F042*2*+G*V80703B** CA*F042*2*+G*V80905C** CA*F042*2*+G*V90704C** CA*F042*2*+G*V90905D** CA*F048*2*+EEP CA*F048*2*+G*V81155C** CA*F049*2*+G*V81155C** CA*F049*2*+G*V90905D** CA*F049*2*+G*V91155D** CHPF030A2*+EEP CHPF042B2*+G*V80703B** CHPF042B2*+G*V90704C** CHPF042B2A+EEP CHPF048C2*+EEP CHPF048D2*+G*V80905C** CHPF048D2*+G*V81155C** CHPF048D2*+G*V90905D** CHPF048D2*+G*V91155D** H36F+EEP H49F+EEP H49F+G*V80905C** H49F+G*V90905D** AEPT060-00*-1* ARPF048-00B-1* ARPT042-00*-1* ARPT049-00*-1* ARUF042-00*-1* ARUF048-00*-1* ARUF049-00*-1* CA*F042*2*+EEP CA*F060*2*+EEP CA*F060*2*+G*V80905C** CA*F060*2*+G*V90905D** CA*F061*2*+G*V81155C** CA*F061*2*+G*V91155D** CHPF048D2*+EEP CHPF048D2*+G*V80905C** CHPF048D2*+G*V90905D** CHPF060D2*+G*V81155C** CHPF060D2*+G*V91155D** H49F+EEP H60F+EEP H60F+G*V80905C** H60F+G*V90905D** Total BTUH 33.000 36.300 26.500 40.500 26.000 30.20 12.50 10.700 30.50 13.000 36.00 11.500 26.300 26.50 11.500 26.50 13.50 11.200 26.500 39.200 29.50 12.600 33.30 12.000 36.000 36.000 34.50 11.000 36.000 36.50 11.30 11.200 30.300 26.00 11.50 11.000 36.00 11.700 30.000 34.400 36.00 11.50 11.700 30.00 13.50 11.500 41.000 36.000 36.50 11.00 12.00 10.00 11.00 12.300 26.000 41.200 30.50 11.500 30.000 36.500 39.000 30.50 13.200 30.50 10.00 11.50 10.000 PRODUCT SPECIFICATIONS ARI Ref.700 30.500 26.00 12.00 13.50 11.00 10.00 10.300 26.50 10.50 12.00 13.300 26.00 13.00 13.50 11.50 10.00 12.000 34.000 30.00 12.00 13.00 11.00 10.000 40.300 26.50 10.300 26.500 26.00 13.50 10.000 40.50 11.000 39.00 11.00 13.300 30.50 11.00 11.000 40.20 12.500 40.500 30.00 10.000 40.50 11.00 11.700 29.50 11.000 40.50 10.00 11.300 26.000 41.50 10.30 12.300 26.300 24.200 29.000 36.00 12.50 10.000 30.50 11.300 26.00 13. ) Condenser Evaporator Model AEPT060-00*-1* ARPF048-00B-1* ARPT049-00*-1* ARUF048-00*-1* ARUF049-00*-1* CA*F060*2*+EEP CA*F061*2*+EEP CA*F061*2*+G*V80905C** CA*F061*2*+G*V81155C** CA*F061*2*+G*V90905D** CA*F061*2*+G*V91155D** CHPF048D2*+EEP CHPF060D2*+EEP CHPF060D2*+G*V80905C** CHPF060D2*+G*V81155C** CHPF060D2*+G*V90905D** CHPF060D2*+G*V91155D** H60F+EEP H61F+EEP H61F+G*V80905C** H61F+G*V90905D** AEPT060-00*-1* ARPF060-00B-1* ARPT061-00*-1* ARUF060-00*-1* ARUF061-00*-1* CA*F060*2*+EEP CA*F061*2*+EEP CA*F061*2*+G*V80905C** CA*F061*2*+G*V81155C** CA*F061*2*+G*V90905D** CA*F061*2*+G*V91155D** CHPF060D2*+EEP CHPF060D2*+G*V80905C** CHPF060D2*+G*V81155C** CHPF060D2*+G*V90905D** CHPF060D2*+G*V91155D** H60F+EEP H61F+EEP H61F+G*V81155C** H61F+G*V91155D** Total BTUH 46.80 10.300 34.00 12.00 10.00 11.000 47.000 44.000 55.50 12.000 54.00 12.30 12.80 10.00 11. 36 Decibel SEER EER .50 10.80 10.00 12.) Note: XX of A Model Designate Electric Heat Quantity.80 10.50 10.50 10.00 11.80 13.50 12.30 12.150 40.00 11.000 45.150 40.20 11.150 40.80 10.300 34.) Energy Efficiency Ratio @ 80 °F/67 °F Inside .300 34.Order from Service Dept. Part No.000 47.500 41. B13707-38 or new Solid State Board B13707-35S.80 10.000 42.00 12.00 12.00 11.50 12.000 47.PRODUCT SPECIFICATIONS Performance Ratings (cont.000 47.00 12.000 55.30 12.95 °F 3.00 11.30 12.000 55.800 34.50 10.30 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 NOTES: 1. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.200 39.200 40.500 41.000 55.20 12.150 41.300 34.000 47.50 12. 5.000 45.50 10.00 12.000 56.000 45.000 55.00 10.000 55.50 10. Part No.300 34.00 12.50 10.000 47.50 12.300 32.00 12.300 34.30 12.000 Sensible BTUH 34.000 47.00 11.150 41.000 47.00 10.000 55.000 47.300 32.00 11.20 12.80 10.30 12.00 12.00 11.80 10.00 10.50 12.80 10.150 ARI Ref.000 47.800 34.000 55.50 12.000 47.50 11. # 517561 517599 517577 517595 517602 503553 503555 520968 520971 503556 503557 503563 503564 520964 520962 503565 503566 503573 503574 527382 527367 517614 517575 517582 517560 517563 503593 503594 520952 520970 520827 503595 503600 520949 520955 520829 503601 503605 503606 527388 527368 CLJ CLJ48-1* CLJ60-1* 11.200 40.800 32.50 10.000 56.000 45.000 55.00 11.00 12.50 12.20 12.000 55.000 45.50 12.000 39. The Goodman Gas Furnace contains the EEP cooling time delay.50 10.30 12.000 53.000 45.300 32.50 10.) EEP .300 34.000 55.00 12.800 32.200 40.) When matching the outdoor unit to the indoor unit.000 47.500 42.50 12.00 10.30 12.30 12.000 55.50 10.00 10.50 11.000 39.800 31.000 56.800 34.300 34.) Seasonal Energy Efficiency Ratio 2.00 10.300 34.300 34.50 11.000 47.30 12.80 10.50 10.300 40.800 32.200 41.150 40. B13707-38 is not interchangeable with B13707-35S.150 40.00 12.000 53.000 55. 4.50 10.500 42.000 53. 9 1.2 Maximum 20 20 30 30 30 40 50 Maximum Minimum Compressor Volts Volts RLA LRA 253 253 253 253 253 253 253 197 197 197 197 197 197 197 9.1 1.6 12. SUCTION CONN.1 45 63 83 77 95 104 137 Condenser Fan FLA 0.CLT Specifications Service Valve Model CLT24-1A/-1B CLT30-1A/-1B CLT36-1A/-1B CLT36-1C CLT42-1A/-1B CLT48-1A/-1B CLT60-1/-1B Liquid 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction 3/4” 3/4” 3/4” 3/4” 7/8” 7/8” 7/8” PRODUCT SPECIFICATIONS Type Sweat Sweat Sweat Sweat Sweat Sweat Sweat Approximate Shipping Weight (pounds) 173 208 209 195 258 270 271 NOTE: The -*B models are painted in Architectural Gray.4 16.6 1.6 1.5” CLT48 = 40" CLT60 = 40" 1-1/8" DIA. CONTROL LIQUID CONN.2 14. 2) May use fuses or HACR type Circuit Breakers of the same size as noted. Dimensions MEDIUM CHASSIS = 29" MEDIUM CHASSIS = 29" CLT24 = 25" CLT30 = 30" CLT36 = 30" CLT42 = 37. 37 .6 1.4 24.1 29. POWER ADDITIONAL 1 -1/2" ELEVATED CHANNEL FORMED INTO BOTTOM PAN 7/8" DIA.6 22.8 14.6 HP 1/6 1/6 ¼ ¼ ¼ ¼ ¼ 1) Wire size should be determined in accordance with National Electrical Codes.0 22.4 20.6 18.9 16.6 1. Electrical Data Model CLT24-1A/-1B CLT30-1A/-1B CLT36-1A/-1B CLT36-1C CLT42-1A/-1B CLT48-1A/-1B CLT60-1/-1B Volts 208/230 208/230 208/230 208/230 208/230 208/230 208/230 PH 1 1 1 1 1 1 1 Minimum Circuit Ampacity1 12. All other models are painted in Bahama Beige. Extensive wire runs will require larger wire sizes.1 19. 250 21.400 27.500 16.5 12.600 26.800 16.5 11.5 12 12.400 22.600 26.5 10.5 13 14 13 14 14 14 14 14 EER 10.000 22.250 SEER 12 12 13 12 13 14 13 12 13 13 14 12 13 13 12 12 13 13 14 14 14 14 14 14 14 12.5 12.000 26.100 20.500 16.600 27.250 20.000 22.400 22.500 16.5 11 10.000 26.5 12. 38 .250 20.000 21.5 11 11.250 20. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.000 22.250 20.100 20.5 12.5 11.800 16.5 11.000 27.500 16.300 20.5 11.5 10.800 15.250 20.5 11.400 21.000 Sensible BTUH 15.000 26.500 16.5 11.500 16.800 16.000 22.5 11.600 27.5 CLT ARI Ref.000 26.250 20.800 16.6 12 12.5 10.95 °F 3) When matching the outdoor unit to the indoor unit.500 16.000 22.000 27.000 27.500 16.000 27. B13707-38 is not interchangeable with B13707-35S.5 11.000 27.5 11.5 13 13 14 13 13 14 13 13 13 14 12.5 12.5 12.5 11 10.000 25.800 15.000 22.5 11.250 18.5 12.500 15.5 11 11.5 11.500 16.000 22.000 27.5 10.100 21.5 12.5 12.500 16.5 12.000 21.250 20.PRODUCT SPECIFICATIONS Performance Ratings Condenser Evaporator Model AC24-XX AWB24-XX AWB36-XX CA*F030*2*+EEP CA*F036*2*+EEP CA*F042*2*+G*V90704C** CA*F048*2*+EEP CHPF024A2*+EEP CHPF030A2*+EEP CHPF036B2*+EEP CHPF042B2*+G*V90704C** H24F+EEP H36F+EEP H49F+EEP ARUF024-00*-1* ARPT024-00*-1* ARUF032-00*-1* ARPT032-00*-1* AEPT030-00*-1* H36F+GV90453B** CA*F042*2*+G*V80704B** CHPF042B2*+G*V80704B** H36F+GV80704B** CA*F030*2*+G*V80704B** CHPF030A2*+G*V80704B** AC30-XX AWB30-XX AWB36-XX CA*F030*2*+EEP CA*F042*2*+EEP CA*F042*2*+G*V90704C** CHPF030A2*+EEP CHPF036B2*+EEP CHPF042B2*+G*V90704C** H36F+EEP H49F+EEP ARPT032-00*-1* AEPT036-00*-1* ARPT036-00*-1* ARUF030-00*-1* ARUF036-00*-1* ARUF032-00*-1* H49F+G*V90704C** CHPF042B2*+EEP H49F+G*V80704B** CHPF042B2*+G*V80704B** CA*F042*2*+G*V80704B** CA*F030*2*+G*V80704B** CHPF030A2*+G*V80704B** Total BTUH 21.000 22. The Goodman Gas Furnace contains the EEP cooling time delay.500 16.250 18.400 26.5 12.000 22.500 16.000 22.5 10.5 12.000 22.5 12.000 22.5 12. 5) EEP .5 12.500 15.400 21.300 20. 4) Note: XX of a model designates Electric Heat Quantity.000 26.000 22.600 28.400 22.500 16.5 12.400 21.400 22.Order From Service Dept. B13707-38 or new Solid State Board B13707-35S.400 22.600 28.5 12.800 16.600 27.5 11.5 11.5 10.500 16.000 22.100 21.250 20. # Decibel 503821 503827 503828 503829 503832 503833 503834 503839 503840 503843 503844 503850 503851 503853 517555 517558 517565 517566 517567 527372 551577 551581 551587 551588 551593 503863 503870 503871 503872 503875 503876 503881 503884 503885 503890 503891 517564 517585 517588 517598 517600 517615 527370 535499 551574 551575 551578 551580 551584 CLT24-1* 74 CLT30-1* 74 NOTES: 1) Seasonal Energy Efficiency Ratio 2) Energy Efficiency Ratio @ 80 °F/67 °F Inside .000 26.800 15.5 11.950 19.100 20.000 25. Part No.250 20.000 28.500 19.250 20.5 12. Part No.5 11.5 11.950 19.000 19. 5 10.5 10.5 12.000 30.5 12.5 12.5 12.000 39.200 26.5 12.000 36. 4) Note: XX of a model designates Electric Heat Quantity.5 10.5 10.000 36.5 12.5 12.000 35.200 26.5 13 14 14 12 12.5 13 14 14 12.000 41.200 23.000 34.800 26.5 11.5 11 11. B13707-38 or new Solid State Board B13707-35S.5 12.000 36.800 36.200 26.000 34.5 12.5 11 10.000 29.000 39.5 12.5 13 13 13 12.5 11 11.800 36.000 40.000 36.000 36.000 30.5 13 14 14 12 12.000 30.200 24.5 11.800 26.000 PRODUCT SPECIFICATIONS Sensible BTUH 23.000 41. B13707-38 is not interchangeable with B13707-35S.800 24.800 23.000 41.000 35.200 26.5 12.000 28.000 41. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.000 36. Part No.CLT Performance Ratings (cont.000 36.800 23.000 36.000 29.000 30.000 34.000 40.5 11 11.200 26.5 13 14 14 12.5 11.200 26.000 33.5 11 11.5 11 12.5 11.000 30.660 26.000 30.000 41. The Goodman Gas Furnace contains the EEP cooling time delay.5 12. # Decibel 503907 503908 503909 503910 503911 503912 503919 503920 503921 503922 503929 503930 503933 517549 517551 517576 517581 517591 517616 521163 521164 521166 521172 521646 527385 527394 503950 503951 503952 503953 503954 503961 503962 503963 503964 503965 503973 503974 503975 517552 517618 517620 517623 517631 517633 521173 521183 521192 521194 CLT36-1* 74 CLT42-1* 74 NOTES: 1) Seasonal Energy Efficiency Ratio 2) Energy Efficiency Ratio @ 80 °F/67 °F Inside .000 41.5 ARI Ref.5 12.5 12 12 13 14 14 14 14 EER 11 10.000 28.) Condenser Evaporator Model AWB36-XX CA*F036*2*+EEP CA*F042*2*+EEP CA*F048*2*+EEP CA*F048*2*+G*V90905D** CA*F048*2*+G*V91155D** CHPF036B2*+EEP CHPF048D2*+EEP CHPF048D2*+G*V90905D** CHPF048D2*+G*V91155D** H49F+EEP H60F+EEP H61F+EEP ARPT049-00*-1* ARUF042-00*-1* AEPT036-00*-1* ARUF048-00*-1* ARPT036-00*-1* ARUF036-00*-1* CHPF048D2*+G*V80905C** CA*F048*2*+G*V80905C** CHPF048D2*+G*V81155C** CA*F048*2*+G*V81155C** AC36-XX H60F+G*V90905D** H60F+G*V80905C** CA*F042*2*+EEP CA*F060*2*+EEP CA*F061*2*+EEP CA*F061*2*+G*V90905D** CA*F061*2*+G*V91155D** CHPF042B2A+EEP CHPF048D2*+EEP CHPF060D2*+EEP CHPF060D2*+G*V90905D** CHPF060D2*+G*V91155D** H49F+EEP H60F+EEP H61F+EEP AEPT060-00*-1* ARPT049-00*-1* ARUF048-00*-1* ARUF042-00*-1* ARPT042-00*-1* ARUF049-00*-1* CA*F061*2*+G*V80905C** CA*F061*2*+G*V81155C** CHPF060D2*+G*V80905C** CHPF060D2*+G*V81155C** Total BTUH 34.200 23.200 28.000 30.000 SEER 12 12 12.000 36.200 26.000 36.000 41.000 40.5 11 11.000 41.5 10.5 12.000 41.95 °F 3) When matching the outdoor unit to the indoor unit.000 41.000 41.000 28.000 39.5 12.000 35.000 29.5 14 13 12 12 14 14 14 14 12 14 14 12 12.660 26.200 26.5 10.5 11 11.000 39.5 12.000 41.000 30.000 29.5 10.200 23.5 12.000 30.000 33.5 12.000 40.000 30.000 30.800 26.000 29.5 13 14 13 12.200 26.000 30.200 24.000 41.200 26.000 36.Order From Service Dept.000 36.800 26.000 36.5 11.000 41. Part No.000 30.000 30.200 26. 5) EEP . 39 .5 12.000 39.000 36.000 36. 200 39.200 40.000 52.000 45.5 13 13.78 ARI Ref.5 11 11.700 33.000 53.3 13.8 11.000 45.5 13 13.5 12. B13707-38 is not interchangeable with B13707-35S.700 33.700 40.3 13.200 40.000 53. use the piston supplied with the outdoor unit or that specified on the piston kit chart supplied with the indoor unit.5 11.000 53.000 43.000 45.700 31.000 33.200 40.200 40.5 11 11 11.8 11.000 45.000 44.700 33.5 12.) Condenser Evaporator Model CA*F048*2*+EEP CA*F060*2*+EEP CA*F061*2*+EEP CA*F061*2*+G*V90905D** CA*F061*2*+G*V91155D** CHPF048D2*+EEP CHPF060D2*+EEP CHPF060D2*+G*V90905D** CHPF060D2*+G*V91155D** H49F+EEP H60F+EEP H61F+EEP ARUF049-00*-1* ARUF048-00*-1* ARPT049-00*-1* AEPT060-00*-1* CHPF060D2*+G*V81155C** CHPF060D2*+G*V80905C** CA*F061*2*+G*V81155C** CA*F061*2*+G*V80905C** H61F+G*V91155D** H61F+G*V81155C** CA*F061*2*+EEP CA*F061*2*+G*V91155D** CHPF060D2*+EEP CHPF060D2*+G*V91155D** H61F+EEP AEPT060-00*-1* ARUF060-00*-1* ARPT061-00*-1* ARUF061-00*-1* CHPF060D2*+G*V90905D** CA*F061*2*+G*V90905D** CHPF060D2*+G*V80905C** CA*F061*2*+G*V81155C** CA*F061*2*+G*V80905C** CHPF060D2*+G*V81155C** H61F+G*V91155D** H61F+G*V81155C** Total BTUH 43.8 11.000 45. Part No. The Goodman Gas Furnace contains the EEP cooling time delay.200 40.5 13 13.000 53.000 33. B13707-38 or new Solid State Board B13707-35S.8 10.000 33.000 53.8 11.000 33.5 13.5 13 13 12.000 44.000 53.3 EER 11 11 11.000 52.5 13.5 12 12 12 12 12 12 12 11.000 33.5 13.5 12 12 11 11 11.000 45.000 43. Part No. 4) Note: XX of a model designates Electric Heat Quantity.000 53.5 13.700 33.5 13.5 12.700 33. 40 .95 °F 3) When matching the outdoor unit to the indoor unit.700 33.700 33.700 33.400 33.000 53.200 SEER 12.700 40.200 40.8 10.000 45.700 33.5 13. 5) EEP .000 44.5 12 12 11 11.200 40.700 33.5 12.200 39.3 13 13.700 33.000 45.000 53.000 45.8 11.5 13 13.5 13.3 13.000 53.5 12.700 39.200 40.000 52.700 40.000 33.000 32.3 13 13 12 12.000 44.500 45.000 Sensible BTUH 31.8 11.3 13.5 13.000 53.8 11. # Decibel 503996 503997 503998 503999 504000 504007 504008 504009 504010 504017 504018 504019 517622 517624 517628 517634 521184 521186 521191 521197 527374 527378 504037 504038 504042 504043 504047 517619 517629 517630 517632 520816 520826 521175 521178 521179 521189 527365 527377 CLT CLT48-1* 74 CLT60-1* 74 NOTES: 1) Seasonal Energy Efficiency Ratio 2) Energy Efficiency Ratio @ 80 °F/67 °F Inside .3 13.5 13.700 40.500 44.000 53.5 11.000 45.000 52.Order From Service Dept.000 45.000 33.000 45.PRODUCT SPECIFICATIONS Performance Ratings (cont.5 11.200 40.3 13.000 53.3 13.200 39.000 44.8 11.5 11. 055 ” ¾” Sweat 102 0.000 13 78 7.055 ” ¾” Sweat 99 0.400 13 74 9.D.059 ” ¾” Sweat 107 0.088 208/230-1 29.6 ” ¾” Sweat 140.) Valve Type Refrigerant Charge Shipped with Orifice Size Electrical Data Voltage-Hz / Phase Min.2 50 197/253 ¾” 271 19.000 13 74 14.1 40 197/253 ¾” 270 CRT60-1 53.1 30 197/253 ¾” 209 CRT36-1A 36.12 0. * Maximum Overcurrent Device DIMENSIONS 29" 29" CRT24 = 25" CRT30 = 30" CRT36 = 30" CRT42 = 37.CRT SPECIFICATIONS CRT18-1 Capacities Nominal Cooling (BTU/h) SEER Decibels Compressor RLA LRA Condenser Fan Motor Horsepower FLA Refrigeration System Liquid Valve Size (“O.2 35 / / / / 1.6 45 1 6 CRT24-1A 23.6 ” ” Sweat 145 0.) Suction Valve Size (“O.12 0.065 1 6 PRODUCT SPECIFICATIONS CRT24-1 22.000 13 74 14.1 137 ¼ 1.D.8 83 ¼ 1. 41 .9 1. 2 May use fuses or HACR-type circuit breakers of the same size as noted.8 83 ¼ 1.9 20 197/253 ¾” 173 208/230-1 11.074 208/230-1 20.074 208/230-1 20.4 30 197/253 ¾” 258 CRT48-1 45.000 13 74 16.1 Notes: 1 Wire size should be determined in accordance with National Electrical Codes.000 13 78 6. CONTROL LIQUID CONN.000 13 74 12.000 13 74 18 104 ¼ 1.000 13 74 22.6 ” ” Sweat 125 0.5 1. SUCTION CONN. Circuit Ampacity1 MOD* (amps)2 Min / Max Volts Power Supply Conduit Size Ship Weight (lbs) 208/230-1 9.6 ” ¾” Sweat 140.6 ” ” Sweat 139.7 40 1 6 CRT30-1 28.082 208/230-1 24.2 20 15 197/253 ¾” 208 208/230-1 16.5 0.13 0.1 30 197/253 ¾” 195 CRT42-1 41.6 95 ¼ 1.3 15 197/253 ¾” 173 208/230-1 12.5” CRT48 = 40" CRT60 = 40" 1-1/8" DIA. POWER ADDITIONAL 1 -1/2" ELEVATED CHANNEL FORMED INTO BOTTOM PAN 7/8" DIA.4 20 197/253 ¾” 208 ” ¾” Sweat 94 0. Extensive wire runs will require larger wire sizes.080 208/230-1 22.2 63 1 6 CRT36-1 36. 5 11.250 14.500 16.5 10.000 18.5 10.500 16.5 11.5 11.2 10.5 11.000 22.000 19.000 22.800 15.500 16.2 11.5 10.5 11.400 22.000 19.000 22.000 22.000 22.000 19.000 19.5 12.250 14.400 21.5 12.500 16.800 16.250 15.600 19.5 11.5 10.500 16.5 11.700 14.600 19.5 12.000 22.000 22.400 21.2 11.500 15.000 19.250 14.000 22.5 11.000 19.800 16.5 ARI Ref.250 14.400 22.250 14.000 22.800 13 14 13 13 13 13 13 13 14 14 13 14 14 13 14 14 12 14 12 13 12 13 12 13 12 14 13 14 14 13 12 13 14 13 14 14 12 13 14 14 13 11.250 14.400 Sensible BTU/h SEER¹ EER² 13.500 16.700 14.5 11.5 11.500 13.5 12.2 12.000 22.400 22.800 15.000 21.250 13.5 12.5 10.5 12.500 16.500 16.5 12.5 11.800 16.000 19.000 22.000 21.5 11.000 22.400 22.500 14.500 16.500 14.2 12.5 12.5 11.5 12.400 21.5 11.PRODUCT SPECIFICATIONS PERFORMANCE RATINGS Condenser Indoor Model AC18-XX / ACNF18XX1A* AEPT030-00*-1* ARPF036-00B-1* ARPT032-00*-1* ARUF032-00*-1* AWB24-XX AWUF18XX1A* CRT18-1* CA*F030*2*+EEP CA*F030*2*+G*V80704B** CA*F030*2*+G*V90704C** CHPF030A2*+EEP CHPF042B2*+G*V80704B** CHPF042B2*+G*V90704C** H36F+EEP H36F+G*V80704B** H36F+G*V90704C** AC24-XX AEPT030-00*-1* ARPT024-00*-1* ARPT032-00*-1* ARUF024-00*-1* ARUF032-00*-1* AWB24-XX AWB36-XX CA*F030*2*+EEP CA*F030*2*+G*V80704B** CA*F037*2*+EEP CA*F042*2*+G*V80704B** CRT24-1 CA*F042*2*+G*V90704C** CA*F048*2*+EEP CHPF024A2*+EEP CHPF030A2*+EEP CHPF030A2*+G*V80704B** CHPF036B2*+EEP CHPF042B2*+G*V80704B** CHPF042B2*+G*V90704C** H24F+EEP H36F+EEP H36F+G*V80704B** H36F+GV90453B** H49F+EEP Total BTU/h 18.000 18.250 14.000 22.000 22.000 19.5 10.5 12.500 16.800 15.500 15.250 14.5 12.250 14.500 16.500 16.5 12. # 798615 798610 823883 823880 823885 798612 798613 823881 798617 798614 823878 798611 823879 798616 823884 823882 539687 539795 539712 539710 539814 539784 539772 539794 539323 551600 539334 551586 539819 539332 539322 539327 551602 539335 551576 539703 539319 539321 551568 539722 539325 CRT dBs 78 76 42 .000 22.2 11.500 16.000 19.000 19.000 21.000 19.2 12.200 16.5 12.500 16.800 16. 400 27.5 ARI Ref.250 18.000 23.400 23.600 27.600 26.000 26.5 12.250 17.5 11.5 12.000 25.5 11.100 19.000 23.000 23.000 25.5 11.CRT PERFORMANCE RATINGS (CONT.550 17.000 27.250 17.5 12.550 17.300 20.5 12.400 23.5 12.000 23.250 18.000 PRODUCT SPECIFICATIONS Sensible BTU/h SEER¹ EER² 17.400 27.000 27.000 28.600 23.5 11.000 20.2 12.000 27.250 20.2 12.) Condenser Indoor Model AEPT030-00*-1* ARPT032-00*-1* ARUF032-00*-1* AWB36-XX CA*F030*2*+EEP CA*F030*2*+G*V80704B** CA*F030*2*+G*V90704C** CA*F037*2*+EEP CA*F037*2*+G*V80704B** CRT24-1* CA*F037*2*+G*V90704C** CA*F042*2*+EEP CHPF030A2*+EEP CHPF030A2*+G*V80704B** CHPF042B2*+G*V80704B** CHPF042B2*+G*V90704C** H36F+EEP H36F+G*V90704C** H36F+GV80704B** H49F+EEP AC30-XX AEPT036-00*-1* ARPT032-00*-1* ARPT036-00*-1* ARUF030-00*-1* ARUF032-00*-1* ARUF036-00*-1* AWB30-XX AWB36-XX CA*F030*2*+EEP CA*F030*2*+G*V80704B** CRT30-1* CA*F042*2*+EEP CA*F042*2*+G*V80704B** CA*F042*2*+G*V90704C** CHPF030A2*+EEP CHPF030A2*+G*V80704B** CHPF036B2*+EEP CHPF042B2*+EEP CHPF042B2*+G*V80704B** CHPF042B2*+G*V90704C** H36F+EEP H49F+EEP H49F+G*V80704B** H49F+G*V90704C** Total BTU/h 23.300 20.000 27.5 11.000 23.5 11.400 23.5 11.5 11 11.250 17.250 17.000 26.000 26.000 23.100 19.250 14 13 13 13 13 14 14 13 14 14 13 13 14 14 14 13 14 14 13 12.250 21.250 17.250 20.000 26.5 11.100 20.250 20.000 23.600 23.2 12.250 20.950 19.5 11.600 28.2 11.5 11.600 26.5 12.600 27.5 12.400 23.000 23.950 20.250 20.5 12.250 20.5 12 13 12.000 28.5 13 14 13 14 14 13 14 13 13 14 14 13 13 14 14 12.000 27.250 21.100 21.2 12.250 17.5 11 10.600 26.700 17.600 26.000 23.550 17.000 23.250 20. # 830395 830401 830400 830396 830404 830412 830405 830411 830409 830406 830408 830397 830403 830410 830399 830398 830394 830407 830402 539689 539698 539756 539695 539783 539732 539734 539728 539770 539337 551567 539330 551598 539705 539333 551579 539320 539329 551592 539803 539331 539326 551596 539740 dBs 78 76 43 .250 17.5 11.5 11 10.400 20.2 11.550 17.250 17.400 20.5 12.2 11.5 11 12.5 11.700 19.6 14 13 12.100 20.2 11.2 11.5 12.5 12 12.600 26.250 17.5 12.5 12.000 27.250 17.550 17.700 17.000 23.400 23.2 12.250 17. 200 26.000 41.5 12.000 36.000 34.800 26.5 12.200 23.000 41.200 24.200 26.000 30.5 13 14 14 13 14 12 13 12 12.000 30.800 23.000 35.000 36.000 28.5 11 11.000 30.5 11 10.5 11 11.660 26.000 29.000 30.5 12.000 12 14 12 13 12 12.000 41.000 41.000 36.5 12.000 29.000 39.5 10.5 11 11.5 13 14 14 14 10.200 26.000 41.000 30.5 13 12 12 12.000 26.200 26.000 Sensible BTU/h SEER¹ EER² 23.000 36.5 13 14 14 12.000 36.000 36.200 26.) Condenser Indoor Model AC36-XX AEPT036-00*-1* ARPT036-00*-1* ARPT049-00*-1* ARUF036-00*-1* ARUF042-00*-1* ARUF048-00*-1* AWB36-XX CA*F036*2*+EEP CA*F042*2*+EEP CA*F048*2*+EEP CRT36-1* CA*F048*2*+G*V80905C** CA*F048*2*+G*V81155C** CA*F048*2*+G*V90905D** CA*F048*2*+G*V91155D** CHPF036B2*+EEP CHPF048D2*+EEP CHPF048D2*+G*V80905C** CHPF048D2*+G*V91155D** H49F+EEP H60F+EEP H60F+G*V80905C** H60F+G*V90905D** H61F+EEP AEPT060-00*-1* ARPT042-00*-1* ARPT049-00*-1* ARUF042-00*-1* ARUF048-00*-1* ARUF049-00*-1* CA*F042*2*+EEP CA*F060*2*+EEP CA*F061*2*+EEP CRT42-1* CA*F061*2*+G*V80905C** CA*F061*2*+G*V81155C** CA*F061*2*+G*V90905D** CA*F061*2*+G*V91155D** CHPF042B2A+EEP CHPF048D2*+EEP CHPF060D2*+EEP CHPF060D2*+G*V80905C** CHPF060D2*+G*V81155C** CHPF060D2*+G*V90905D** Total BTU/h 33.800 26.5 12.800 24.000 29.800 24.000 33.000 30.000 36.200 30.200 23.000 34.200 26.000 28.000 40.000 30.000 41.200 23.200 26.000 30.5 12.5 11.5 12.000 36.5 10.800 26.200 26.000 36.000 39.5 13 14 14 14 14 12 12.5 11.5 12.000 30.000 36.200 23.000 41.5 10.000 30.000 41.000 28.5 11 11.000 39.5 10.000 40.5 12.5 10.000 28.5 12.000 34.5 11 11.000 36.5 13 14 14 14 14 12.000 40.000 30.000 34.5 12.5 12.000 41.000 35.5 11 11.5 12.5 10.5 11.5 12.5 ARI Ref.000 36.5 12.600 26.000 39.000 41.5 13 12 12.800 36. # 539749 539684 539715 539796 539778 539729 539804 539713 539336 539324 539760 539686 539747 539725 539748 539328 539721 539706 539818 539805 539766 539738 539812 539811 539753 539817 539759 539768 539755 539692 539696 539739 539767 539691 539724 539799 539791 539700 539779 539697 539769 539789 539714 CRT dBs 76 76 44 .000 36.000 41.5 12.800 26.5 11 11.PRODUCT SPECIFICATIONS PERFORMANCE RATINGS (CONT.5 12.000 35.000 41.800 36. 5 13.000 53.700 40.000 33.000 44.CRT PERFORMANCE RATINGS (CONT.000 45.000 53.000 32.000 45.700 33.700 40.5 13.5 11 11.000 53.5 13 13.000 53.000 53.8 11.000 53.000 45.3 13.5 13 13.5 13.000 33.3 13.000 43.000 45.000 45.200 40.200 39.200 39.000 33.500 44.5 13.000 44.8 11.5 12 11.000 45.5 12 12.5 11.5 12 12 12 12 11 11.000 45.5 10.000 44.000 52.) Condenser Indoor Model CHPF060D2*+G*V91155D** CRT42-1* (cont.5 11 11.200 14 12 12.700 33.000 53.000 45.700 40.700 33.5 13 12.200 40.000 33.000 45.8 11.200 40.5 12.5 12.000 53. # 539781 539777 539744 539816 539785 539730 539727 539720 539774 539718 539737 539733 539702 539764 539754 539797 539788 539731 539763 539782 539741 539786 539716 539743 539773 539758 531546 531553 531539 532385 531558 531555 531557 531560 531535 531540 531552 531538 531550 531537 531534 531543 531561 dBs 76 76 76 45 .5 11 11 11.000 52.8 11.5 13 12.200 40.000 43.000 28.8 11.5 13.000 53.3 13.200 40.700 33.8 ARI Ref.700 31.000 30.5 11 11.8 11.000 45.500 44.700 33.3 13.000 PRODUCT SPECIFICATIONS Sensible BTU/h SEER¹ EER² 30.000 53.000 44.000 43.700 40.3 13.700 33.400 33.700 40.5 12 12 12 12 11 11 11.000 33.3 12.000 52.000 39.5 12.000 45.3 13 13.000 40.8 11.000 33.5 12.000 45.200 40.5 12 12 11.8 11.200 40.700 33.8 11.200 39.5 13.5 13 13.) H49F+EEP H60F+EEP H61F+EEP AEPT060-00*-1* ARPT049-00*-1* ARUF048-00*-1* ARUF049-00*-1* CA*F048*2*+EEP CA*F060*2*+EEP CA*F061*2*+EEP CA*F061*2*+G*V80905C** CA*F061*2*+G*V81155C** CA*F061*2*+G*V90905D** CRT48-1* CA*F061*2*+G*V91155D** CHPF048D2*+EEP CHPF060D2*+EEP CHPF060D2*+G*V80905C** CHPF060D2*+G*V81155C** CHPF060D2*+G*V90905D** CHPF060D2*+G*V91155D** H49F+EEP H60F+EEP H61F+EEP H61F+G*V81155C** H61F+G*V91155D** AEPT060-00*-1* ARPT061-00*-1* ARUF060-00*-1* ARUF061-00*-1* CA*F061*2*+EEP CA*F061*2*+G*V80905C** CA*F061*2*+G*V81155C** CA*F061*2*+G*V90905D** CRT60-1* CA*F061*2*+G*V91155D** CHPF060D2*+EEP CHPF060D2*+G*V80905C** CHPF060D2*+G*V81155C** CHPF060D2*+G*V90905D** CHPF060D2*+G*V91155D** H61F+EEP H61F+G*V81155C** H61F+G*V91155D** Total BTU/h 41.000 45.3 13 13.000 29.5 13 13.000 33.3 13.3 13.000 31.000 53.5 11.8 11 10.700 33.200 40.000 53.700 33.000 41.5 13 13.5 11.700 33.000 53.000 52.5 13.5 13 12.200 39.700 33. PRODUCT SPECIFICATIONS TWC 46 . TWC PRODUCT SPECIFICATIONS 47 . 22 1.000 21.000 22.900 13. Extensive wire runs will require larger wire sizes. ROWS/FINS PER IN 19 NO.000 16.9 60 .15 2.6 30 253 197 12.LOW VOLTAGE CONTROL DIMENSIONAL DATA CIRCUIT (TYPICAL WIRING FOR USE WITH DUCTED INDOOR SECTION *NOTE 24 VOLT CONTACTOR IS FIELD SUPPLIED NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE.PRODUCT SPECIFICATIONS ELECTRICAL DATA +MINIMUM *MAXIMUM COND.400 12.4 SEER = SEASONAL ENERGY EFFICIENCY RATIO KWI = COMPRESSOR + INDOOR BLOWER + OUTDOOR FAN WATTS OD = OUTDOOR DRY BULB TEMPERATURE -DEGREE F ID = INDOOR DRY BULB / WET BULB TEMPERATURE .39 2.8 61 .720 17.9 29 . FAN MAXIMUM MINIMUM COMPRESSOR CIRCUIT OVERCURRENT MOTOR VOLTS VOLTS PROTECTION VOLTS PH HZ AMPACITY RLA LRA FLA HP HDC12-1A 208/240 1 60 8.700 15.4 7.6 1/15 HDC24-1A 208/240 1 60 16.6 1/15 HDC18-1A 208/240 1 60 14.600 17.800 KWI 1.9 3/8” TUBE DIAMETER NO.22 1.400 20.DEGREE F PHYSICAL DATA ITEM HDC12-1A FAN DIAMETER 16” RPM 950 COIL FACE AREA FT2 4.0 15 253 197 5.2 20 253 197 10. 48 .26 SEER 10 10 Sound Rating Bels 7.800 16.1 3/8” 19 20 RIPPLED 3/8” 5/8” FLARE 125 HDC24-1A 18” 950 6.000 15.83 1.000 13.LINE VOLTAGE CONTROL CIRCUIT (TYPICAL WIRING FOR USE WITH DUCTLESS INDOOR SECTION) WIRING DIAGRAM .4 HDC24-1A 10 7.600 7. +Wire size should be determined in accordance with National Electrical Codes.000 SENSIBLE 8. MODEL POWER SUPPLY HDC COOLING PERFORMANCE RATING MODEL OUTDOOR HDC12-1A HDC18-1A INDOOR WMC12-1A ARUF/AW18-XX WMC18-1A ARUF/AW18-XX ARUF/AW24-XX WMC24-1A ARUF24-XX AWM25F-KFAD 95F OD \ 80/67F ID BTUH TOTAL 11.80 1.6 1/15 *May use fuses or HACR type Circuit Breakers of the same size as noted.5 3/8” 19 20 RIPPLED 3/8” 5/8” FLARE 130 WIRING DIAGRAM . OF TUBES 16 FIN TYPE RIPPLED REFRIGERANT CONNECTION LIQUID DIAMETER 3/8” SUCTION DIAMETER 5/8” TYPE FLARE 115 WEIGHT (pounds) HDC18-1A 18” 950 6.91 2.200 13. 000 55.000 55.3 1.8 1.1 21.4 22.3 1.3 12.8 1.000 55.000 Service Valve Liquid 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction 3/4” 3/4” 3/4” 3/4” 7/8” 7/8” 7/8” 7/8” 7/8” PRODUCT SPECIFICATIONS Compressor RLA 9.000 33. extensive wire runs will require larger wire sizes 2) May use fuses or HACR type Circuit Breakers of the same size as noted * With Crankcase Heat **Uses Scroll Compressor 49 .800 29.000 Nominal Heating Capacity (BTUH 18.8 1.6 18.2 17.400 22.8 1.1 18.6 33.4 13 13.8 1.200 41.6 17.7 16.CPLE Specifications Model CPLE18-1C CPLE24-1C CPLE30-1C CPLE36-1C CPLE42-1C CPLE48-1C CPLE48-3C CPLE60-1C CPLE60-3C Nominal Cooling Capacity (BTUH) 17.1 17.000 55.8 Connection Type Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Shipping Weight (pounds) 127 137 140 152 162 178 178 210 210 Electrical Data Model CPLE18-1C CPLE24-1C CPLE30-1C CPLE36-1C CPLE42-1C CPLE48-1C CPLE48-3C CPLE60-1C CPLE60-3C Minimum Circuit Ampacity 13.2 24.1 23.000 22.500 45.800 28.6 25 15.000 45.4 LRA 49 56 75 96 105 102 91 150 124 Condenser Fan HP 1/6 1/6 1/6 1/4 1/4 1/4 1/4 1/4 1/4 FLA 1.000 45.000 41.3 1.000 35.1 Maximum Overcurrent Protection 20 30 30 30 40 40 30 50 30 Voltage-Phase 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-3 208/230-1 208/230-3 Minimum Volts 197 197 197 197 197 197 197 197 197 Maximum Volts 253 253 253 253 253 253 253 253 253 1) Wire size should be determined in accordance with National Electrical Codes.000 45. PRODUCT SPECIFICATIONS Dimensions SMALL CHASSIS = 23’’ LARGE CHASSIS = 29’’ SMALL CHASSIS = 23’’ LARGE CHASSIS = 29’’ CPLE SMALL CHASSIS CPLE36 = 25’’ CPLE42 = 30’’ CPLE48. CONTROL SUCTION CONN.5” 31. 7/8" DIA.5” 31. POWER ADDITIONAL 1-1/2’’ ELEVATED CHANNEL LIQUID CONN.5’’ LARGE CHASSIS 1 -1/8" DIA.5” 26.5” 34” 34” 34” 34” 50 . Model CPLE18-1C CPLE24-1C CPLE30-1C CPLE36-1C CPLE42-1C CPLE48-1C CPLE48-3C CPLE60-1C CPLE60-3C Width 23” 23” 23” 29” 29” 29” 29” 29” 29” Depth 23” 23” 23” 29” 29” 29” 29” 29” 29” Height 24” 31. 60 = 32. 1 7.400 17.21 10.0 16.5 29.000 35.5 9.5 9.400 17.800 2.000 22.000 17.400 17.000 3 10.000 2.5 29.01 7 17. 51 .01 6.5 9.000 3.000 35.200 16.0 22. the indoor unit check-flowrator must match the outdoor unit size.400 16.0 9.0 9.800 22. Part No.5 22.600 31.000 39.01 7 13.400 2 7 13.000 2.2 10.000 2.5 9.8 10.400 28.000 3 10.5 9.2 7 11.3 10. B13707-38 or new Solid State Board B13707-35S.0 9.000 2.5 9.5 41.5 9.1 7.5 28.000 40.000 2.200 3.0 9.800 3 10.3 18.5 18.5 34.000 2.5 20.000 22.400 26.700 13.400 21.0 9.5 22.000 27.5 9.600 2 7 17.5 9.0 21.000 3 10.800 22.5 29.5 22.000 Sensible BTUH 11.200 31.800 3 10.0 9.1 10.0 9.000 2.400 26.8 16.000 22. # Decibels 467302 467330 467338 517358 517376 517357 517370 467325 467300 504120 504121 504123 504124 467244 467344 467343 467334 467346 517354 517363 517361 517364 517356 467357 467297 467308 504239 504241 504288 504289 467247 467296 517360 517373 517362 517372 467351 467311 504240 504242 504290 504296 467278 467279 467309 517375 517367 517371 517366 517369 467329 504238 504245 504291 504295 504297 467277 517359 517365 517355 517368 517390 504249 504298 504301 467291 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 77 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 CPLE18-1* CPLE24-1* CPLE30-1* CPLE36-1* CPLE42-1* 1) 2) 3) 4) 5) 6) Certified per ARI 240 @ 80 °F/67 °F/95 °F TVA Rating Seasonal Energy Efficiency Ratio Energy Efficiency Ratio @ 80 °F/67 °F/95 °F HSPF = Heating Seasonal Performance Factor Order the EEP from the Service Department using Part No.0 9.900 22.5 9.000 35.000 3 10.000 2.09 10.000 2.3 18.01 7.000 2.000 31.000 3 10.800 3 10.5 17.800 2.000 22.400 22.000 17.000 2 6.0 9.1 7.800 27.5 29.000 11.0 41.200 2.000 2 6.01 7 17.800 3 10.000 3 10.0 16.5 34.000 2 7 12.600 2.5 9.000 2.5 9.22 6.000 3.0 17.000 13.09 10.000 2.600 2.0 9.5 9.22 7.0 9.5 18.18 10.5 41.500 3.000 13.400 28.400 19.800 3 10.000 3 10.0 28.600 2.5 18.000 3 10.000 17.200 23.400 3 10.800 29.000 19. When mix-matching outdoor and indoor units.500 24.000 2 7 12.0 9.400 16.000 2.800 2.800 2.000 17.800 2.000 3 10.000 3.3 20.0 33.3 18.0 21.CPLE Performance Ratings Heat Pump Coil or Air Handler AC18-XX AH18 AH24 ARPF024-00B-1* ARPT024-00*-1* ARUF018-00*-1* ARUF024-00*-1* AWB18-XX AWB24-XX CA*F018*2*+EEP CA*F024*2*+EEP CHPF024A2*+EEP CHPF030A2*+EEP H36F+EEP AC24-XX AC30-XX AH24 AH30 ARPF024-00B-1* ARPT024-00*-1* ARPT032-00*-1* ARUF024-00*-1* ARUF030-00*-1* AWB24-XX AWB30-XX AWB36-XX CA*F024*2*+EEP CA*F030*2*+EEP CHPF024A2*+EEP CHPF030A2*+EEP H36F+EEP AC30-XX ARPF036-00B-1* ARPT032-00*-1* ARUF030-00*-1* ARUF032-00*-1* AWB30-XX AWB36-XX CA*F024*2*+EEP CA*F030*2*+EEP CHPF030A2*+EEP CHPF042B2*+EEP H36F+EEP H48F+EEP AC36-XX ARPF036-00B-1* ARPT036-00*-1* ARPT042-00*-1* ARUF036-00*-1* ARUF042-00*-1* AWB36-XX CA*F036*2*+EEP CA*F042*2*+EEP CHPF030A2*+EEP CHPF036B2*+EEP CHPF042B2*+EEP H49F+EEP ARPF048-00B-1* ARPT042-00*-1* ARPT049-00*-1* ARUF048-00*-1* ARUF049-00*-1* CA*F048*2*+EEP CHPF042B2*+EEP CHPF048D2*+EEP H49F+EEP Total BTUH 16.0 9.1 7.0 9.000 3 10.21 10.000 3.600 29.5 9.5 28.0 9.0 9.1 7.5 33.400 16.000 28.1 7 17.0 31.000 19.000 17.5 22.000 16. IV HSPF Heat Cap.0 9.000 3 10.22 7 11.5 18.0 9.000 41.000 27.200 3.0 22.8 17.01 7 12.000 21.400 3 10.08 10.0 9.000 3 10. of Perf.8 10.600 2 7 17.400 13.000 3 10.0 22.000 3 10.8 10.2 6.5 33.0 41.000 40.000 27.0 31.000 17.8 10.5 22.0 9.0 9.200 17.200 23.000 13.000 2 7 13.0 26.000 2.5 41.000 3 10.3 18.000 3 10.5 9.2 10.400 17.000 3 10.8 16.000 2.000 3 10.000 27.000 34.5 18.000 2.1 7.600 2.01 7 12.5 9.000 33. of Perf.5 18.800 22.01 6.5 PRODUCT SPECIFICATIONS 47°F 47° F Coeff.400 22.19 7 11.200 23.000 2.500 3.0 33.700 13.000 3.2 6.000 19.0 9.8 12.600 3 10.2 7 11.0 33.18 10.400 21.0 22.5 41.700 13.0 27.400 16.0 9.1 ARI Ref.000 40.5 9.000 2.0 9.01 7 13.0 33.000 22.400 16.22 6.0 9.000 33.400 23.800 22. SEER Heat Cap.5 18.600 2.000 28.0 28.800 3 10. B13707-38 is not interchangeable with B13707-35S.600 32. See the AR series air handler for coil instructions.0 27.200 3.0 22.3 10.8 15.0 40.000 2 6.800 2.000 3.0 9.800 2.19 7 11.000 11.5 17.600 31.5 22.0 33.000 3.5 9.01 7 13.200 2.400 12.400 2 7 13.0 33.0 17.600 2.3 18.5 9.000 21.82 10.5 18.000 2 7 17.0 22.800 21.1 7.5 22.600 EER 9.0 9.000 2.1 7.000 3.000 2.000 22.8 16.900 23.400 3 10.5 9.01 7 17.2 17°F Region 17°F Coeff.400 21.22 7 11.800 2.8 16.5 9.5 21.18 10.000 41.000 3 10.600 2.400 21.0 21.000 3 10.400 26.0 9.0 9.000 3.5 21.5 22.400 16.5 22.400 28.400 3 10. Rating (Btuh) (COP) 6.400 3 10.600 11.000 19.000 33.400 17.000 21.000 3 10.400 21.400 17.0 17.000 3 10.200 17.0 9.8 17.0 9.0 9.200 3.600 2.000 41.22 7.800 29.000 11.400 3 10. (Btuh) (COP) 10.600 2.600 3 10.000 28.000 3 10.5 9.000 3 10.000 2 7 13.600 3 10.600 33.1 7.01 7.000 32.1 7.000 33.000 28.000 2 7 17.0 39.000 32.000 19.5 9.400 22.0 9.5 9.2 6.400 3 10.000 2.1 7.200 26.400 17.000 2 6.400 11.22 7.000 2.8 9.400 17.800 2 7 13.000 2.000 3 10.000 16.000 41.000 3.0 17.000 2 6.800 31.8 16.000 2.3 10.5 18.0 9.5 21.5 9.5 18.2 10.5 29.01 6.600 2 7.000 3 10.0 9.200 3.2 6.800 22.000 16.5 9.000 3 10.400 3 10.5 29.800 22.01 7 12.1 7.5 21.000 27.400 17.000 17.600 31.8 10.800 2.19 6.000 3 10.800 3 10.0 21.0 9.5 41.3 18.000 2 7 12.000 2 7 12.5 9.000 21.000 2.09 10.000 35.800 2.19 7 11.0 33.400 17.8 10.8 10.5 9.800 22.5 9.000 2.000 41.01 7 13.0 21.200 2.000 2.09 10.01 7.000 17.500 3. 0 43.0 9.900 EER 9.5 26.000 2.5 26.000 45.0 9.000 45.15 10.000 55.5 25.600 35.0 52.5 26.09 10.0 9.900 39.000 3.28 8 32.31 8 32.13 7.900 39.0 52.900 39.000 45.0 9.000 2.0 9.000 44. # Decibels 517380 517396 517384 517385 517379 517383 516556 516565 516552 516570 516559 516560 517393 517395 517391 517389 517381 517392 516568 516554 516558 516585 516572 516587 517387 517386 517388 516597 516574 516579 517397 517382 517394 516592 516590 516589 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 80 77 77 77 77 77 77 77 77 77 77 77 77 CPLE48-1* CPLE48-3* CPLE60-1* CPLE60-3* 1) 2) 3) 4) 5) 6) Certified per ARI 240 @ 80 °F/67 °F/95 °F TVA Rating Seasonal Energy Efficiency Ratio Energy Efficiency Ratio @ 80 °F/67 °F/95 °F HSPF = Heating Seasonal Performance Factor Order the EEP from the Service Department using Part No.000 2.000 45.5 25.0 43.600 35.000 3.0 44.1 7.000 44.5 25.0 44.400 2.000 55.000 3.000 2.400 2.0 9.0 9.16 7.000 55.15 10.000 3.0 47°F 47° F Coeff.000 34.000 44.0 9.000 2.16 7.000 3.5 26.900 39.13 7.0 9.0 52.12 10.0 44.000 2.1 7.0 43.000 3.0 9.09 10.900 39.0 9.000 2.0 9.0 55. B13707-38 is not interchangeable with B13707-35S.12 10.5 25.000 2.0 43.0 9. Part No.000 45.000 55.000 3.000 45.0 55.0 9.3 10.000 3.000 2.3 10.900 39.0 9.000 2.000 54.600 35.000 34.5 26.0 9.0 55.000 3.0 9.000 3.3 10.000 2. SEER Heat Cap.09 10.5 25.000 44.000 3.000 Sensible BTUH 34.600 35.31 8 32.000 45.000 34.000 44.5 25.0 44.0 44.3 8 32.000 3.0 44.000 34.000 3.000 45.13 7.000 44. the indoor unit check-flowrator must match the outdoor unit size.16 7.1 7.12 10.0 9.0 9.000 2.000 55.000 3.3 17°F Region 17°F Coeff.600 35.1 7.000 3.16 8 32.000 2.000 44.1 7.3 10.600 35. See the AR series air handler for coil instructions.0 9.12 10.400 2.600 35.000 3.400 2.400 2.15 10.09 10.000 3.400 2.0 44.900 39.400 2.000 3.0 9.0 55.000 3.000 2.000 34.3 10.0 9.000 3.1 7.28 8 32.3 10.0 43.000 44.1 7.000 54.0 55.900 39. of Perf.000 3.000 2.31 CPLE ARI Ref.12 10.3 10.0 9.5 25.0 9.000 2.000 39.0 43.12 10.3 10.12 10.000 2.0 43.28 8 32.3 10.12 10.000 3. When mix-matching outdoor and indoor units. Rating (Btuh) (COP) 7.000 3.000 34.900 39.31 8 32.0 9.5 25.1 7.000 34.0 43.000 34.5 26.000 45.5 26.0 44.5 25.0 55.600 35.5 25.13 7.18 10.000 3.12 10. (Btuh) (COP) 10.31 8 32.000 2.0 44.000 3.09 10.12 10.400 2.5 25.0 44.400 2.1 7.000 3. IV HSPF Heat Cap.0 9.5 26.400 2.000 3.900 39.000 3.0 43.5 26.000 44.0 43.0 9.5 26.28 8 32.3 10.PRODUCT SPECIFICATIONS Performance Ratings (cont.03 10.000 45.000 44.000 3.3 8 32.000 55.000 3.600 35.0 9.13 7.5 25.000 45.0 9. of Perf.400 2.0 9.5 26.0 55.0 9.0 52.0 9.000 34.000 2.000 54.000 34.1 7. 52 .000 3.400 2.000 34.000 54.000 45.000 2.000 3.0 55.900 39.0 44.000 55.000 2.000 3. B13707-38 or new Solid State Board B13707-35S.000 2.0 44.000 2.0 43.0 9.15 10.000 3.1 7.16 7.3 10.5 26.0 9.0 43.12 10.18 10.1 7.000 2.31 8 32.600 35.000 55.000 3.000 3.03 10.600 35.0 9.) Heat Pump Coil or Air Handler ARPF048-00B-1* ARPF060-00B-1* ARPT049-00*-1* ARPT061-00*-1* ARUF049-00*-1* ARUF061-00*-1* CA*F060*2*+EEP CA*F061*2*+EEP CHPF048D2*+EEP CHPF060D2*+EEP H60F+EEP H61F+EEP ARPF048-00B-1* ARPF060-00B-1* ARPT049-00*-1* ARPT061-00*-1* ARUF049-00*-1* ARUF061-00*-1* CA*F060*2*+EEP CA*F061*2*+EEP CHPF048D2*+EEP CHPF060D2*+EEP H60F+EEP H61F+EEP ARPF060-00B-1* ARPT061-00*-1* ARUF061-00*-1* CA*F061*2*+EEP CHPF060D2*+EEP H61F+EEP ARPF060-00B-1* ARPT061-00*-1* ARUF061-00*-1* CA*F061*2*+EEP CHPF060D2*+EEP H61F+EEP Total BTUH 44.13 7.600 35.000 44.1 7. H36F+EEP MODEL CPLE24-1* W: AC24-XX MODEL CPLE24-1* W: AWB24-XX MODEL CPLE24-1* W: ARPF024. 31+EEP CA*F030*2*/CHPF030A2*+EEP . ARUF032. ARUF032. AWB30-XX MODEL CPLE24-1* W: ARPF036/ARPT032. 53 . MODEL CPLE30-1* W: AC30-XX. ARUF024. AH18 PRODUCT SPECIFICATIONS MODEL CPLE18-1* W: AWB18-XX MODEL CPLE18-1* W: ARUF018 Heating Performance Expanded Ratings @ 70 ˚F Indoor Ambient MODEL CPLE18-1* W: AWB24-XX MODEL CPLE18-1* W: ARPF024/ARPT024. ARUF032. ARPT024. CA*F024*2*/CHPF024A2*+EEP MODEL CPLE24-1* W: ARUF030.CPLE MODEL CPLE18-1* W: AC18-XX. H36F+EEP CA*F030*2*/CHPF030A2*+EEP . H36F+EEP MODEL CPLE30-1* W: ARPF036/RPT032. AH30 MODEL CPLE30-1* W: CA*F024*2*/CHPF030A2*+EEP MODEL CPLE30-1* W: AWB30-XX MODEL CPLE30-1* W: ARUF030. MODEL CPLE48-1* W: ARPF060/ARPT061/ARUF061.PRODUCT SPECIFICATIONS MODEL CPLE36-1* W: CHPF036B2*+EEP MODEL CPLE36-1* W: AC36-XX. MODEL CPLE60-1*/-3* W: ARPF060/ARPT061/ARUF061.) MODEL CPLE36-1* W: CHPF042B2*+EEP MODEL CPLE36-1* W: ARPT042/ARUF042. AH36 CPLE MODEL CPLE36-1* W: ARPT036/ARUF036. H61F +EEP MODEL CPLE60-1*/-3* W: CA*F060*2*/CHPF048D2*+EEP 54 . CA*F042*2*+EEP MODEL CPLE42-1* W: CHPF048D2*+EEP MODEL CPLE42-1* W: ARPT042/ARUF042 . AWB36. CA*F036*2*/CHPF030A2*+EEP Heating Performance Expanded Ratings @ 70 ˚F Indoor Ambient (cont. H49F+EEP CA*F048*2*/ CHPF048D2*+EEP MODEL CPLE42-1* W: ARPF0498/ARPT049/ARUF049 MODEL CPLE48-1* W: ARPF048/ARPT049/ARUF049. MODEL CPLE42-1* W: ARUF048. H61+EEP CA*F060*2*/CHPF048D2*+EEP . H60F+EEP CA*F060*2*/CHPF048D2*+EEP . 8 18. All other models are painted Bahama Beige.100 1.6 2.100 CFM 6. extensive wire runs will require larger wire sizes.600 6. Dimensions 55 . 2) May use fuses or HACR type Circuit Breakers of the same size as noted.8 HP 1 1 1 1 1) Wire size should be determined in accordance with National Electrical Codes.6 2.1 15. 3) The -3C and -4C models are painted Architectural Gray.CPLE090-120 Specifications Model CPLE090-3/-3C CPLE090-4/-4C CPLE120-3/-3C CPLE120-4/-4C Service Valve Liquid 5/8” 5/8” 5/8” 5/8” Suction 1-3/8” 1-3/8” 1-3/8” 1-3/8” PRODUCT SPECIFICATIONS Approximate Shipping Weight (pounds) 390 390 440 440 Type Sweat Sweat Sweat Sweat Model CPLE090-3/-4/-3C/-4C CPLE120-3/-4/-3C/-4C Fan Fan RPM Diameter 26” 26” 1.8 43.2 Maximum Overcurrent Protection2 60 30 60 35 Minimum Volts 197 414 197 414 Maximum Volts 253 506 253 506 Compressor RLA 25.8 30.3 22.600 Tube Diameter 3/8” 3/8” Face Area (Ft2) 30 30 Rows Deep 1 2 Fins Per Inch 19 16 Fin Type Ripple Ripple R-22 Holding Charge (pounds) 2 2 Electrical Data Model CPLE090-3/-3C CPLE090-4/-4C CPLE120-3/-3C CPLE120-4/-4C Volts 208/230 460 208/230 460 Ph 3 3 3 3 Hz 60 60 60 60 Minimum Circuit Amps1 37.5 LRA 196 100 225 114 Condenser Fan FLA 5.7 12.8 5. 900 54.96 9.2 3.57 6.94 2.500 64.200 56.100 COP 3.96 1.46 3.05 1.500 COP @ 17 ºF 2.400 105.000 @ 208V Expanded Ratings (Heating) COP Plot CPLE090-3/-4/-3C/-4C OD Temp 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 BTUH 113. reduce BTUH by 2.85 3.800 117.4 1) Energy Efficiency Ratio @ 80 °F/67 °F/95 °F = Capacity BTUH @95 F / kWi (kWi = Compressor + Indoor Blower Motor + Outdoor Fan Motor Note: For 3-models.06 6.94 2.50 9.800 62.48 2.300 55.11 2.11 2.100 70.000 68.500 COP @ 47 ºF 3.500 61.51 7.30 56 .000 82.08 7.22 2.72 7.69 2.43 9.39 7.300 44.92 6.37 9.900 47.40 9.49 8.500 78.97 1.69 2.200 86.500 79.1 10.76 8.2 2.91 Watts 8.900 COP 3.05 1.PRODUCT SPECIFICATIONS Performance Ratings at ARI Conditions Model CPLE090-3/-4/-3C/-4C CPLE120-3/-4/-3C/-4C Evaporator Model AR090 AR120 Total Cooling BTUH @ 95 ºF 87.300 67.43 COP Plot CPLE120-3/-4/-3C/-4C OD Temp 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 BTUH 145.20 2.48 2.000 41.500 74.78 6.300 101.66 9.20 2.0 10.38 7.13 8.000 74.91 Watts 11.000 EER1 10.20 2.35 7.400 68.500 58.32 2.000 49.800 130.4 9.500 91.22 2.000 Sensible Cooling BTUH @ 95 ºF 63.4 8.29 9.1 Heating BTUH @ 47 ºF 82.500 95.64 8.68 3.26 7.46 3.2 SRN/ BELS 8.68 3.20 2.94 8.000 109.100 53.41 7.2 CPLE090-120 Heating BTUH @ 17 ºF 53.000 105.85 3.32 2. 4 122.7 128.30 8.9 95.4 65.0 80.3 106.3 80.9 57.68 10.9 87.9 75.0 53.61 9.3 102.1 98.68 9.67 96.2 83.CPLE090-120 OUTDOOR UNIT CPLE090-3/-4/-3C/-4C INDOOR AIR SCFM 75°F WB 72 2465 67 62 57 72 2900 67 62 57 72 3335 67 62 57 TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH PRODUCT SPECIFICATIONS INDOOR UNIT AR090 95°F WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH CONDENSER AIR TEMPERATURE 85°F SENS MBTUH 105°F SENS MBTUH WATTS KWH TOTAL MBTUH 115°F SENS MBTUH WATTS KWH 100.7 84.4 93.5 51.7 67.8 83.17 10.6 89.8 65.9 80.3 50.75 8.87 11.04 8.2 68.3 67.6 107.48 9.75 7.4 113. 75 °F DB and 63 °F WB INDOOR TOTAL MBTUH 82.8 65.18 7.9 100.13 8.70 8.79 12.4 91.25 10.1 95.6 73.5 90.49 7.8 105.82 9. CAPACITIES AT 95 °F OUTDOOR.5 104.22 11.73 9.2 83.4 56.5 62.3 81. Capacities at 95 °F OUTDOOR.9 63.1 72.4 102.3 100.09 11.0 83.8 87.9 SENSIBLE MBTUH 74. For sensible heat capacities at other than 80 °F DB.85 8.1 65.1 76.3 90.6 75.4 78.36 11.8 54.5 131.8 102.3 68.6 61.9 63.9 98.71 11.9 92.50 8.4 68.5 10.2 74.47 10.75 9.6 65.87 8.79 8.8 94.3 61.2 135.3 71.8 113.13 10.4 84.8 105.96 8.93 9.7 73.6 45.36 7.9 73.0 112.4 83.53 7.8 93.2 85.2 62.41 7.4 50.28 9.3 70.9 53.5 92.3 76.1 87.8 109.9 87.3 111.3 85.5 LATENT MBTUH 28.52 11.7 74.9 104.8 55. deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 °F.90 10.17 10.3 80.6 93.2 67.14 9.1 11.5 97.1 125.36 8.4 93.6 91.6 81.18 9.60 9.8 106.0 94.04 9.79 8.6 71.2 73.1 79.32 8.87 11.12 10.6 87.33 10.96 80.5 70.7 58.53 8.1 94.98 11.1 78.73 12.6 40.60 121.1 71.48 Sensible heat capacities shown are based on 80 °F DB entering air at the evaporator coil.65 9.10 7.47 9.8 90.22 8.79 10.22 101.2 99.9 87.7 71.0 8.25 9.5 78.6 98.01 7.01 10.4 98.9 72.9 74.90 10.4 11.1 78.9 49.20 11. or add 84 BTUH PER 100 CFM of evaporator coil air per degree above 80 °F.9 76.7 94.8 41.2 66.79 10.6 52.2 95.39 9.14 10.92 7.7 107.4 47.71 9.4 115.0 69.7 55.2 83.47 10.1 92. deduct 84 BTUH per 100 CFM of evaporator coil air for each degree below 80 °F.89 8.32 8.7 117.1 55.7 101.9 99.5 102.61 8.4 8.9 98.6 97.1 9.22 8.1 79.2 48.0 83.1 112.44 11.8 80.5 65.10 8.99 9.3 84.12 10.7 118.06 6.18 8.1 51.3 43.53 8.1 59.1 71.9 12.84 7.5 LATENT MBTUH 21.6 70.8 107.5 45.9 80.8 77.4 87.3 112.5 83.79 12.5 74.01 10.0 114.0 82.0 97.58 7.9 73.13 9.6 9.1 86.1 101.16 9.6 60.6 85.2 125.47 9.2 66.9 88.1 73.73 9.6 81.1 SENSIBLE MBTUH 60. 75 °F DB AND 63 °F WB INDOOR TOTAL MBTUH 102.9 96.4 115.55 11.56 9.30 8.6 84.3 64.7 67.48 9.8 102.5 107.14 114.6 88.4 57 .67 7.7 INDOOR UNIT CPLE120-3/-4/-3C/-4C INDOOR AIR SCFM 75°F WB TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH INDOOR UNIT AR120 CONDENSER AIR TEMPERATURE 95°F 105°F WATTS KWH TOTAL MBTUH SENS MBTUH WATTS KWH TOTAL MBTUH 85°F SENS MBTUH WATTS KWH TOTAL MBTUH 115°F SENS MBTUH WATTS KWH SENS MBTUH 72 3230 67 62 57 72 3800 67 62 57 72 4370 67 62 57 126.9 78.5 106.0 86.36 8.0 47.1 69.66 11.10 91.0 110.2 76.4 77.3 81.4 91.5 106.44 12.0 89.9 58.7 57.6 92.6 76.9 91.9 97.5 89.87 8.93 9.9 53.9 79.4 81.3 96.25 11.71 11.0 101.6 95.8 10.9 76.0 87.6 59.4 101.27 9. For sensible heat capacities at other than 80 °F DB.66 11.6 61.53 86.44 10.87 Sensible heat capacities shown are based on 80 °F DB entering air at the evaporator coil.4 89.5 76.2 67.6 118.4 79.6 85.9 121.6 75.4 117.36 7.68 10.2 8.2 85.6 90.68 107.61 8.55 10. or add 84 BTUH per 100 CFM of evaporator coil air per degree above 80 °F.20 11.92 7.3 87.5 105.7 102.8 81.70 8.63 10.4 78.7 91.3 102.61 9. 5” H 1-1/8" DIA. extensive wire runs will require larger wire sizes 2) May use fuses or HACR type Circuit Breakers of the same size as noted Dimensions W D Model CPLJ18-1B CPLJ24-1B CPLJ30-1B CPLJ36-1B CPLJ42-1B CPLJ48-1B CPLJ60-1B Width Depth Height 23” 29” 29” 29” 29” 29” 29” 23” 29” 29” 29” 29” 29” 29” 34” 26.5 83 95 109 148 Type Reciprocating Reciprocating Scroll Scroll Scroll Scroll Scroll HP 1/6 1/6 1/6 1/6 1/4 1/4 1/3 Ship Weight FLA (lbs.5” 39” 41.000 30.4 18. 7/8" DIA.6 9.1 0.8 Maximum Overcurrent Protection 20 20 30 30 40 40 50 Voltage-Phase 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 Minimum Volts Maximum Volts 197 197 197 197 197 197 197 253 253 253 253 253 253 253 1) Wire size should be determined in accordance with National Electrical Codes.9 0.3 24.8 1.000 56.7 18.7 33.5” 41.000 Service Valve Liquid Suction 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Compressor RLA 8.9 1.5 127 147 142 152 162 178 182 Electrical Data Model CPLJ18-1B CPLJ24-1B CPLJ30-1B CPLJ36-1B CPLJ42-1B CPLJ48-1B CPLJ60-1B Minimum Circuit Ampacity 11.8 24.000 23.000 3/4” 3/4” 3/4” 3/4” 7/8” 7/8” 7/8” Connect Type Sweat Sweat Sweat Sweat Sweat Sweat Sweat LRA 49 56 72. POWER ADDITIONAL 1-1/2“ ELEVATED CHANNEL LIQUID CONN.5 14.7 13.000 40.PRODUCT SPECIFICATIONS Specifications Model CPLJ18-1B CPLJ24-1B CPLJ30-1B CPLJ36-1B CPLJ42-1B CPLJ48-1B CPLJ60-1B CPLJ Nominal Nominal Cooling Heating 18.000 46. CONTROL 58 .000 46.3 25 18.9 1.000 23.8 13.2 18 19.000 30.000 35.000 35.5” 31.000 56.) 0.000 41.5” 26.8 2. SUCTION CONN. 30 8.00 7.00 56000 3.40 8.00 8. (1) Certified per ARI 240 @ 80ºF/67ºF -95ºF (2) TVA Rating (3) Energy Efficiency Ratio @ 80ºF/67ºF -95ºF (4) Seasonal Energy Efficiency Ratio 59 .00 30000 3.30 AE24-XX/AER24-1 18000 14200 17000 13700 13.00 11.00 35000 3.00 10.50 11.00 11.20 7.00 11.00 23000 3.60 27000 2.30 AR48-1 44000 32500 41500 31000 11.00 12100 2.00 AWB30-XX 27200 20400 24800 19100 11.50 22000 3.00 11.50 AR49-1 44000 32500 41500 31000 12.00 11.00 40000 3.30 13600 2.2 HT4248/H49F+EEP 34000 24500 32100 23300 12.00 56000 3.00 11.00 AC36-XX 27400 20500 25000 19100 12.80 AE24-XX/AER24-1 23000 18000 21700 17400 13.00 AE48-XX/AER48-1 46000 35000 43400 33600 12.00 7.50 10.50 20000 2.50 55000 3.00 11.00 7.Order from service dept.40 7.50 18000 2.00 11.30 17000 2.00 U/UC32+EEP 23000 18000 21700 17400 12.20 7.20 7.00 11.00 AWB24-XX 22400 16800 21100 16400 11.00 CPLJ18-1 AWB24/AW24-XX 17400 13100 16400 12600 12.30 17000 2.00 23000 3.00 17000 3.00 31000 2.00 35000 3.00 12.4 HT61/H61F+EEP 44000 32500 41500 31000 12.00 11.80 AER30-1 29000 21600 26800 21200 12.30 24000 2.00 11.00 11.00 29400 3.60 7.30 31000 2.40 7.30 7.00 AE48-XX/AER48-1 41000 31000 37800 29900 13.30 8.30 13600 2.30 38500 3.00 11.00 56000 3.00 11.60 27000 2.00 18000 3.30 30000 2.50 U/UC42+EEP 34000 24500 32100 23300 12.50 44000 3.30 7.30 55000 3.40 7.00 23000 3.40 7.50 10000 2.50 AC24-XX 21200 15900 20000 15500 11.50 22400 2.00 AR42-1 38500 27600 36200 29300 11.60 7.30 HT3236/H36F+EEP 18000 14200 17000 13700 12.00 29400 3.40 7.20 7.00 18000 3.50 U/UC62+EEP 55000 39600 51900 37000 11.30 33000 3.00 7.00 11.50 U/UC42+EEP CPLJ30-1 29000 21600 27400 20700 12.00 AC30-XX 22000 16500 20700 16000 12.00 CPLJ60-1A 8.00 45000 3.30 13600 2.30 10.00 11.30 10.50 46000 3.00 AR60-1 55000 39600 51900 37000 11. SEER(4) EER (3) 47°F 47ºF 17ºF 17ºF HSPF BELS AC18-XX 16400 12300 15500 11800 11.00 12.10 7.00 AR30-1/AW30-XX 27200 20400 24800 20700 11.2 U/UC42+EEP 23000 18000 21700 17400 12.00 12100 2.00 11.80 11800 2.00 7.00 17400 3. part No.50 AR61-1 46000 35000 43400 33600 12.00 10.50 27000 3.00 11. When mix matching outdoor and indoor units.00 45000 3.50 10000 2.00 11.50 AR32-1/AR42-1 29000 21600 27400 20700 12.20 7.00 14800 2.00 23000 3.00 56000 3.10 7.80 17000 2.00 AC24-XX 16800 12600 15800 12000 12.50 20000 2.00 CPLJ42-1 HT61/H61F+EEP 40000 30400 37800 29000 12.50 22000 3.80 AC36-XX 32000 23000 30200 24000 11.00 AR61-1 56000 40300 52600 37700 12.30 13600 2.50 10.00 11.00 AC30-XX 27000 20200 24600 18900 11.50 16000 2.20 7.00 9400 2.50 AR32-1/AR42-1 23000 18000 21700 17400 12.50 10000 2.30 10.00 11.00 45000 3.80 12000 2.80 9000 2. B13707-38 or new Solid State Board B13707-35S.00 12.50 10.50 20000 2.00 11.00 11.50 25000 2.20 7.30 8.20 7.00 40000 3.00 26400 2.00 17000 3.00 11.4 HT61/U/UC61+EEP 56000 40300 52600 37700 12.60 7.20 7.50 22400 2.20 7.CPLJ COOLING AND HEATING PERFORMANCE DATA MODEL OUTDOOR SECTION PRODUCT SPECIFICATIONS MODEL TOTAL SENSIBLE (2) BTUH @ HEATING HEATING HEATING HEATING INDOOR COOLING COOLING 75ºF/63ºF-95ºF COOLING COOLING BTUH COP BTUH COP HEATING SRN/ SECTION BTUH (1) BTUH TOTAL SENS.00 AWB18-XX 17000 12700 16000 12200 11.50 26000 2.30 8.30 8.50 XX designates electric heat quantity.00 U/UC60+EEP 44000 32500 41500 31000 12.40 7.30 31000 2.30 7.00 AR24-1/AW24-XX 22400 16800 21100 16400 11.50 20000 2.30 17000 2.00 7.00 9400 2.00 11.30 8.20 19000 2.00 12.00 10.30 31000 2.30 8.30 8.40 7.30 8.60 7.00 18000 3.50 22400 2.00 11.80 14000 2.50 20200 2.20 30000 2.30 21000 2.30 8.20 7.00 AWB36-XX/AR36-1 33000 23800 31150 24900 11.80 CPLJ36-1 8.00 29400 3.40 8.30 8.00 CPLJ48-1 8. T he Gas Furnace contains the EEP cooling time delay.00 14800 2. Part No.30 8.50 10.30 AR32-1 18000 14200 17000 13700 12.2 AR49-1 40000 30400 37800 29300 12.00 11.30 13600 2.00 18000 3.00 35000 3.00 40000 3.00 21000 2.80 AE36-XX/AER36-1 30000 22300 29300 19000 13.50 10.50 25000 2.60 8.00 35000 3.50 AWB36-XX 29000 21600 27400 20700 12.00 12.00 11.00 11.80 AE36-XX/AER36-1 35000 25900 34000 24600 13.00 AR18-1/AW18-XX 17000 12700 16000 12200 11.50 27000 3.00 AE60-XX/AER60-1 56000 40300 52600 37700 12.50 8.20 7.50 29400 3.30 31000 2.60 7.80 14600 2.30 8.00 23000 3.10 7.30 17000 2.00 29400 3. See “AR” unit for coil instructions.30 17000 2.50 10.30 13600 2.50 10000 2.00 9600 2.50 HT3236/H36F+EEP 23000 18000 21700 17400 12.00 HT3236/U/UC32+EEP 29000 21600 27400 20700 12.0 U/UC32+EEP 18000 14200 17000 13700 12. B13707-38 is not interchangeable with B13707-35S. EEP .50 23000 2.00 11.50 10.80 AR42-1 34000 24500 32100 23300 12.00 8.00 23000 3.50 U/UC60+EEP 40000 30400 37800 29300 12.50 25000 2.00 16400 3.50 11.2 HT4248/H36F+EEP 29000 21600 27400 20700 12.30 10. the indoor unit check-flowrator must match the outdoor unit size.00 7.00 40000 3.00 46000 3.00 H61F+EEP 56000 40300 52600 37700 12.00 29400 3.50 CPLJ24-1 8.30 10. HSPF = heating seasonal performance factor.30 17000 2.00 11.50 AWB36-XX 23000 18000 21700 17400 12.00 9400 2. 9 1/6 0.0 14.8 1/4 1.0 18.8 1/3 † With Crankcase Heat. AR32-1. + Wire size should be determined in accordance with National Electrical Codes.7 33. HT3236/H36F+EEP.0 17.PRODUCT SPECIFICATIONS ELECTRICAL DATA MODEL †CPLJ18-1 †CPLJ24-1 †CPLJ30-1 †CPLJ36-1 †CPLJ42-1 CPLJ48-1 **CPLJ60-1A VOLTS 208/230 208/230 208/230 208/230 208/230 208/230 208/230 PH 1 1 1 1 1 1 1 HZ 60 60 60 60 60 60 60 +MINIMUM CIRCUIT AMPS 10. AE24-XX.7 48. AR32-1. Extensive wire runs will require larger wire sizes.1 79.9 1/6 0.9 1/6 1.0 11.8 1/4 1.0 169. AER24-1 30000 HEATING BTUH MODEL CPLJ24-1 W: AC24-XX 30000 HEATING BTUH 4 3 COP 5 4 COP 4 3 2 1 0 62 52 42 32 22 12 2 OUTSIDE deg F COP 25000 20000 15000 10000 5000 0 62 52 42 32 22 12 2 OUTSIDE deg F 25000 20000 15000 10000 5000 0 62 52 42 32 22 12 2 OUTSIDE deg F 3 2 1 0 25000 20000 15000 10000 5000 0 2 1 0 MODEL CPLJ24-1 W: AC30-XX 35000 30000 25000 20000 15000 10000 5000 0 62 52 42 32 22 12 2 OUTSIDE deg F 4 MODEL CPLJ24-1 W: AR24-1/AW/AWB24-XX 35000 30000 25000 20000 15000 10000 5000 0 62 52 42 32 22 12 2 OUTSIDE deg F 4 MODEL CPLJ24-1 W: U/UC32+EEP.0 14.2 24. AWB36-XX. AE24-XX. HT3236/H36F+EEP.1 *MAXIMUM OVERCURRENT PROTECTION 20 20 30 30 40 40 50 MINIMUM VOLTS 197 197 197 197 197 197 197 MAXIMUM VOLTS 253 253 253 253 253 253 253 COMPRESSOR RLA LRA 7.9 87. AR 42-1.7 74. * May use fuses or HACR type Circuit Breakers of the same size as noted.0 25.5 24.0 CPLJ COND. AER24-1 35000 30000 25000 20000 15000 10000 5000 0 62 52 42 32 22 12 2 OUTSIDE deg F 5 4 COP HEATING BTUH HEATING BTUH 3 COP HEATING BTUH 3 2 1 0 COP 2 1 0 3 2 1 0 MODEL CPLJ30-1 W: AC30-XX 40000 HEATING BTUH MODEL CPLJ30-1 W: AC36-XX 4 3 COP HEATING BTUH MODEL CPLJ30-1 W: AR30-1/AW/AWB30-XX 4 HEATING BTUH 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 4 3 2 1 0 COP 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 3 2 1 0 COP 2 1 0 60 .9 15.3 109.3 19. **With Scroll Compressor HEATING PERFORMANCE EXPANDED RATINGS @70ºF INDOOR AMBIENT MODEL CPLJ18-1 W: AC18-XX 25000 HEATING BTUH MODEL CPLJ18-1 W: AC24-XX 4 HEATING BTUH MODEL CPLJ18-1 W: AR18-1/AW/AWB18-XX 4 HEATING BTUH 25000 20000 15000 10000 5000 0 62 52 42 32 22 12 2 OUTSIDE deg F 25000 20000 15000 10000 5000 0 62 52 42 32 22 12 2 OUTSIDE deg F 4 3 2 1 0 COP 20000 15000 10000 5000 0 62 52 42 32 22 12 2 OUTSIDE deg F 3 COP 3 2 1 0 COP 2 1 0 MODEL CPLJ18-1 W: AW/AWB24-XX 30000 HEATING BTUH MODEL CPLJ18-1 W: U/UC32+EEP. U/UC42/+EEP.9 1/6 0.3 18.5 60. FAN FLA HP 0. CPLJ PRODUCT SPECIFICATIONS HEATING PERFORMANCE EXPANDED RATINGS @70ºF INDOOR AMBIENT MODEL CPLJ30-1 W: HT3236/U/UC32+EEP, U/UC42 +EEP, HT4248/H36F+EEP, AR32-1, AR42-1, AER30-1,AWB36-XX 50000 HEATING BTUH MODEL CPLJ30-1 W: AE36-XX/AER36-1 50000 HEATING BTUH MODEL CPLJ36-1 W: AC36-XX 50000 HEATING BTUH 5 4 COP 5 4 COP 4 3 2 1 0 62 52 42 32 22 12 2 OUTSIDE deg F COP COP COP COP 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 40000 30000 20000 10000 0 3 2 1 0 3 2 1 0 MODEL CPLJ36-1 W: AR36-1/AWB36-XX 50000 HEATING BTUH MODEL CPLJ36-1 W: U/UC42+EEP, HT4248/H49F+EEP, AR42-1, AE36-XX/AER361 60000 HEATING BTUH MODEL CPLJ42-1 W: AR42-1 60000 HEATING BTUH 5 4 COP 5 4 COP 5 4 3 2 1 0 62 52 42 32 22 12 2 OUTSIDE deg F 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 3 2 1 0 50000 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 3 2 1 0 50000 40000 30000 20000 10000 0 MODEL CPLJ42-1 W: U.UC60+EEP, HT61/H61F+EEP, AR49-1 60000 HEATING BTUH MODEL CPLJ42-1 W: AR48-XX/AER48-1 60000 HEATING BTUH MODEL CPLJ48-1 W: AR48-1 70000 60000 50000 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 5 4 3 2 1 0 5 4 COP 5 4 COP HEATING BTUH 50000 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 3 2 1 0 50000 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 3 2 1 0 MODEL CPLJ48-1 W: AR49-1, U/UC60+EEP, HT61/HT61F+EEP 70000 60000 50000 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 5 HEATING BTUH MODEL CPLJ48-1 W: AE48-XX/AER48-1, AR61-1 70000 60000 50000 40000 30000 20000 10000 0 62 52 42 32 22 12 2 OUTSIDE deg F 5 4 COP HEATING BTUH HEATING BTUH MODEL CPLJ60-1A W: AR60-1 80000 60000 40000 20000 0 62 52 42 32 22 12 2 OUTSIDE deg F 5 4 3 2 1 0 4 COP 3 2 1 0 3 2 1 0 MODEL CPLJ60-1A W: U/UC62+EEP 80000 HEATING BTUH MODEL CPLJ60-1A W: AR61-1, U/UC61+EEP, HT61/H61F+EEP, AE60-XX/AER60-1 100000 5 4 COP HEATING BTUH 5 4 COP 80000 60000 40000 20000 0 62 52 42 32 22 12 2 OUTSIDE deg F 60000 40000 20000 0 62 52 42 32 22 12 2 OUTSIDE deg F 3 2 1 0 3 2 1 0 HEATING BTUH COP 61 PRODUCT SPECIFICATIONS Specifications CPRT24-1 CPRT30-1 CPRT36-1 CPRT42-1 CPRT48-1 CPRT Model Liquid Service Valve Suction Type Shipping Weight (lbs) Volts Phase Hz Electrical Data Minimum Circuit Amps1 Maximum Overcurrent Protection Minimum Volts Maximum Volts RLA Compressor LRA Condenser Fan FLA HP 2 3/8” 3/4” Sweat 137 3/8” 3/4” Sweat 142 3/8” 7/8” Sweat 152 3/8” 7/8” Sweat 162 3/8” 7/8” Sweat 249 3/8” 7/8” Sweat 337 208/230 208/230 208/230 208/230 208/230 208/230 1 60 14.5 20 197 253 10.9 54 0.9 1/6 1 60 17.8 30 197 253 13.5 72.5 0.9 1/6 1 60 20.1 30 197 253 14.8 83 1.6 1/6 1 60 23 40 197 253 17.1 95 1.6 1/6 1 60 24.6 40 197 253 18.4 109 1.6 1/6 1 60 29.2 50 197 253 22.1 137 1.6 1/6 1) Wire size should be determined in accordance with National Electrical Codes; extensive wire runs will require larger wire sizes 2) May use fuses or HACR type Circuit Breakers of the same size as noted 62 CPRT60-1 CPRT Dimensions for CPRT24-42 Models PRODUCT SPECIFICATIONS 29" 29" CPRT24 = 30" CPRT30 = 25" CPRT36 = 27.5" CPRT42 = 30" 1-1/8" DIA. POWER ADDITIONAL 1-1/2" ELEVATED CHANNEL FORMED INTO BOTTOM PAN 7/8" DIA. CONTROL LIQUID CONN. SUCTION CONN. Dimensions for CPRT48-60 Models 35.5" 35.5" CPRT48-1 = 30" CPRT60-1 = 35" 1-1/8" DIA. POWER 7/8" DIA. CONTROL ADDITIONAL 1-1/2" ELEVATED CHANNEL FORMED INTO BOTTOM PAN SUCTION CONN. LIQUID CONN. 63 300 25.3 2.28 2.48 11.6 30.5 20.000 11.800 22.6 30.4 2.6 23.6 23.6 30.000 11.000 17.500 7.800 22.4 2.3 3.000 11.3 11.28 2.6 30.6 36.000 11.5 3.3 Cooling Capacity Heating Capacity CPRT HSPF EER Model Coil / Air Handler SEER 17°F 17°F (BTUH) COP 2.6 30.000 23.300 14 13 13 13 13 13 13 13 14 13 13 13 13 13 13 30.5 3.000 17. the indoor unit check-flowrator must match the outdoor unit size.000 17.8 18.5 19.000 11.000 7.300 25.300 22.4 2.8 18.48 11.000 2.3 2.000 11.8 18.8 18.000 11.6 36.5 18.000 CPRT30-1 ARUF032-00*-1* CA*F030*2*+EEP CA*F042*2*+EEP CHPF030A2*+EEP CHPF042B2*+EEP H36F+EEP AEPT036-00*-1* ARPT049-00*-1* 7.6 2. XX designates electric heat quantity When mix-matching outdoor and indoor units.5 31.000 35.500 7.300 23.4 2.000 11.000 11.000 35.000 35.000 35.3 3.5 11. # AEPT030-00*-1* ARPT032-00*-1* ARUF032-00*-1* 17.000 11.000 30. B13707-38 is not interchangeable with B13707-35S.000 29.000 11.000 7.300 25.000 8 8 18.3 12.6 23.28 2.PRODUCT SPECIFICATIONS Performance Ratings Sensible BTUH Total BTUH 22.3 3.3 3.500 7.800 22.000 11.500 7.000 22.000 17.000 35.3 3.6 36.000 7.3 3.000 35.5 21.3 1) 2) 3) 4) 5) 6) Certified per ARI 210/240 @ 80 °F/67 °F/95 °F TVA Rating Seasonal Energy Efficiency Ratio Energy Efficiency Ratio @ 80 °F/67 °F/95 °F HSPF = Heating Seasonal Performance Factor Order the EEP from the Service Department using Part No.3 2.500 8 539694 539735 539765 539685 74 539746 539717 539808 539771 539719 539708 539801 539793 539762 539751 539757 539752 539761 539780 539787 539809 539775 539807 539736 539792 79 79 CPRT24-1 CA*F030*2*+EEP CA*F042*2*+EEP CHPF030A2*+EEP CHPF042B2*+EEP H36F+EEP AEPT030-00*-1* AEPT036-00*-1* ARPT032-00*-1* 22.300 13.6 23.000 8 8 8 8 8 8 20.5 11.52 2.7 11.000 17. B13707-38 or new Solid State Board B13707-35S.000 8.000 11.3 3.800 29.3 2.000 2.6 36.000 11.800 22.6 23.500 7.000 29.8 18.3 3.5 26.000 11.000 3.3 11.000 12.3 11.000 2.6 37.000 17.3 3.000 29.000 22.000 3.300 22.6 23.6 23.000 30.000 47°F 47°F (BTUH) COP 3.000 3.7 11.5 3.000 18.000 3.3 11.000 30.28 2.6 30.4 2.3 3.300 25.300 25.500 7.000 12 7.300 25.42 3.6 36.5 2.000 8.000 30.300 25.000 CPRT36-1 ARUF048-00*-1* ARUF049-00*-1* CA*F048*2*+EEP CHPF048D2*+EEP H60F+EEP 11.300 22.000 14 13 13 13 13 13 13 13 12.6 36.500 7.800 22.800 22.4 2.3 ARI Ref.000 11.3 3.3 3.5 3.5 3. 64 Decibels .000 35.3 2.000 11.6 30.000 17.3 3.000 30.000 2.800 22.4 2.000 20.000 7.6 23.000 20.28 20. Part No.28 20. 000 2.000 8.600 29.6 45.5 3.000 3.5 2.400 8.000 46.28 531559 532778 531545 531536 531533 531532 531547 79 CA*F061*2*+EEP CHPF060D2*+EEP H61F+EEP 11.000 3.000 3.48 8.000 11.5 HSPF EER 17°F 17°F (BTUH) COP 2.5 30.4 34.2 28.000 11.4 33.6 40.400 8.6 46.400 8.400 2.600 13 13 12 11.5 23.5 33.000 54.6 3.000 39.000 55.000 55.400 29.3 2.000 2.4 30.000 11.6 46.000 3.5 3.400 39.000 3.000 40.000 54.4 531548 531551 531541 11.48 28.500 42.4 22.4 22.400 13 13 13 13 13 13 13 13 13 11 43.000 11.000 11.48 8.6 54.5 539776 539723 539806 531554 531549 531544 531542 79 CA*F060*2*+EEP CA*F061*2*+EEP CHPF060D2*+EEP H61F+EEP AEPT060-00*-1* ARPT061-00*-1* 31.000 3.6 3.000 3. B13707-38 is not interchangeable with B13707-35S.000 39.000 2.5 33.6 55.5 8.6 40.5 33.000 46.48 8. Decibels Cooling Capacity Heating Capacity 65 .6 45. the indoor unit check-flowrator must match the outdoor unit size.000 2.6 2.28 CPRT60-1 ARUF061-00*-1* 1) 2) 3) 4) 5) 6) Certified per ARI 210/240 @ 80 °F/67 °F/95 °F TVA Rating Seasonal Energy Efficiency Ratio Energy Efficiency Ratio @ 80 °F/67 °F/95 °F HSPF = Heating Seasonal Performance Factor Order the EEP from the Service Department using Part No.CPRT Performance Ratings Sensible BTUH PRODUCT SPECIFICATIONS SEER Model Coil / Air Handler Total BTUH 40.5 8.000 2.500 33.600 29.4 2.5 30.5 35.400 CPRT42-1 ARUF049-00*-1* CA*F060*2*+EEP CHPF060D2*+EEP H61F+EEP AEPT060-00*-1* ARPT061-00*-1* ARUF061-00*-1* 79 8.000 11.000 3.600 29.500 46.400 39.000 40.000 39.400 12.500 13.6 3.28 8.28 11.6 55. # 539742 539709 539802 AEPT060-00*-1* ARPT049-00*-1* 30.6 45.000 8.5 2.6 2.000 47°F 47°F (BTUH) COP 3.000 33.000 54.000 39.500 46.4 8.000 8.400 2.3 2.000 55.000 39.6 3.5 3.4 22.5 2.000 2.5 3.6 41.000 8.4 30.4 35.6 3.6 42.5 3. B13707-38 or new Solid State Board B13707-35S.6 54.500 46.28 8.4 34.3 2.6 54.000 11.6 40.4 35.6 55.6 30.000 11.4 22.000 46.000 40. XX designates electric heat quantity When mix-matching outdoor and indoor units.6 40.48 8.3 ARI Ref.000 11.600 29.400 8 2.400 8.000 11.4 34.500 30.28 11.000 8.000 33.4 2.000 11. Part No.000 39.4 22.000 12 46.6 40.500 43.600 14 13 13 13 13 13 12.000 CPRT48-1 CA*F048*2*+EEP 10.8 3. U/ U C61+EEP.00 CP* T 60. 00 0. ARUF049 C P * T 42. AEPT048/AE48-XX 60000 50000 40000 30000 20000 10000 0 5 4 3 2 1 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S ID E de g F 60000 50000 40000 30000 20000 10000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 O U T S I D E de g F 5 4 3 2 1 0 60000 50000 40000 30000 20000 10000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S I D E de g F 5 4 3 2 1 0 CP* T 48. 00 3. ARUF061 CP * T 48 -1 V S. 00 2.1 VS. AEPT030/AE30-XX 5 4 3 2 1 0 4 5000 4 0000 3 5000 3 0000 2 5000 2 0000 1 5000 1 0000 5000 0 CP * T 3 0 .00 70000 60000 50000 40000 30000 20000 10000 0 62 57 52 47 4237 32 27 22 17 12 7 2 -3 OU T S ID E de g F 5.0 0 0.00 5.0 0 4.00 4. ARUF048 5 4 3 2 1 0 60000 50000 40000 30000 20000 10000 0 5 4 3 2 1 0 62 57 52 47 42 37 32 2 7 2 2 17 1 2 7 2 -3 OU T S ID E d e g F 62 5 7 52 47 4 2 37 32 27 2 2 17 1 2 7 2 -3 OU T S I D E de g F 62 57 52 47 42 37 32 27 22 1 7 12 7 OU T S I D E d e g F 2 -3 CP* T 36 .3 OU T S I D E d e g F 5. 0 0 3. 00 0. ARPF060. 00 8 000 0 7 000 0 6 000 0 5 000 0 4 000 0 3 000 0 2 000 0 1 000 0 0 CP * T 6 0 -1 V S .00 0. 00 4. 0 0 4.0 0 62 57 5 2 47 42 3 7 32 27 2 2 17 12 7 2 -3 OU T S I D E de g F HEA TING BTUH COP 66 . 00 2.0 0 2.00 3.0 0 3. 0 0 0.1 VS . H61F+EEP 8 00 00 7 00 00 6 00 00 5 00 00 4 00 00 3 00 00 2 00 00 1 0000 0 62 57 5 2 47 42 37 32 27 22 17 12 7 2 . H 6 0 F+ EEP . ARPT061. 00 1. A RPT032. H61F+EEP 70000 60000 50000 5. AE//AEPT060 TI 40000 NG30000 20000 10000 0 7000 0 6000 0 5000 0 4000 0 3000 0 2000 0 10000 0 62 57 5 2 47 4 2 37 32 27 22 17 12 7 2 -3 O U T S I D E de g F 5. 00 1. 00 4. U / U C 3 2 + E E P . ARPT061. AE /AEPT060 8 00 0 0 7 00 0 0 6 00 0 0 5 00 0 0 4 00 0 0 3 00 0 0 2 00 0 0 1 00 00 0 62 5 7 52 4 7 4 2 3 7 32 27 2 2 17 1 2 7 2 .00 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 O U T S I D E de g F C P * T 48 -1 VS . 0 0 5. U/ UC32+EEP.00 2. U/ UC42+EEP. AR PT032. U / U C 4 2 + EEP. ARPF036. AEPT036/AE36-XX CP * T 4 2 . CPRT CP* T 24 -1 5 4 3 2 1 0 H 3 6 F + E EP. 00 3.1 VS.1 V S. 0 0 1. 00 1. H 6 1 F +EEP. U/ UC61+EEP. 00 3. ARPT049. ARPF048.PRODUCT SPECIFICATIONS Heating Performance Expanded Ratings @ 70 °F Indoor Ambient C P* T 2 4-1 VS. U / U C6 0 + EEP. ARUF032 VS. AEPT024. AE24XX CP* T 30-1 4 5000 4 0000 3 5000 3 0000 2 5000 2 0000 1 5000 1 0000 5000 0 VS. ARUF032 5 4 3 2 1 0 3 5000 3 0000 2 5000 2 0000 1 5000 1 0000 5000 0 62 57 52 47 42 3 7 32 27 22 17 1 2 7 2 -3 OU T S I D E d e g F 35000 30000 25000 20000 15000 10000 5000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S ID E d e g F 5 4 3 2 1 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S I D E d e g F CP* T30 -1 4 50 00 4 00 00 3 50 00 3 00 00 2 50 00 2 00 00 1 50 00 1 00 00 5000 0 VS.1 VS .1 VS. ARUF061 CP* T 60 -1 VS.ARPF036. ARPF060. U / U C4 9 + EE P . 00 0.00 1. 00 4.0 0 1. H 36F +E E P . 0 0 2.3 OU T S I D E de g F 2. AEPT036/AE36 -XX CP * T 36 -1 VS. 9 0.2 Maximum Overcurrent Protection 20 30 30 40 40 50 Voltage-Phase 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 208/230-1 Minimum Volts 197 197 197 197 197 197 Maximum Volts 253 253 253 253 253 253 1) Wire size should be determined in accordance with National Electrical Codes.500 55.5” 35.6 Service Valve Liquid 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction 3/4” 3/4” 7/8” 7/8” 7/8” 7/8” Connection Type Sweat Sweat Sweat Sweat Sweat Sweat Compressor RLA 10.CPLT Specifications Model CPLT24-1B CPLT30-1B CPLT36-1B CPLT42-1B CPLT48-1B CPLT60-1B Nominal Cooling Nominal Heating Capacity (BTUH) Capacity (BTUH 22.000 40.6 29.5” Depth 29” 29” 29” 29” 35.5” 31.6 1.5” 35.6 1.5 17. SUCTION CONN.1 LRA 54 72.000 36.5” 29” 31.5” Height 31.5 83 95 109 137 Type Scroll Scroll Scroll Scroll Scroll Scroll Ship Weight (lbs) 137 142 152 162 249 337 Electrical Data Model CPLT24-1B CPLT30-1B CPLT36-1B CPLT42-1B CPLT48-1B CPLT60-1B Minimum Circuit Ampacity 14.000 23. Dimensions W D Model CPLT24-1B CPLT30-1B CPLT36-1B CPLT42-1B CPLT48-1B CPLT60-1B Width 29” 29” 29” 29” 35.8 20.1 23 24.5” 35. 2) May use fuses or HACR type Circuit Breakers of the same size as noted.5” 26.000 46. 67 .9 13.000 55.8 17.1 18.5” H 1-1/8" DIAMETER POWER ADDITIONAL 1-1/2" ELEVATED CHANNEL FORMED INTO BOTTOM PAN 7/8" DIAMETER CONTROL LIQUID CONN.4 22.000 35.000 31.5 14. extensive wire runs will require larger wire sizes.000 46.000 40.9 1.800 30.000 PRODUCT SPECIFICATIONS Condenser Fan HP 1/6 1/6 1/4 1/4 1/4 1/4 FLA 0.6 1. 000 17.500 11.40 2.600 33.0 13.600 SEER 14.000 18.0 13.50 3.30 2.300 21.52 2.000 30.300 22. the indoor unit check-flowrator must match the outdoor unit size.6 11.5 8.300 25.6 11.28 2.80 3.50 2.0 13.30 2.800 29.000 54.000 30.0 13.000 23.400 30. B13707-38 or new Solid State Board B13707-35S.000 39.000 29.0 13.000 17.40 2.000 41.000 20.300 22.5 7.600 39.6 11.60 3.0 13.300 30.3 7.30 2.000 33.000 20.8 7.30 3.0 13.0 13.000 20.30 2.52 2.4 8.52 2.000 30.000 35.000 20.28 2.000 17.500 11.000 30.31 2.200 26.000 54.40 2.0 EER 12.6 11.0 11.000 18.0 14.0 8.0 13.4 8.000 35.5 13.000 30.6 11.000 35.000 40.000 54.40 2.000 23.000 Sensible BTUH 17.6 11.000 21.500 33.0 8.000 40.000 46.200 22.51 3.000 30.000 34.000 18.000 46.000 18.40 2.0 12.000 33.800 22.800 22.5 11.000 35.5 8.0 13.000 20.400 28.40 517455 517453 517452 516876 516871 516906 516884 516899 517448 517462 517463 517458 516885 516882 516895 516901 516905 517460 517461 517447 531807 516909 516894 516910 517459 517450 517457 516929 516913 516912 517451 517449 517454 516928 516916 516914 516923 517446 518833 517445 516921 516925 516927 ARUF032-00*-1* CA*F030*2*+EEP CA*F042*2*+EEP CHPF030A2*+EEP CHPF042B2*+EEP H36F+EEP AEPT030-00*-1* AEPT036-00*-1* ARPT032-00*-1* 72 CPLT30-1* ARUF032-00*-1* CA*F030*2*+EEP CA*F042*2*+EEP CHPF030A2*+EEP CHPF042B2*+EEP H36F+EEP AEPT036-00*-1* ARPT049-00*-1* 77 CPLT36-1* ARUF048-00*-1* ARUF049-00*-1* CA*F048*2*+EEP CHPF048D2*+EEP H60F+EEP AEPT060-00*-1* 77 CPLT42-1* ARPT049-00*-1* ARUF049-00*-1* CA*F060*2*+EEP CHPF060D2*+EEP H61F+EEP AEPT060-00*-1* ARPT061-00*-1* 77 CPLT48-1* ARUF061-00*-1* CA*F048*2*+EEP CA*F060*2*+EEP CHPF060D2*+EEP H61F+EEP AEPT060-00*-1* 77 CPLT60-1* ARPT061-00*-1* ARUF061-00*-1* CA*F061*2*+EEP CHPF060D2*+EEP H61F+EEP 77 Certified per ARI 210/240 @ 80 °F/67 °F/95 °F TVA Rating Seasonal Energy Efficiency Ratio Energy Efficiency Ratio @ 80 °F/67 °F/95 °F HSPF = Heating Seasonal Performance Factor Order the EEP from the Service Department using Part No.0 13.42 3.28 2.000 18.61 2.500 11.000 34.0 13.000 39.400 22.000 46.000 30.0 13.300 25.28 2.500 46.30 3.500 30.6 11.6 11.0 13.0 13.000 30.6 11.200 21.6 10.000 55.4 8.4 8.6 12.000 35.30 3.400 22.0 13.000 40.000 45.600 39.30 3.000 30.3 7.000 40.000 40.40 2.000 30.7 7.6 11.000 55.30 3.4 8.500 11.60 3.000 45.51 HSPF 7.600 29.6 11.6 11. XX designates electric heat quantity When mix-matching outdoor and indoor units.5 8.0 8.6 11.400 22.400 30.500 11.000 39.28 2.000 17.0 8.0 13.000 35.4 8.000 35.000 17.48 3.60 3.6 11.51 3.600 31.30 2.300 21.800 22.000 23.28 2.5 8.5 8.30 2.000 35.000 22.48 3.300 22.500 43.000 47°F (COP) 3.000 30.6 47° F Htg Cap (Btuh) 23.0 13.0 13.50 3.000 30.000 43.500 11.4 8.6 11.51 3.000 54.30 3.000 55.40 2.500 11.000 29.30 2.600 29.50 2.800 22.6 11.000 23.50 3.000 36.000 36.000 23.6 11. 1) 2) 3) 4) 5) 6) 68 .000 39.6 12. Part No.200 22.6 11.3 7.30 2.50 3.60 2.30 3.28 2.0 13.300 25.8 7.0 13.61 2.4 8.6 12.0 13.000 54.4 8.0 8.28 2.000 23.500 18.000 42.30 3.000 40.30 3.48 3.0 13.2 8.500 33.6 11.000 46.6 11.600 29.0 13.0 13.6 11.4 17°F 17°F Htg Cap ARI Ref.400 22.7 7.6 11.0 12.30 3.0 13.8 7.800 22.6 11.6 11.600 29.50 3.52 2.000 30.30 2.000 36.000 23.40 2.50 3.000 17.000 40.28 2.300 25.4 8.000 55.5 13.000 17.5 8.50 3.30 2.40 2.0 8.0 11.5 14.39 3.800 22.8 7.400 33.48 3.500 42.6 11.30 3.400 30.50 3.0 13.000 18.000 28.000 20.0 14.52 2.60 3.60 3.000 25.28 2.000 39.000 34.0 12.000 30.5 8.000 55.0 8. # (COP) (Btuh) 11.6 11.500 46.000 35.3 7.0 8.6 8.0 7.50 3.500 46.000 19.0 13.4 8.0 13.000 40.000 2.30 2.8 8.50 3.000 29.000 31.000 55.000 39.6 11.6 12.0 13. B13707-38 is not interchangeable with B13707-35S.48 3.0 13.400 29.30 3.000 35.6 11.000 40.PRODUCT SPECIFICATIONS Performance Ratings Heat Pump Coil / Air Handler AEPT030-00*-1* ARPT032-00*-1* CPLT24-1* CPLT Decibels Total BTUH 22.000 23.000 36.000 36.800 22.0 13.000 54.30 3.000 37.300 25.000 21.30 3.000 18.6 11.6 11.6 11.6 11.0 13.48 3.000 36.28 2.000 46.51 3.0 13.0 8.0 13.6 11. AEPT036 CPLT42-1* vs. H61F+EEP 800 00 700 00 5. H36F+EEP. H36F+EEP. 00 0.00 62575247 423732 272217 12 7 2 -3 OUT SID E de g F CPLT60-1* vs. 00 4.00 0. AEPT036 5 4 CPLT36-1* vs.00 8000 0 7000 0 CPLT60-1* vs.00 0.0 0 4.00 4. ARPF036.0 0 1.00 HEATING BTUH HEATING BTUH 50000 70000 60000 50000 40000 30000 20000 10000 0 5.0 0 1. ARPF060.0 0 400 00 300 00 200 00 1000 0 0 62 57 52 4 7 4 2 37 32 27 2 2 17 12 7 2 -3 OU T S ID E d e g F 2. AEPT048 60000 HEATING BTUH 5 HEATING BTUH 60000 50000 40000 30000 20000 10000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T SID E de g F 5 HEATING BTUH 60000 50000 40000 30000 20000 10000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T SID E de g F 5 4 50000 40000 30000 20000 10000 0 4 4 COP COP 2 1 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OUT SIDE deg F 2 1 0 2 1 0 CPLT48-1* vs.0 0 0. ARPF048.00 HEATING BTUH COP COP 3.0 0 3. AEPT024 CPLT30-1* vs.00 70000 60000 50000 40000 30000 20000 10000 0 5.00 4000 0 3000 0 2000 0 1000 0 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S ID E de g F COP 2.0 0 600 00 500 00 3.00 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T SID E de g F COP COP 2. ARUF061 CPLT48-1* vs. H61F+EEP.0 0 4. ARUF061 5. ARPT061. AEPT060 HEATING BTUH 30000 20000 10000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S ID E de g F 2. ARUF032 35000 30000 5 CPLT24-1* vs. 00 CPLT48-1* vs.00 1. 00 1.0 0 800 00 700 00 CPLT60-1* vs.0 0 0. H60F+EEP.00 HEATING BTUH 600 00 500 00 6000 0 5000 0 3.00 4. ARPT061. ARUF048 60000 50000 HEATING BTUH 5 4 HEATING BTUH HEATING BTUH COP 30000 20000 10000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T SID E de g F 2 1 0 2 1 0 2 1 0 62 57 52 47 42 37 32 27 22 17 12 7 OU T S I D E d e g F 2 -3 CPLT36-1* vs.00 HEATING BTUH HEATING BTUH COP 400 00 300 00 200 00 10000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S ID E de g F 2. ARPF060.CPLT PRODUCT SPECIFICATIONS Heating Performance Expanded Ratings @ 70 °F Indoor Ambient CPLT24-1* vs.00 0.00 1. ARPT032. ARPT032.0 0 COP 3 3 3 COP 3 COP 3 40000 3 COP 20000 3 35000 30000 25000 20000 15000 10000 5000 0 5 3 45000 40000 35000 30000 25000 20000 15000 10000 5000 0 5 4 3 69 . ARUF049 CPLT42-1* vs. ARPF036. 00 3. AEPT060 5. ARUF032 HEATING BTUH HEATING BTUH 25000 4 HEATING BTUH 4 COP COP 15000 10000 5000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S ID E d e g F 2 1 0 2 1 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S ID E d e g F 2 1 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S I D E d e g F CPLT30-1* vs.00 4. ARPT049.00 COP 40000 3. H61F+EEP 70000 60000 5. AEPT030 450 00 400 00 350 00 300 00 250 00 200 00 150 00 100 00 5000 0 62 57 52 47 42 37 32 27 22 17 12 7 2 -3 OU T S ID E de g F 5 4 4 5000 4 0000 3 5000 3 0000 2 5000 2 0000 1 5000 1 0000 5000 0 CPLT30-1* vs.00 1.00 2. COOLING COOLING BTUH (1) BTUH WMH12-1A 11000 6800 HDP12-1A WMH18-1A 12600 8800 WMH18-1A 16800 10900 HDP18-1A WMH24-1A 17600 11500 HDP24-1A WMH24-1A 19000 13000 (1) Certified per ARI 210/240 @80°F/67°-95°F (2) TVA Rating (3) Energy Efficiency Ratio (4) Seasonal Energy Efficiency Ratio HSPF = Heating Seasonal Performance Factor OUTDOOR SECTION INDOOR SECTION (2) BTUH @ 75°F/63°-95°F TOTAL SENS 10600 6000 12200 6950 16300 9650 17000 10000 18300 10000 COOLING SEER (4) 10. CM (IN) RPM COIL FACE AREA FT2 TUBE DIA.00 10. .00 6.4 PHYSICAL DATA FAN DIA.80 6000 2.00 6. LIQUID DIA .00 6.00 COOLING EER (3) 9.00 9. MODEL HDP COOL AND HEAT PERFORMANCE DATA TOTAL SENS.(IN) SUCTION DIA .00 6.4 17000 2.00 10. Extensive wire runs will require larger wire sizes.00 10. +Wire size should be determined in accordance with National Electrical Codes.00 9.2 20 253 197 10.00 9.80 7.00 10.80 7. ROWS/FINS/IN FIN TYPE REFRIGERANT CON.0 15 253 197 5. 70 .80 9400 2.10 3/8 1R/19 FPI RIPPLED 3/8 5/8 FLARE 130 DIMENSIONAL DATA 11" 35" HDP12=2 HDP18=2 HDP24=2 WIRING DIAGRAM .80 9000 2.PRODUCT SPECIFICATIONS ELECTRICAL DATA +MINIMUM POWER *MAXIMUM CONDENSER FAN COMPRESSOR MAXIMUM MINIMUM CIRCUIT SUPPLY OVERCURRENT MOTOR VOLTS VOLTS PROTECTION VOLTS PH HZ AMPACITY RLA LRA FLA HP HDP12-1A 208/240 1 60 8.80 7. (18) 950 6.6 30 253 197 12.80 6500 2.(IN) NO.(IN) TYPE WEIGHT (LBS).00 9.00 HEATING HEATING HEATING HEATING SOUND HEATING BTUH COP BTUH COP RATING HSPF 47°F 47°F 17°F 17°F BELS 11400 2.80 16000 2.9 60 .6 1/15 *May use fuses or HACR type Circuit Breakers of the same size as noted.8 61 .LINE VOLTAGE CONTROL CIRCUIT (TYPICAL WIRING FOR USE WITH DUCTLESS INDOOR SECTION) NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE.80 10400 2.4 12000 2.9 29 .00 6.80 19000 2.6 1/15 HDP24-1A 208/240 1 60 16.6 1/15 HDP18-1A 208/240 1 60 14. 71 .UC-** COIL PRODUCT SPECIFICATIONS See Spec Sheet for installation tips. PRODUCT SPECIFICATIONS UC-** COIL 72 . UC-** COIL PRODUCT SPECIFICATIONS 73 . LIQUID ROWS CONN 2 3/8 3 3/8 3 3/8 3 3/8 4 3/8 SUCTION CONN 3/4 3/4 7/8 7/8 7/8 SHIP WT.15 . 74 .24 SPECIFICATIONS NO.20 . NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE. 26 42 53 58 65 *CONVERTIBLE TO EXPANSION -VALVE WITH THE ADDITION OF AN XV24-60 EXPANSION KIT.22 .07 .PRODUCT SPECIFICATIONS HORIZONTAL EVAPORATOR COILS 2 THRU 5 TONS (WITH FLOWRATER) H SERIES HORIZONTAL COILS COIL MODEL H-24F H-36F H-49F H-60F H-61F DIMENSIONS NOMINAL A B TONS 2 25-1/2 16 3 25-1/2 16 4-1/2 33-1/2 24 5 39-1/2 30 5 39-1/2 30 C 6 6 6 6 6 NOMINAL CFM 800 1200 1800 2150 2150 STATIC PRESSURE WET COIL . 125 536.875 22.50 355.50 21.57 609.11 (.875 D MM 504.875 19.412) 2 3 2 3 14 14 14 14 DRAINS CONNECTION ¾” (19.57 IN 24.33 (.568) 3 14 ¾” (19.143) 45 (20.00 533.57 24.525) 65 (29.6 444.75 501.05) 3 3 3 3 /8” (9.44 (.00 444.85 412.66 620.00 MM 355.882 708.125 B MM 536.225) / ” (9.436 27.20 19.412) 50 (22.436 C MM 620.525) /8” (9. 75 .25 323.225) / ” (9.85 * All air-opening flanges are 0.309) 3.436 24.85 16.62mm) SPECIFICATIONS MODEL FACE AREA (Sqft/Sqm.00 17.05) ¾” (19.436 620.44 (.82 504.65 14.05) ¾” (19.82 577.525) /8” (9.4 21.25 19.412) 4.05) ¾” (19.75 E MM 323. Installer may need to supply adapter.75 504.680) 55 (24.05) 7 / ” (22.484) 8 3 8 / ” (22.5 21.00 536.75 577.948) HT-1830 HT-4860 6.309) 4.05) 7 HT-61 6.882 620.66 708.57 536.05) REFRIGERATION LINE CONNECTION ¾” (19.75 16.82 12.4 24.125 24.) ROWS FIN PER INCH PRIMARY AUXILLIARY (in/mm) VAPOR (in/mm) LIQUID (in/mm) SHIPPING WEIGHT (Lbs/Kg) HT-3236 HT-36 HT-4248 EVAPORATOR COIL 3.75 A IN 14.20 22.65 17.82 IN 12.66 19.66 IN 19.625” (15.05) ¾” (19.5 533.75 501.751) 8 3 8 * Refer to outdoor unit Installation and Operations Manual for proper refrigeration line sizes.33 (.00 609.125 21.6 27.6 IN 21.85 19.05) ¾” (19.HT SERIES PRODUCT SPECIFICATIONS Spe ification icat ions Sp e c if ic at ions DIMENSIONS CABINET SIZE HT COIL MODEL HT-1830 SMALL HT-3236 HT-36 MEDIUM HT-4248 HT-4860 LARGE HT-61 21.6 24.568) 4 14 ¾” (19.875 504.75 412.525) /8” (9.525) 40 (18.05) ¾” (19.525) 70 (31.11 (. reduce airflow to 3%.26 0.26 1350 0.21 1450 0.25 1550 0.18 1750 HT-61 WET DRY 0.4mm) 21” (533.31 0.14 0.15 1350 0.PRODUCT SPECIFICATIONS HT AIR FLOW DATA HT SERIES STATIC PRESSURE DROP ACROSS COIL.33 1350 0.11 1275 0.5mm) 21” (533.19 1075 0.08 950 HT-3236 WET DRY 0.16 1950 0.26 0.32 0. 76 .21 0. Refer to furnace specification sheets for air flow charts.6mm) 14” (355. 1 Transition required.37 0.27 1250 0.22 0.17 0.17 0.26 0.27 2150 0.14 0.21 2050 0.39 NOTE: For horizontal left applications.38 2150 0.26 1950 0.21 1175 0.26 1550 0.15 1150 0.21 0.38 0.5mm) 17.11 1050 0.20 1850 0.10 1750 HT-4860 WET DRY 0.44 0.27 0. HORIZONTAL RIGHT APPLICATIONS COIL MODEL AIR QUANTITY (CFM) VS.32 0.5” (444.14 0.22 0.32 0.08 1175 HT-36 WET DRY 0.09 1150 HT-4248 WET DRY 0. it is important to match the furnace airflow for the total system capacity.5” (444.21 1250 0.4mm) X X X 1 X X 1 X X X X 1 1 1 X X X 1 X X 1 1 1 1 X X X * Due to the rating mix/match of various coils with outdoor units.15 1375 0.6mm) 17.12 1850 0.20 1450 0.17 0.31 0.14 0.11 1250 0.31 0.32 2050 0.27 0.25 0.21 0.17 0.21 0. PRESSURE DROP (IN/WC) 975 HT-1830 WET DRY 0. * Nominal CFM CASE COIL / FURNACE APPLICATION OPTION 14” FURNACE HT COIL CABINET SIZE (MM) GMNTE060-3 GMNT040-3 GMNT060-3 GMT045-3 GMT070-3 GMTH045-3 17½” FURNACE GMNTE080-4 GMNT080-4 GMT070-4 GMT090-3 GMT090-4 GMTH070-4 21” FURNACE GMNTE100-4 GMNT100-4 21” FURNACE GMT090-5 GMT115-5 GMTH090-5 HT-1830 HT-3236 HT-36 HT-4248 HT-4860 HT-61 14” (355.45 0. of Rows 2 2 3 3 2 2 3 3 3 3 3 2 3 2 3 3 3 3 3 3 3 3 3 3 3 4 3 3 3 4 4 Liquid Connection 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction Connection 5/8” 3/4” 3/4” 3/4” 3/4” 5/8” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 7/8” 3/4” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” Ship Weight (lbs) 18 21 24 31 30 18 21 24 31 31 31 31 43 34 31 43 44 43 44 43 44 44 44 44 55 55 44 55 55 60 60 ** Revision designator. Revision designator Suction Connection Liquid Connection B A 3/4" Female NPT Primary & Secondary Drain Connections (Important: Hand Tighten) 20-1/8’’ 77 . see Nomenclature on page 2 for details.CAUF Dimensions Model CAUF018A2* CAUF024A2* CAUF030A2* CAUF036A2A CAUF036A2B CAUF018B2* CAUF025B2* CAUF030B2* CAUF030C2* CAUF030B4* CAUF036B2A CAUF036B2B CAUF036B4* CAUF036C2* CAUF037B2* CAUF037C2A CAUF037D2* CAUF042B2* CAUF048B2* CAUF042C2* CAUF042C4* CAUF048C2* CAUF048C4* CAUF049C2* CAUF060C2* CAUF061C2* CAUF049D2* CAUF057D4* CAUF060D2* CAUF060D4* CAUF061D2* Width (A) 13” 13” 13” 13” 13” 16½” 16½” 16½” 20” 16½” 16½” 16½” 16½” 20” 16½” 20” 23” 16½” 16½” 20” 20” 20” 20” 20” 20” 20” 23” 23” 23” 23” 23” 19-15/16” 23-15/16” 21-7/16” 23¾” 23½” 23½” 23¾” 27-15/16” 27-15/16” 23¾” 28¼” 28¼” 27¾” 27¾” 20” 20” 20” 19-15/16” 20” 20” 18” Height (B) 16¼” 16-1/8” 18-1/8” 20” 20” 16-1/8” 16¼” 16-1/8” Nominal Tons 1½ 2 2½ 3 3 1½ 2 2½ 2½ 2½ 3 3 3 3 3 3 3 3½ 4 3½ 3½ 4 4 4 5 5 4 5 5 5 5 PRODUCT SPECIFICATIONS CAUF—Uncased Upflow/Downflow Indoor Coils Specifications No. PRODUCT SPECIFICATIONS CAPF—Cased Upflow/Downflow Indoor Coils Dimensions Model CAPF018A2* CAPF018B2* CAPF024A2* CAPF025B2* CAPF030A2* CAPF030B2* CAPF030B4* CAPF030C2* CAPF036A2* CAPF036B2A CAPF036B2B/C CAPF036B4* CAPF036C2A CAPF036C2B/C CAPF036C2D CAPF037B2* CAPF037C2A CAPF037C2B CAPF037D2* CAPF042B2* CAPF042C2* CAPF042C2D CAPF042C4* CAPF048B2* CAPF048C2A CAPF048C4* CAPF049C2* CAPF049D2* CAPF057D4* CAPF060C2* CAPF060D2* CAPF060D4* CAPF061C2* CAPF061D2* Width (A) 14” 17½” 14” 17½” 14” 17½” 17½” 21” 14” 17½” 17½” 17½” 21” 21” 21” 17½” 21” 21” 24½” 17½” 21” 21” 21” 17½” 21” 21” 21” 24½” 24½” 21” 24½” 24½” 21” 24½” Height (B) 18” 18” 18” 18” 18” 18” 22” 22” 22” 22” 22” 22” 26” 26” 22” 22” 26’ 22” 22” 22” 26” 22” 26” 22” 26” 26” 26” 26” 30” 30” 30” 30” 30” 30” Plenum Opening Width (C) 13” 16½” 13” 16½” 13” 16½” 16½” 20” 13” 16½” 16½” 16½” 20 20 20 16½” 20 20 23½” 16½” 20 20” 20 16½” 20 20 20 23½” 23½” 20 23½” 23½” 20 23½” Specifications Nominal Tons 1½ 1½ 2 2 2½ 2½ 2½ 2½ 3 3 3 3 3 3 3 3 3 3 3 3½ 3½ 3½ 3½ 4 4 4 4 4 5 5 5 5 5 5 No. of Rows 2 2 2 3 3 3 3 3 2 3 2 3 3 2 2 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 3 4 4 4 Liquid Connection 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction Connection 5/8” 5/8” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” 7/8” CAPF Ship Weight (lbs) 31 33 33 35 38 42 48 48 38 48 48 60 55 55 48 48 55 60 60 60 65 60 57 55 65 65 57 58 68 61 68 75 68 75 C 1 2 1 2 Suction Connection 15 8 19 5 5 8 8 Liquid Connection B 3/4" Female NPT Primary & Secondary Drain Connections (Important: Hand Tighten) C A 20-1/8 21-1/8 21-1/8 78 . 96 2 2 3 3 2 3 3 3 3 3 4 4 14 14 14 14 14 14 14 14 14 14 14 14 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” ¾” ¾” ¾” ¾” ¾” ¾” ¾” 7/8” 7/8” 7/8” 7/8” 7/8” 40 48 45 45 50 55 55 60 65 65 70 70 A B C NOTE: All air opening flanges are 0.44 4.56 3.44 4.33 4. 79 .44 4.6250”. of Rows Fins / Inch Height (E) Width (D) CHPF—Cased Horizontal “A” Indoor Coil Specifications Liquid Connection Suction Connection Model Evap Coil Face Area (ft2) Primary Auxiliary Drain 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” Ship Weight (lbs) CHPF024A2* CHPF025B2* CHPF030A2* CHPF030A4* CHPF036B2* CHPF036B4* CHPF042B2* CHPF048C2* CHPF048D2* CHPF048D4* CHPF060D2* CHPF060D4* 21-1/8” 21-1/8” 21-1/8” 21-1/8” 21-1/8” 21-1/8” 21-1/8” 21-1/8” 21-1/8” 21-1/8” 21-1/8” 21-1/8” 26” 26” 26” 26” 26” 26” 26” 26” 26” 26” 26” 26” 14” 17½” 14” 14” 17½” 17½” 17½” 21” 24½” 24½” 24½” 24½” 19” 19” 19” 19” 19” 19” 19” 19” 19” 19” 19” 19” 13” 16½” 13” 13” 16½” 16½” 16½” 20” 23½” 23½” 23½” 23½” 3.33 3.CHPF Dimensions Height (C) Depth (B) Width (A) PRODUCT SPECIFICATIONS Plenum Opening No.96 5.33 3.96 5.96 5.88 5. 080 0.173 1000 0.PRODUCT SPECIFICATIONS CAPF.164 0. WC) SCFM CA**018A2* WET DRY SCFM CA**018B2* WET DRY SCFM CA**024A2* WET DRY SCFM CA**025B2* WET DRY SCFM CA**030A2* WET DRY SCFM CA**030B2* WET DRY SCFM CA**030C2* WET DRY SCFM CA**036A2* WET DRY SCFM CA**036B2* WET DRY SCFM CA**036C2* WET DRY SCFM CAP*037B2* WET DRY SCFM CAP*037C2* WET DRY 400 0. see Nomenclature on page 2 for details.071 0.036 400 0.034 500 0.150 1400 0.285 0.300 1400 0.431 0.226 0.061 900 0.249 0.124 0.084 700 0.073 0.220 1200 0.150 1300 0.010 400 0.085 0.200 1300 0.028 700 0.044 600 0.124 800 0.043 0.155 800 0.145 900 0.179 0.139 900 0.176 1400 0.148 0.064 0.254 1100 0.303 1200 --0.223 1100 0.340 1200 0. Pressure Drop (In.101 0.266 0.083 0.118 900 0.021 0.347 1400 0.038 0.039 0.064 500 0.107 800 0.048 600 0.045 800 0.120 700 0.436 0.149 0.086 800 0.315 0.028 500 0.104 0.129 800 0.122 0.189 0.211 1100 0.128 1300 0.365 0.267 1200 0.167 900 0.180 0.211 0.026 700 0.278 0.277 0.060 600 0.089 1100 0.276 0.256 1100 0.097 0.236 0.151 0.080 0.073 600 0.294 0.030 0.122 0.112 0.069 1000 0.186 1100 0.031 700 0.289 0.236 0.340 0.259 1300 0. Upflow/Downflow Applications Air Quantity (SCFM) Vs.034 400 0.152 1000 0.179 0.293 1200 0.304 0.019 0.113 800 0.060 0.137 1000 0.036 0.212 0.130 1100 0.320 0.054 500 0.322 0.146 0.198 0.133 800 0.038 800 0.097 700 0.034 400 0. CHPF Air Flow Data Static Pressure Drop Across Coil.216 1500 0.062 0.395 0.164 1200 0.054 0.339 1200 --0.052 500 0.061 0.016 0.034 400 0.264 * Revision designator.189 0.083 600 0.036 0.293 1100 0.102 0.190 0.052 900 0.147 0.229 0.213 1100 0.163 0.231 0.079 1000 0.245 1000 0.256 1200 0.011 600 0.199 900 0.052 500 0.138 0.050 0.102 1100 0. * Revision designator 80 .239 1000 0.103 700 0.301 1300 0.320 0.205 1000 0.070 700 0.227 0.255 1200 0.090 600 0.090 800 0.199 0.039 0.089 0.073 600 0.117 700 0.060 0.369 0.092 0.050 0.013 600 0. CAUF.116 0.111 900 0.285 1100 0.276 0.161 0.184 0.175 1000 0.252 1500 0.375 0.073 900 0.337 0.150 0.193 900 0.098 700 0.121 0.212 1000 0.247 0.104 0.339 0.065 700 0.100 1000 0.077 700 0.109 0.179 1000 0.153 800 0.072 0.323 0.281 0.346 1500 0.049 0.065 0.086 0.043 0.077 600 0.045 600 0.320 0.199 0.139 0.038 0.156 900 0.045 0.132 0.241 1400 0.043 400 0.127 1200 0.073 0.015 600 0.225 0.108 1200 0.055 500 0.164 1100 0.049 800 0.110 0.148 0.115 0.058 0.172 0.187 1200 0.163 900 0. 070 0.180 0.290 0.270 0.210 0.240 0.301 0.080 0.168 0.149 0.136 0.130 0.291 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 0.180 0.065 0.285 0.050 0.120 0.150 0.214 0.310 0.240 0.162 0. Pressure Drop (In.270 0.249 0.051 0.300 1000 1100 1200 1300 1400 1500 1600 1700 1800 0.130 0.150 0.074 0.042 0.140 0.090 0.161 0.081 0.091 0.205 0.090 0.220 0. CAUF.150 0.450 0.103 0.250 600 700 800 900 1000 1100 1200 1300 1400 1700 1800 1900 0.159 0.092 0.101 0.089 0.150 0.310 0.170 0.284 0.190 0.280 0.077 0.100 0.104 0.244 0.370 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 0.260 0. WC) SCFM CAP*037D2* WET DRY SCFM CAC*042B2* WET DRY SCFM CA**042C2* WET DRY SCFM CA**048B2* WET DRY SCFM CA**048C2* WET DRY SCFM CAP*049C2* WET DRY SCFM CAP*049D2* WET DRY SCFM CA**060C2* WET DRY SCFM CA**060D2* WET DRY SCFM CA**061C2* WET DRY SCFM CA**061D2* WET DRY 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 0.341 0.090 0.140 0.320 0.190 0.126 0.138 0.199 0.060 0.307 0.067 0.436 0.062 0.070 0.220 0.110 0.250 0.340 0.049 0.190 0.470 0.080 0.330 0.380 0.210 * Revision designator * Revision designator.390 0.160 0.099 0.264 0.100 0.320 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 0.150 0.270 0.400 0.240 0.240 0.190 0.216 0.130 0.064 0.133 0.122 0.031 0.120 0.120 0.347 0. CHPF Air Flow Data (cont.160 0.070 0.390 0.440 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 0.133 0.070 0.310 0.060 0.410 0.090 0.430 0.267 0.108 0.180 0.114 0.184 0.150 0.060 0.100 0.170 0.170 0.270 0.038 0.440 0.090 0.180 0.250 0.264 0.149 0.130 0.323 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 0.220 0.163 0.300 0.190 0.110 0.240 0.226 0.170 0.068 0.) PRODUCT SPECIFICATIONS Static Pressure Drop Across Coil. 81 .235 0.047 0.060 0.130 0.330 0.108 0.205 0.167 0.090 0.090 0.230 0.240 0.190 0.110 0.076 0.110 0.120 0.148 0.140 0.030 0.050 0.047 0.288 0.510 0.230 0.190 0.055 0.260 0.070 0.270 0.490 0.050 0.370 0.430 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 0.290 0.055 0.176 0.090 0.087 0.180 0.250 0.160 0.340 0.280 0.036 0.030 0.130 0.250 0.120 0.140 0.180 0.110 0.330 0.239 0.072 0.510 0.232 0.430 0.300 0.070 0.072 0.070 0.304 0.220 0.156 0.132 0. Upflow/Downflow Applications Air Quantity (SCFM) Vs.290 0.210 0.CAPF.133 0.150 0.360 0.090 0.154 0.180 0.340 0.370 0.301 0. see Nomenclature on page 2 for details.206 0.048 0.200 0.190 0.224 0.220 0.060 0.070 0.100 0.110 0.230 0.200 0.039 0.226 0.110 0.040 0.110 0.197 0.280 0.125 0.310 0.110 0.110 0.310 0.057 0.070 0.018 0.263 0.060 0.114 0.350 0.370 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 0.170 0.410 0.085 0.053 0.160 0.070 0.160 0.390 0.250 800 900 1000 1100 1200 1300 1400 1500 1600 1900 2000 2100 2200 0.230 0.381 0.200 0.330 0.400 0.240 0.090 0.210 0.106 0.026 0.160 0.230 0.120 0.350 0.070 0.310 0.100 0.184 0.460 0. 340 2000 2100 2200 0.319 800 900 1000 1100 1200 1300 1400 1500 1600 1700 0.220 1900 0.197 0. Reduce Air 3% * Nominal CFM.023 0.053 0.240 0.150 0.082 0. see Nomenclature on page 2 for details.222 0.286 0.355 0.024 0.370 0.354 1800 0.074 0.159 0.274 0.240 0.092 0.042 0.173 0.300 1900 2000 2100 2200 0.041 0.124 0.172 0.120 0.220 0.046 0.283 0.001 0.256 0.103 0.364 0.390 0.216 0.513 600 700 800 900 1000 1100 1200 1300 1400 --1500 0.034 0.034 0.140 0.224 0.076 0.058 0.204 0.200 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 0.041 0.PRODUCT SPECIFICATIONS Air Flow Data (cont.060 0.280 0.161 0.472 0.072 0.270 NOTE: For Horizontal Left Applications.310 0.120 0.060 0.110 0.208 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 ----1600 ----1500 1600 0.123 0. * Nominal CFM.254 0.178 0.100 0.082 0.055 0.219 600 700 800 900 1000 1100 1200 1300 1400 0.277 0.102 0.008 0.051 0.250 0.120 0.140 0.251 0.318 400 500 600 700 800 900 1000 1100 1200 0.070 0.154 0.210 0.238 0.199 0.130 0.120 0.151 0.186 0.331 0.406 0.555 0.070 0. CHPF 0.136 0.064 0.4339 1800 0.280 0.134 0.310 0.170 0.060 0.144 0.641 0.320 0.080 0.130 0.061 0.102 0.262 0.240 0.125 0.428 0.300 0. Revision designator 82 .252 0.310 0.017 0.115 0.346 0.190 0. Horizontal Right Applications Air Quantity (SCFM) Vs.065 0.040 0.260 0.331 0.016 0.050 0.090 0. WC) SCFM CHP*024A2* WET DRY SCFM CHP*025B2* WET DRY SCFM CHP*030A2* WET DRY SCFM CHP*036B2* WET DRY SCFM CHP*042B2* WET DRY SCFM CHP*048C2* WET DRY SCFM CHP*048D2* WET DRY SCFM CHP*060D2* WET DRY 400 500 600 700 800 900 1000 1100 1175 CAPF.160 0.156 0.300 0. Revision designator.137 0.304 0.350 0.168 0.400 0.208 0.078 0.172 0.196 0.096 0.250 0.180 0.080 0.320 0.126 0.330 0.383 0.104 0.224 0.108 0.110 0.095 0.042 0.080 0.129 0.430 0.076 0. Pressure Drop (In.4643 0.180 0.090 0.056 0.410 0.225 0.191 0.110 0.160 0.356 0.073 0.378 800 900 1000 1100 1200 1300 1400 1500 1600 1700 0.186 0.024 0.208 0.060 0.262 0.) Static Pressure Drop Across Coil.154 0.350 0.130 0. Reduce Air Flow Flow 3% NOTE: For Horizontal Left Applications.083 0.210 0.169 0.159 0.160 0. CAUF.104 0.090 0. 75 (2) 3.0 100.0 100.2 0.75 (3) 4.0 100.75 (3) 4.75 (4) 4. 5/8 5/8 5/8 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 Weight 105 105 108 106 109 109 109 113 116 116 116 116 120 120 120 122 125 141 144 144 144 144 145 145 144 147 147 147 148 173 176 176 176 176 192 195 195 195 192 195 195 195 *Capacity and efficiency ratings in accordance with US Government standard tests.4 0.75 (3) 4.0 100.0 100.75 (1) 4.75 (3) 4.0 100.0 Model No.5 (2) 4.75 (2) 4.0 100.5 (2) 4.49-10 A48/49-15 A48/49-20 A60-00 A60-10 A60-15 A60-20 A61-00 A61-10 A61-15 A61-20 PRODUCT SPECIFICATIONS PHYSICAL DATA Blower Dia. 8 8 8 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 Width 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 KW @230V (No. **Capacity Correction Factors 208V = 0.0 100.4% Model Speed 83 . of Elements) (1) 4.75 (3) 4.0 (2) 3.0 100.A18-61 PERFORMANC RATINGS E Capacity Model (TONS) No.75 (4) 4.0 100.75 (2) 3.0 100.3 0.75 (2) 3.75.0 100.0 100.0 100.5 (2) 4.0 100. inch H ²O 0.75 (3) 4.0 100.0 100.0 100. 230V =0. A18-00 A18-05(C) A18-08(C) A24-00 A24-05(C) A24-08(C) A24-10(C) A30-00 A30-05 A30-08(C) A30-10(C) A30-15 A32-00 A32-05 A32-08(C) A32-10(C) A32-15 A36-00 A36-05 A36-06 A36-08(C) A36-10(C) A36-15 A36-20 A42-00 A42-08(C) A42-10 A42-15 A42-20 A48/49-00 A49-08(C) A48. Connection Shipping Liq.0 100.75 (2) 3.0 100.92 (Heating) +Refer to unit specifications for actual rating BLOWER PERFORMANCE CFM Delivered Against External Static Pressure.0 100.0 100.75 (2) 4.5 (2) 4.75 (3) 4.0 100.0 100.0 100.0 100.75 (2) 4.75 (2) 3.5 (2) 4.5 (2) 4.0 100.0 100.75 (4) 4.0 100.75 (4) 4.75 (2) 3.75 (3) 4.5 A18 HIGH 700 630 580 530 490 LOW 620 560 500 420 360 A24 HIGH 960 930 890 840 780 LOW 810 780 760 720 670 A30/32 HIGH 1150 1090 1040 980 910 LOW 1060 1015 970 910 860 A36 HIGH 1450 1415 1360 1280 1200 LOW 1260 1240 1200 1145 1060 A42 HIGH 1550 1520 1470 1410 1350 LOW 1280 1250 1200 1200 1175 A48/49 HIGH 1670 1610 1500 1440 1370 LOW 1310 1300 1290 1280 1260 A60/61 HIGH 2170 2080 2000 1920 1850 LOW 1900 1810 1700 1590 1500 Dry coil with Filter in Place SCFM Correction for Wet Coil .0 100.75 (1) 4.0 100.0 100. Nominal (Cooling) A18-00 1 1/2 A18-05(C) 1 1/2 A18-08(C) 1 1/2 A24-00 2 A24-05(C) 2 A24-08(C) 2 A24-10(C) 2 A30/32-00 2 1/2 A30/32-05 2 1/2 A30/32-08(C) 2 1/2 A30/32-10(C) 2 1/2 A30/32-15 2 1/2 A36-00 3 A36-05 3 A36-06 3 A36-08(C) 3 A36-10(C) 3 A36-15 3 A36-20 3 A42-00 3 1/2 A42-08(C) 3 1/2 A42-10(C) 3 1/2 A42-15 3 1/2 A42-20 3 1/2 A48/49-00 4 A49-08(C) 4 A48/49-10 4 A48/49-15 4 A48/49-20 4 A60/61-00 5 A60/61-10 5 A60/61-15 5 A60/61-20 5 Capacity* BTUH 240V** (Heating) 17000 24700 17300 24900 33500 17600 25300 33800 50100 17900 22200 25600 34200 50400 66600 25800 34300 50600 66800 26000 34500 50700 67000 35200 51400 67600 Seasonal Efficiency AFUE% 100.75 Coil Drain Conn FPT 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 Refrigerant Approx. 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 Suct.5 (1) 4.1 0.75 (2) 3. 0 100.0 100.75 (2) 3.75 (3) 4. Nominal (Cooling) A18-00 1 1/2 A18-05(C) 1 1/2 A18-08(C) 1 1/2 A24-00 2 A24-05(C) 2 A24-08(C) 2 A24-10(C) 2 A30/32-00 2 1/2 A30/32-05 2 1/2 A30/32-08(C) 2 1/2 A30/32-10(C) 2 1/2 A30/32-15 2 1/2 A36-00 3 A36-05 3 A36-06 3 A36-08(C) 3 A36-10(C) 3 A36-15 3 A36-20 3 A42-00 3 1/2 A42-08(C) 3 1/2 A42-10(C) 3 1/2 A42-15 3 1/2 A42-20 3 1/2 A48/49-00 4 A49-08(C) 4 A48/49-10 4 A48/49-15 4 A48/49-20 4 A60/61-00 5 A60/61-10 5 A60/61-15 5 A60/61-20 5 Capacity* BTUH 240V** (Heating) 17000 24700 17300 24900 33500 17600 25300 33800 50100 17900 22200 25600 34200 50400 66600 25800 34300 50600 66800 26000 34500 50700 67000 35200 51400 67600 Seasonal Efficiency AFUE% 100.0 100.75 (3) 4.5 (2) 4.5 (2) 4.0 100.0 100.0 100.0 100.0 100. Connection Shipping Liq.0 100.0 100.75 (3) 4.75 (2) 3.75 (3) 4.5 (1) 4.75 (4) 4.0 100.4% Model Speed 84 .75 (2) 3.0 100.75 (2) 3.0 100.0 (2) 3.75 (2) 3.PRODUCT SPECIFICATIONS PERFORMANC RATINGS E Capacity Model (TONS) No. 8 8 8 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 9 1/2 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 Width 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 6 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 10 5/8 KW @230V (No.5 (2) 4.75 (4) 4.0 100.0 100.0 100.0 100.0 100.75 (3) 4. **Capacity Correction Factors 208V = 0.0 100. inch H ²O 0.2 0.0 100.5 A18 HIGH 700 630 580 530 490 LOW 620 560 500 420 360 A24 HIGH 960 930 890 840 780 LOW 810 780 760 720 670 A30/32 HIGH 1150 1090 1040 980 910 LOW 1060 1015 970 910 860 A36 HIGH 1450 1415 1360 1280 1200 LOW 1260 1240 1200 1145 1060 A42 HIGH 1550 1520 1470 1410 1350 LOW 1280 1250 1200 1200 1175 A48/49 HIGH 1670 1610 1500 1440 1370 LOW 1310 1300 1290 1280 1260 A60/61 HIGH 2170 2080 2000 1920 1850 LOW 1900 1810 1700 1590 1500 Dry coil with Filter in Place SCFM Correction for Wet Coil .92 (Heating) +Refer to unit specifications for actual rating BLOWER PERFORMANCE CFM Delivered Against External Static Pressure.75 (2) 3.75 (2) 4.0 100.0 100.0 100.5 (2) 4.0 100.3 0.75 (3) 4.4 0.0 100.75 (1) 4.75. 5/8 5/8 5/8 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 7/8 Weight 105 105 108 106 109 109 109 113 116 116 116 116 120 120 120 122 125 141 144 144 144 144 145 145 144 147 147 147 148 173 176 176 176 176 192 195 195 195 192 195 195 195 PHYSICAL DATA Model No.5 (2) 4.75 Coil Drain Conn FPT 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 3/4 Refrigerant Approx.1 0. of Elements) (1) 4.75 (2) 4.5 (2) 4.0 100. 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 Suct.0 100.75 (4) 4.0 100.0 A18-61 Blower Dia.75 (2) 4.0 100. 230V =0.75 (1) 4.75 (4) 4.0 100.75 (3) 4.0 100. A18-00 A18-05(C) A18-08(C) A24-00 A24-05(C) A24-08(C) A24-10(C) A30-00 A30-05 A30-08(C) A30-10(C) A30-15 A32-00 A32-05 A32-08(C) A32-10(C) A32-15 A36-00 A36-05 A36-06 A36-08(C) A36-10(C) A36-15 A36-20 A42-00 A42-08(C) A42-10 A42-15 A42-20 A48/49-00 A49-08(C) A48.75 (3) 4.0 100.75 (2) 3.49-10 A48/49-15 A48/49-20 A60-00 A60-10 A60-15 A60-20 A61-00 A61-10 A61-15 A61-20 *Capacity and efficiency ratings in accordance with US Government standard tests. 42 19” x 22” x 1” A48. 42 A48.A18-61 Model: A18 -61 PRODUCT SPECIFICATIONS B 1 C 1 F VOLTAGE INLET TOP & LEFT SIDE E 11 1 *SECONDARY DRAIN 5/8” O. CU. A18-42 (ONLY) TOP POWER SUPPLY J SUCTION LINE LIQUID LINE A FOR A48-61 SEE (*) K L 2 1/4 H 2 1/8 CONDENSATE DRAIN-UPFLOW 3/4” NPT-FEMALE FILTER PROVISION 1 3/16 G INLET RIGHT SIDE VIEW 1 3/16 3/16 D INLET FRONT VIEW Model A18. 30. (Actual Dimensions) A18. A48-61 (ONLY) N M CONDENSATE DRAIN-HORIZONTAL 3/4” NPT. 24. 49. 60. Filter will be field supplied.812 H 14 3/4 14 3/4 20 3/4 J 1 3/4 1 3/4 1 5/8 K 9 7/8 9 7/8 10 1/2 L 8 1/4 8 1/4 8 1/8 M 2 2 1 3/16 N 2 3/4 2 3/4 3 1/2 * A48-61. 60. Copper Tube FILTER .D. 32 15” x 20” x 1” A36. 49. 61 21 1/2” x 24” x 1” Note: All filters above must be cut to size. Secondary Drain 5/8 O. 30. 24.D.PERMANENT WASHABLE Filter size Model No.812 19. NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT N OTICE NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE 85 . 61 A 41 1/8 46 3/4 53 1/4 B 15 1/2 19 1/2 22 C 13 1/2 17 1/2 20 D 13 1/8 17 1/8 19 5/8 E 22 22 24 F 10 10 12 G 19. 32 A36.812 21. 13 cm] 8 [20.99 cm] 3/4 [1.91 cm] Suct.5 490 375 866 788 915 863 1285 1154 1350 1175 1393 1343 1850 1630 AR18-1 AR24-1 AR30/32-1 AR36-1 AR42-1 AR48/49-1 AR60/61-1 Capacity (TONS) Nominal (Cooling) 1 1/2 2 2 1/2 3 3 1/2 4 5 Seasonal Efficiency AFUE% 100.0 100.95 1.0 100.0 0.59 cm] AR18-1 AR24-1 AR30-1 AR32-1 AR36-1 AR42-1 AR48/49-1 AR60-1 AR61-1 197 197 197 197 197 197 197 197 197 253 253 253 253 253 253 253 253 253 0.7/2.43 kg] 9 1/2 [24.0 100.9/4.52 cm] Model No.2/1. VAC Max VAC Blower Motor FLA HP 1/5 1/5 1/3 1/3 1/3 1/2 1/2 3/4 3/4 Coil Drain Conn Width 6 [15.91 cm] 3/8 [.99 cm] 10 5/8 [26.13 cm] 8 [20.9 2. Amps @208/240V @208/240V 1.Heat Kit requires three phase power supply 86 .52 cm] 3/4 [1.22 cm] 192 [87. Shipping Weight 105 [47.9/1.22 cm] 192 [87.52 cm] 3/4 [1.91 cm] 3/8 [.95 cm] 7/8 [2.13 cm] 6 [15.5 1.0 100.3 4.PRODUCT SPECIFICATIONS ELECTRICAL DATA Single Supply Circuit Minimum Maximum Circuit Overcurrent Ampacity Prot.4 630 580 530 600 545 493 1023 978 923 914 881 847 1106 1040 980 1039 1982 914 1472 1418 1358 1307 1277 1323 1530 1471 1410 1485 1423 1367 1610 1531 1467 1516 1465 1405 2080 2000 1920 1810 1780 1710 PERFORMANCE RATINGS Model No.91 cm] 3/8 [.99 cm] 10 5/8 [26.4%.9 9½ [24.91 cm] 3/8 [. 8 [20.4 2.13 cm] 8 [20.47 kg] 10 5/8 [26.09 kg] 10 5/8 [26.91 cm] 106 [48.0 100.24 cm] Refrigerant Connection Liq.4/2. Min.24 cm] 3/4 [1.13 cm] 6 [15.91 cm] 120 [54.8/2.91 cm] 144 [65.3 0. 3/8 [.7 2.0 100.95 cm] 7/8 [2.24 cm] 3/4 [1.95 2.2 1.95 cm] 3/4 [1.52 cm] 3/4 [1.32 kg] 9 1/2 [24. 0.63 kg] FPT 3/4 [1.91 cm] 3/8 [.95 cm] 3/4 [1.95 cm] Approx.91 cm] 3/8 [.91 cm] 3/8 [.4/2.9 3.9 15/15 15/15 15/15 15/15 15/15 15/15 15/15 15/15 15/15 AR SERIES PHYSICAL DATA Blower Dia.15 2.96 1.95 cm] 7/8 [2.24 cm] 3/4 [1.91 cm] 141 [63.96 kg] 9 1/2 [24.9 4.9/4.91 cm] 113 [51.91 cm] 3/8 [. HEATER KIT APPLICATION OPTIONS AR18-1 HKR-03 HKR-05(c) HKR-06 HKR-08(c) HKR-10(c) HKR-15C HKR-20C HKR-21C HKR3-15* HKR3-20* (c) circuit breakers optional * -(c) circuit breakers optional Heat Kit requires three phase power supply AR24-1 AR30-1 AR32-1 AR36-1 AR42-1 AR48/49-1 AR60-1 AR61-1 X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X * .95 cm] 3/4 [1.2 0.09 kg] [ ] DESIGNATES METRIC EQUIVALENTS IN CENTIMETERS AND KILOGRAMS BLOWER PERFORMANCE Model Speed CFM Delivered Against External Static Pressure.95 cm] 3/4 [1. inch H²O 0.1 HIGH 700 AR18-1 LOW 674 HIGH 1056 AR24-1 LOW 935 HIGH 1150 AR30/32-1 LOW 1060 HIGH 1549 AR36-1 LOW 1322 HIGH 1586 AR42-1 LOW 1524 HIGH 1670 AR48/49-1 LOW 1580 HIGH 2170 AR60/61-1 LOW 1900 Dry coil with Filter in Place SCFM Correction for Wet Coil .8 3.4 2. 5/8 [1.2 2.95 cm] 3/4 [1.26 kg] 9 1/2 [24.08 kg] 9 1/2 [24.6 3.3/3.99 cm] 3/4 [1.22 cm] 173 [78.13 cm] 6 [15. 343 [8.4 cm] K 3.4 cm] 19.5 cm] 19.3 cm] 19.4 cm] 10 [25.3 cm] 17.812 [50.05cm] 3.0 cm] 46.0 cm] 13. 49.5 [55.9 cm] E 10 [25. 24.811 [27.375 [34.8 cm] [ ] DESIGNATES METRIC EQUIVALENTS NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE.5 [36.375 [34.5 [49.3 cm] 22 17.5 cm] 24 20 [61.7 cm] 53.125 [33.125 [107. 32 AR36.5 [39. 60.563 [9.8 cm] J 19.9 cm] [34. 30.811 [27.49cm] 22 13.5 [55.AR SERIES PHYSICAL DIMENSIONS (See fig. 42 AR48.3 cm] 21.0 cm] 14.3 cm] B C D 15. 87 .0 cm] [50.05cm] 3.812 [50.935 [30.3 cm] H 13.5 cm] 22 [55.9 cm] [44.5 cm] 11.563 [9.75 [118.4 cm] 12 [30.8 cm] G 10.812 [55.125 [43.25 [135.625 [49.5 cm] F 13. 61 A 41. Below) PRODUCT SPECIFICATIONS Base Model # AR18.5 cm] 10. 8 5/8 41 x ½ 4.2 35 11 x 10 (2) 5.2 6.000 Standard Standard 16 x 20 x 2 (4) 9 14 .3 Belt Dive 1½ 208/230/460 3 60 5.Rows Metering Device (Qty.8 Belt Dive 2 208/230/460 3 60 6 32 11 x 10 (2) 6.9 5/8 39 x ½ 3.9 to 2.) Condensate Drain 208/240/460 3 60 187 . & Width (Qty.) Pulley Pitch Dia.) Suction Connection (Qty. ft.) Refrigerant Liquid Connection (Qty.4 Expansion Valve (2) R-22 3/8 (2) 1-1/8 (2) ¾ FPT DIMENSIONS 5/8 NOTE: AR090 (1) 5/8 Liquid Line AR120 (2) 3/8 Liquid Line 88 .5 / 3.000 Standard Standard 16 x 20 x 2 (2) 20 x 20 x 2 (2) 10 14 .4 Expansion Valve (1) R-22 5/8 1-1/8 ¾ FPT AR COMMERCIAL SERIES AR120 208/240/460 3 60 187 .253 / 414-506 5./Min.PRODUCT SPECIFICATIONS SPECIFICATIONS AR090 Electrical Unit volts Phase Hertz Voltage Range FLA (Total) Minimum Circuit Ampacity Blower Motor Type Type Horse Power Volts Phase Hertz FLA LRA Blower & Controls Wheel Dia.5 / 3.) FPI .5 1 2.) Transformer (60 VAC.8 to 3.) Blower Relay Filter. Bore Belt Length & Width Nominal Airflow (Ft.9 1 1. Coil & Refrigerant Filter Size (Disposable) / Qty Coil Area (sq.253 / 414-506 6 7. Bore Motor Pulley Pitch Dia. 800 2.000 4.900 15 3.200 2. these are the ONLY heater kits that can be used with the AR Series.200 3.100 4. Divide the temperature rise from the table by 2 for 1st stage operation for systems using staged electric heat.200 3.200 2.900 30 3.900 4.200 Supply Voltage 208 10 10 10 10 9 14 14 13 13 13 21 20 20 19 19 240 14 14 13 13 13 19 18 18 17 17 28 27 27 26 25 480 14 14 13 13 13 19 18 18 17 17 28 27 27 26 25 *Tables above are calculated with both stages of electric heat engaged (2-stage heat systems).100 3.800 2.100 3.800 3.000 4.AR COMMERCIAL SERIES PRODUCT SPECIFICATIONS DUCT CONNECTION SIZING WITHOUT ELECTRIC HEATERS Minimum Supply and Return Duct Dimensions Supply Duct A 13 ” B 40” Return Duct C 24” D 48” 14 Dimensional Data for Electric Heater Kits • 15.800 3.900 4.000 4.200 Supply Voltage 208 14 14 13 13 12 19 18 18 17 17 28 27 27 26 25 240 19 18 18 17 17 25 24 24 23 22 38 37 35 34 33 480 19 18 18 17 17 25 24 24 23 22 38 37 35 34 33 30 AR120 20 15 Model Heat Kit kW CFM 3.) 56 55 59 57 60 58 Max. 20 & 30 kW Heater Kits • Supply opening is 13 ” x 40 ” 13 -7/8 40 -1/8 ELECTRIC HEATER KITS AHKD Model Number AHKD15-3 AHKD15-4 AHKD20-3 AHKD20-4 AHKD30-3 AHKD30-4 Nominal kW 15 15 20 20 30 30 Electrical Characteristics 208-230/3/60 460/3/60 208-230/3/60 460/3/60 208-230/3/60 460/3/60 Stages 1 1 2 2 2 2 Weight (lbs.100 4.900 AR090 20 3.800 2. and building power supply must be compatible. electric heater kits.000 3. TEMPERATURE RISE (DEGREES °F) Model Heat Kit kW CFM 2. Overcurrent Protection 60 30 70 35 100 50 NOTES: 1) AR Series Air handlers do not have factory-installed electric heat. 2) The electrical characteristics of the air handler.900 4.000 3. Purchased as an accessory. 89 .800 3.100 3.000 3.100 4. 295 2.5 NOTES: AR COMMERCIAL Motor Sheave Turns Open 1 4.347 2.930 3.613 4 3.561 3.037 4. FILTERS Model AR090 AR120 Filter Size 16” x 20” x 2” 16” x 20” x 2” 20” x 20” x 2” 90 .223 2.782 3.041 3.235 3.066 2.642 5 4.842 3.842 3.4 0.2 0.853 3.996 6.705 3.807 3.589 3.484 4.315 4.485 3.852 4.2 0.6 0.610 * With dry coil and 2" air filter NOTES: Any adjustment made ot the blower should not cause the motor to draw more than the motor's rated RLA. Applications that exceed the above could require a larger motor.393 4.002 2.998 2.873 4.073 2.293 4.117 2 4.7 0.8 0.172 3.5 0. AR120 AIR DELIVERY* Static Pressure 0.073 3.675 4.962 3 4.445 6.379 3.264 3. Applications that exceed the above could require a larger motor.3 0.633 3.113 2 3.790 4.091 3.273 2.731 6.603 4.892 4 4.687 4.3 0.939 3.662 3 3.589 3.012 4.193 5.540 1 5.4 0.9 Motor Sheave Turns Open 0 5.1 0.501 4.1 0.922 2.268 4.529 4.517 * With dry coil and 2" air filter Any adjustment made ot the blower should not cause the motor to draw more than the motor's rated RLA.097 3.673 3.097 3.PRODUCT SPECIFICATIONS AR090 AIR DELIVERY* Static Pressure 0. AH PRODUCT SPECIFICATIONS 91 . PRODUCT SPECIFICATIONS AH 92 . BTUH 230V 16.7 42.9 6.6 28.075 830 1.015 785 1. order “HEAT PUMP SHUT OFF KIT HPSK-01.9 33.9 4.5 24.9 31.08 230 1.4 20.8 4.9 23.96 Motor Speed High Low High Low High Low High Low 0.3 0.00 220 .9 6.9 33.6 28.4 24. When matching the “AC” unit that has electric heat with a heat pump.84 208 .0 7.4 24.5 27.5 27.4 16.5 24.4 16.” The ACXX-00 units do not require this kit.5 18.9 28.3 9.4 208V 13.6 208V 18.0 8.1 780 675 935 720 1.090 830 520 460 735 565 865 665 1.0 8.0 7.92 210 .3 13.3 4.3 Heater Total Amps 230V 20.3 9.0 6.3 20.7 38.82 (Multiply the 230-volt capacity by factors) Blower Performance Model AC18-05D AC18-06D AC18-08D AC24-05D AC24-06D AC24-08D AC24-10D AC30-05D AC30-08D AC30-10D AC36-05D AC36-08D AC36-10D Dry coil with filter in place 208-volt operation x .7 18.5 27.6 31.8 7.9 23.3 9.8 6.8 7.9 16.AC Specifications Model AC18-05D AC18-06D AC18-08D AC24-05D AC24-06D AC24-08D AC24-10D AC30-05D AC30-08D AC30-10D AC36-05D AC36-08D AC36-10D Heater KW 230V 4.9 4.0 3.5 PRODUCT SPECIFICATIONS Maximum Overcurrent Protection 230V 208V 30 30 40 40 45 40 30 30 40 40 45 40 60 60 30 30 45 40 60 60 45 40 60 60 Minimum Circuit Ampacity 230V 29 36 43 29 36 43 56 29 43 58 44 59 208V 27 33 39 27 33 39 51 27 39 53 39 54 Shipping Weight (pounds) 59 59 59 59 59 59 59 69 69 69 76 79 79 NOTE: When the room thermostat calls for second stage heat.9 33.150 880 625 510 810 630 945 720 1.025 770 0.0 K-Capacity Max.1 31.4 20.5 28.7 42. the first stage (heat pump) operation must be locked out.4 16.5 13.0 8.4 710 585 880 680 1.8 6.9 26. Heating Capacity/KW Correction Factor Supply Voltage Correction Factor 240 1.7 42.200 920 CFM Delivered Against External Static Pressure 0.6 20.4 20.9 26.9 6.8 208V 3.2 0.7 38.1 31.7 20.5 440 400 675 490 770 605 945 710 93 .7 20.0 3.7 20.7 38. PRODUCT SPECIFICATIONS Dimensions Model AC18-05D AC18-06D AC18-08D AC24-05D AC24-06D AC24-08D AC24-10D AC30-05D AC30-08D AC30-10D AC36-05D AC36-08D AC36-10D A 37¼ B 3411/16 C 30 D 6½ AC 37¼ 3411/16 30 6½ 43¼ 4011/16 36 6½ 49¼ 4611/16 42 6½ 94 . AC PRODUCT SPECIFICATIONS 95 . 24 8.000 140 ºF 18.5 390 420 530 590 750 840 760 1.150 16.450 19.030 960 890 930 880 820 1.9 HP 1/8 1/3 1/3 1/2 Circulator Motor FLA 0.090 970 1.400 23.000 1.500 23.74 0.060 Model ACHP1819-1/-1FP* ACHP2423-1/-1FP ACHP3028-1/-1FP ACHP3632-1/-1FP A 40¼” 40¼” 46¼” 58” B 37¼” 37¼” 43¼” 55” C 34-11/16” 34-11/16” 40-11/16” 52½” 0.000 24.600 Service Valve Liquid 3/8” 3/8” 3/8” 3/8” Suction 5/8” 3/4” 3/4” 3/4” ACHP Shipping Weight (pounds) 65 65 75 105 * -1FP designates the models with a factory-installed freeze protection control Electrical Data Model ACHP1819-1/-1FP* ACHP2423-1/-1FP ACHP3028-1/-1FP ACHP3632-1/-1FP Volt 115 115 115 115 Min Volt 103 103 103 103 Max Volt 126 126 126 126 Minimum Circuit Ampacity 2.600 42.300 49.300 32.000 36.24 5.0 6.68 8.180 1.500 35.000 180 ºF 28.000 30.2 0.55 6.62 Maximum Overcurrent Protection (amps) 15 15 15 15 Blower Motor FLA 1.74 HP 1/25 1/25 1/25 1/25 Blower Performance (Wet Coil) Model ACHP1819-1/-1FP* ACHP2423-1/-1FP ACHP3028-1/-1FP ACHP3632-1/-1FP Motor Speed Low High Low High Low High Low High 0.3 0.PRODUCT SPECIFICATIONS Specifications Model ACHP1819-1/-1FP* ACHP2423-1/-1FP ACHP3028-1/-1FP ACHP3632-1/-1FP Nominal Cooling Capacity (BTUH) 18.260 CFM Delivered Against External Static Pressure 0.000 Heating Capacity Entering Water 120 ºF 13.4 570 510 450 620 560 500 710 650 600 770 700 650 940 880 810 1.74 0.040 D 30” 30” 36” 47¾” Dimensions Model ACHP1819-1/-1FP* ACHP2423-1/-1FP ACHP3028-1/-1FP ACHP3632-1/-1FP 96 .1 610 670 760 820 1.000 27.0 3.120 1.74 0. 321 208V 13.0 26.8 34.3 26.4 20.0 30.0 Maximum Overcurrent Protection 240V 208V 30 40 30 40 60 30 50 60 30 50 60 30 40 30 40 50 30 40 50 30 40 50 97 .6 46.647 26.326 19.326 19.177 34.0 27.5 34.1 17.6 53.6 53.0 35.1 17.341 26.177 17.0 17.6 40.199 20.6 46.0 30.8 20.791 35.8 20.8 34.707 18.7 208V 23.261 26.468 25.0 23.824 Heater Total Amps 240V 20.5 34.9 40.951 14.199 20.4 40.791 35.261 26.0 30.8 208V 17.9 40.0 35.321 18.468 13.7 23.0 53.3 26.1 Minimum Circuit Ampacity 240V 26.3 26.3 45.647 26.0 30.4 40.AWB Specifications Model AWB18-05D AWB18-08D AWB24-05D AWB24-08D AWB24-10D AWB30-05D AWB30-08D AWB30-10D AWB36-05DFR AWB36-08DFR AWB36-10DFR Refrigerant Connection Line Liquid 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction 5/8” 5/8” 5/8” 5/8” 5/8” 5/8” 5/8” 5/8” 3/4” 3/4” 3/4” PRODUCT SPECIFICATIONS Type Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Sweat Shipping Weight (pounds) 81 81 84 84 84 84 84 84 96 96 96 Electrical Data Model AWB18-05D AWB18-08D AWB24-05D AWB24-08D AWB24-10D AWB30-05D AWB30-08D AWB30-10D AWB36-05DFR AWB36-08DFR AWB36-10DFR Capacity Tons Cooling 240V 1½ 1½ 2 2 2 2½ 2½ 2½ 3 3 3 Capacity BTUH Heating 240V 17.824 14.0 35.3 23.7 27.6 40.341 26.4 40.3 26. (3/4" NPT FEMALE CONNECTION) NOTE: HAND TIGHTEN ONLY FRONT RETURN FILTER LARGE CHASSIS 98 .PRODUCT SPECIFICATIONS Dimensions A Small Chassis (AWB18/24/30) Large Chassis (AWB36) B C D E Filter AWB 36” 36” 20³/16” 24” 16 ” 21” 16” 19 ” 11” 15 ” 14” x 18” x 1” 16” x 20” x 1” LOW VOLT POWER SUPPLY (LARGE CHASSIS ONLY) SUCTION LINE OFFSET HANGING BRACKET LIQUID LINE PULL OUT DISCONNECT REMOVABLE SERVICE DOOR LOW VOLT POWER SUPPLY ELECTRICAL POWER SUPPLY FRONT ACCESS PANEL SMALL CHASSIS STUD ATTACHMENT HOLES BOTTOM PRIMARY AND SECONDARY DRAINS CAN BE ACCESSED THROUGH THE BOTTOM OF THE UNIT. 76 208 .5 587 569 734 692 907 806 931 887 Heating Capacity Correction Factor (3) Supply Voltage Correction Factor 240 1.113 963 1.1 AWB18 AWB24 AWB30 AWB36 High Low High Low High Low High Low 837 821 908 877 1.012 949 .2 787 771 870 840 1.107 1.102 PRODUCT SPECIFICATIONS CFM Delivered Against External Static Pressure .4 665 658 790 752 968 859 1.96.028 . (3) Multiply 240 volt capacity by correction factor.019 901 1.191 1.84 210 .066 934 1.171 .278 1.74 (1) Dry coil with filter in place (2) 208 volt operation x .3 734 718 833 799 1.00 230 .AWB Blower Performance (1) (2) Model Motor Speed .92 220 . 99 . 15 2.95 1.4/5.6 3.9 15/15 5.5 1.2 15/15 1.0 2.9/4.95 1.7/2.9 3.4 15/15 2.2/1.4 15/15 Minimum VAC 197 197 197 197 197 197 197 197 197 197 197 197 197 197 Maximum VAC 253 253 253 253 253 253 253 253 253 253 253 253 253 253 Blower Motor HP 1/5 1/5 1/3 1/3 1/3 1/3 1/2 1/3 1/2 1/2 1/2 3/4 3/4 3/4 FLA 0.4 15/15 2.9/4.8 15/15 3.9 4.3/3.6 2.1 15/15 2.96 1.8/3.7 15/15 2.3/3.8 15/15 3.2 3.7 2.9 15/15 4.9/4.9 15/15 4.3 15/15 4. Circuit Ampacity Max.8/2.1/2. Overcurrent @ 208/240V Protection @ 208/240V 1.3 100 .4/2.4/2.3 15/15 3.9 15/15 2.95 3.9/1.PRODUCT SPECIFICATIONS Specifications Model ARUF018-00A-1 /-1A ARUF024-00A-1 /-1A ARUF030-00A-1 /-1A ARUF032-00A-1 /-1A ARUF032-00A-1B ARUF036-00A-1 /-1A ARUF042-00A-1 /-1A ARUF042-00A-1B ARUF048-00A-1 /-1A ARUF049-00A-1 /-1A ARUF049-00A-1B ARUF060-00A-1 /-1A ARUF061-00A-1 /-1A ARUF061-00A-1B Blower Wheel Width Depth 8” 6” 9½” 6” 9½” 6” 9½” 6” 9½” 8” 9½” 8” 9½” 8” 9½” 8” 9½” 8” 9½” 8” 10 ” 8” 10 ” 10 ” 10 ” 10 ” 10 ” 10 ” Coil Drain Connection FPT 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” Service Valve Liquid Suction 3/8” 5/8” 3/8” 3/4” 3/8” 3/4” 3/8” 3/4” 3/8” 3/4” 3/8” 3/4” 3/8” 3/4” 3/8” 3/4” 3/8” 3/4” 3/8” 7/8” 3/8” 7/8” 3/8” 7/8” 3/8” 7/8” 3/8” 7/8” ARUF Approximate Shipping Weight (pounds) 105 106 113 120 120 141 144 144 173 173 173 192 192 173 Electrical Data Model ARUF018-00A-1 /-1A ARUF024-00A-1 /-1A ARUF030-00A-1 /-1A ARUF032-00A-1 /-1A ARUF032-00A-1B ARUF036-00A-1 /-1A ARUF042-00A-1 /-1A ARUF042-00A-1B ARUF048-00A-1 /-1A ARUF049-00A-1 /-1A ARUF049-00A-1B ARUF060-00A-1 /-1A ARUF061-00A-1 /-1A ARUF061-00A-1B Single Supply Circuit Min. 5” 22” 22” 22” 22” E 10” 10” 10” 10” 10” 10” 12” 12” 12” 12” F 14.625” I 17.125” 42.125” 17.938” 17.410 1.340 1.5” 13.580 1.370 1.3” 0.938” 19.231 1.625” 19.25” B 22” 22” 22” 22” 22” 22” 24” 24” 24” 24” C 13.470 1.470/1.207/956 1.182/1.040/980 1.780 2.710 1.470/1.024” 2.586/1.670/1.5” 15.630 1.530/1.920/1.410/1.318 2.938” 17.499/1.25” 53.778/1.706/1.124/1.150 1.718/1.5” G 11.024” 2.920/1.125” 46.5” 13.080/1.935” 11.310 1.935” 11.938” 19.080/1.068/1.040/980 1.276 2.580 1.938” 17.353/1.280 1.75” 46.170/1.470/1.6310/1.000/1.562 920/850 980/910 980/910 950/750/530 1.016 1.935” 11.437/1.938” 17.125” 13.837” 1.020/790/570 1.5” 14.4% 101 .470/1.5” 14.935” H 13.125” 42.5” 14.417/1.350/1.524 1.482 Dry coil with Filter in Place CFM Correction for Wet Coil .25” 53.2” 0.322 1.060 1.644/1.ARUF Dimensions PRODUCT SPECIFICATIONS Model ARUF018-00A-1A ARUF024-00A-1A ARUF030-00A-1A ARUF032-00A-1B/-1C ARUF036-00A-1A ARUF042-00A-1A/-1B ARUF048-00A-1A ARUF049-00A-1A/-1B ARUF060-00A-1A ARUF061-00A-1A/-1B A 42.5” 14.837” 1.024” 2.672 CFM Delivered Against External Static Pressure (inches water) 0.520 1.520 1.75” 53.810 2.938” 17.312/1.625” 19.125” 13.290/1.477/1.625” 19.320 1.5” 20” 20” 20” 20” D 15.5” 13.170/1.5” 15.024” 1.5” 14.837” 1.032/890 1.056/935 1.25” 53.837” Blower Performance Model ARUF018-00A-1/-1A ARUF024-00A-1/-1A ARUF030-00A-1/-1A ARUF032-00A-1/-1A ARUF032-00A-1B ARUF036-00A-1/-1A ARUF042-00A-1/-1A ARUF042-00A-1B ARUF048-00A-1/-1A ARUF049-00A-1/-1A ARUF049-00A-1B ARUF060-00A-1/-1A ARUF061-00A-1/-1A ARUF061-00A-1B Speed High/Low High/Low High/Low High/Low High/Medium/Low High/Low High/Low High/Medium/Low High/Low High/Low High/Medium/Low High/Low High/Low High/Medium/Low 0.530/1.051 1.549/1.116/890 1.379/1.810 2.024” 2.938” 19.5” 19.935” 11.935” 11.710 1.5” 19.323/1.410 1.192/1.938” J 2.125” 19.5” 490/380 870/790 920/860 920/860 900/710/490 1.900 2.670/1.5” 14.1” 700/674 1.490 1.5” 14.060 1.020/910 1.984/1.851/1.420/1.534/1.532 0.052/1.280/1.150/870/640 1.040 1.4” 630/600 580/545 530/490 1.935” 11.346 2.780 2.901/1.090/830/610 1.5” 14.935” 11.360/1.630 1850/1.390/1.125” 13.938” 19.040 1.5” 17.6310/1.110/1.390/1.470 1.125” 17.530/1.5” 17.000/1.935” 11.340 1.935” 11.110/1.267/1.147 1850/1.934/1.606 980/880 1.175 1.5” 14.900 2.150/1.125” 42.420 1.150/1.609/1.5” 15.902/1.676/1.024” 2. this air handler must be on high speed. When using a 20 kW or 21 kW heat kit. † When using a 15 kW heat kit.PRODUCT SPECIFICATIONS Heat Kit Applications ARUF032-00A-1B/-1C ARUF018-00A-1/-1A ARUF024-00A-1/-1A ARUF030-00A-1/-1A ARUF036-00A-1/-1A ARUF042-00A-1/-1A ARUF048-00A-1/-1A ARUF049-00A-1/-1A ARUF060-00A-1/-1A ARUF061-00A-1/-1A ARUF042-00A-1B ARUF049-00A-1B ARUF HKR-03 HKR-05(c) HKR-06 HKR-08(c) HKR-10(c) HKR-15(c) HKR-20(c) HKR-21(c) HKR3-15* HKR3-20* X X X X X X X X X X X X X X X X X X X X+ X† X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X (c) Circuit breakers optional * Heat Kit requires 3-phase power supply + When using a 10 kW heat kit. this air handler must be on high speed. this air handler must either be in medium or high speed. Expansion Valve Kits for Air Conditioning-only Applications Kit Number XVB18-36C XVB42-60C XV18-36C XV42-60C Used With ARUF018 to ARUF036 ARUF042 to ARUF060 ARUF018 to ARUF036 ARUF042 to ARUF061 Description 20% bleed valve 20% bleed valve Non-bleed valve Non-bleed valve Coil Insulation Kit For Downflow Applications Chassis Size Small Medium Large Insulation Kit DPI18-30/20 DPI36-42/20 DPI48-60/20 Note: Each kit contains enough material to modify 20 coils 102 ARUF061-00A-1B X X X X X X X X X X . 6 3.3 4.4 3.9 HP 1/5 1/3 1/2 3/4 ARPF024-00B-1/-1A ARPF036-00B-1/-1A ARPF048-00B-1/-1A ARPF060-00B-1/-1A Heat Kit Selection ARPF024-00B-1/-1A HKR-03A HKR-05CA HKR-06A HKR-08CA HKR-10CA HKR-15CA HKR-20CA HKR-21CA HKR3-15A* HKR3-20A* NOTE: The C indicates circuit breakers are optional.3/3. * Heat Kit requires 3-phase power supply.9 15/15 15/15 15/15 15/15 Minimum Maximum VAC VAC 197 197 197 197 253 253 253 253 Blower Motor FLA 1.9/4.5 1.95 2.9 2. X X X X X ARPF036-00B-1/-1A X X X X X X ARPF048-00B-1/-1A X X X X X X X X X X ARPF060-00B-1/-1A X X X X X X X X X X X X X X X X X X X X 103 .9/1.4/2.ARPF Specifications Blower Model ARPF024-00B-1/-1A ARPF036-00B-1/-1A ARPF048-00B-1/-1A ARPF060-00B-1/-1A Diameter 9½” 9½” 9½” 10 ” Width 6” 6” 8” 10 ” PRODUCT SPECIFICATIONS Coil Drain Connection FPT 3/4” 3/4” 3/4” 3/4” Connection Liquid 3/8” 3/8” 3/8” 3/8” Suction 3/4” 3/4” 7/8” 7/8” Shipping Weight (pounds) 106 120 173 192 Electrical Data Model Single Supply Circuit Maximum Minimum Circuit Overcurrent Ampacity Protection @ 208/240V @ 208/240V (amps) 1. 150 1.030 1.510 1.280 / 1.875” 11.430 2.5” 21.460 1.010 / 880 980 / 880 910 / 810 1.470 / 1.4” 0.4% 104 .050 / 1.313” 15.000 2.5” 15.313” 21.438” 21.250 / 2.180 / 2.530 / 1.625” I 19.160 / 1.438” M 15.25” 9.050 / 900 1.5” 19.125” 13.330 1.590 / 1.530 / 1.812” 21.390 / 1.25” B 22” 22” 24” 24” C 13.870 CFM Correction for Wet Coil .120 1.5” 1.970 / 1.400 2.340 / 1.125” 19.812” 21.2” 0.3” 0.980 / 1.PRODUCT SPECIFICATIONS Dimensions ARPF Model ARPF024-00B-1/-1A ARPF036-00B-1/-1A ARPF048-00B-1/-1A ARPF060-00B-1/-1A A 42.5” 20” 20” D 15.25” G 6” 6” 11.25” Blower Performance Model ARPF024-00B-1/-1A ARPF036-00B-1/-1A ARPF048-00B-1/-1A ARPF060-00B-1/-1A Dry coil with Filter in Place Speed High / Low High / Low High / Low High / Low CFM Delivered Against External Static Pressure (inches water) 0.5” 3.125” 46.625” 19.000 / 1.875” H 13.080 / 980 1.020 2.040 1.25” 53.810 840 / 740 1.5” 13.5” 22” 22” E 10” 10” 12” 12” F 3.25” 21.1” 0.812” L 15.5” 9.812” 19.75” 53.780 1. 2 3.ARPT Specifications Blower Wheel Model ARPT024-00C-1/00C-1A ARPT032-00C-1/00C-1A ARPT032-00C-1B ARPT036-00C-1/00C-1A ARPT042-00C-1/00C-1A ARPT042-00C-1B ARPT049-00C-1/00C-1A ARPT049-00C-1B ARPT061-00C-1/00C-1A ARPT061-00C-1B Diameter 9½” 9½” 9½” 9½” 9½” 9½” 9½” 10 ” 10 ” 10 ” Width 6” 6” 6” 8” 8” 8” 8” 8” 10 ” 10 ” PRODUCT SPECIFICATIONS Coil Drain Connection FPT 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” Service Valve Liquid 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” 3/8” Suction 3/4” 3/4” 3/4” 3/4” 3/4” 3/4” 7/8” 7/8” 7/8” 7/8” Approximate Shipping Weight (lbs) 106 120 120 141 144 144 173 173 192 173 Electrical Data Model ARPT024-00C-1/00C-1A ARPT032-00C-1/00C-1A/00C-1B ARPT032-00C-1B ARPT036-00C-1/00C-1A ARPT042-00C-1/00C-1A ARPT042-00C-1B ARPT049-00C-1/00C-1A ARPT049-00C-1B ARPT061-00C-1/00C-1A ARPT061-00C-1B * Minimum Circut Ampacity @ 208/ 240 V Single Supply Circuit Minimum Min.4/5.15 2.9 4.8 3.0 2.4 15/15 197 2.9/1.3 4.3/3.9 5.9/4.8/3.7/2.4/2.95 2.3 +Maximum Overcurrent Protection @ 208/ 240 V 105 .9 4.7 2.4 15/15 15/15 15/15 15/15 15/15 15/15 15/15 197 197 197 197 197 197 197 Maximum Blower Motor VAC HP FLA 253 253 253 253 253 253 253 253 253 253 1/5 1/3 1/3 1/3 1/2 1/3 1/2 1/2 3/4 3/4 1.4 15/15 197 2.9/4.4/2.5 1.95 3.8/2. Overcurrent VAC Ampacity* Protection 1.95 1.6 3.8 3. Circuit Max.9 15/15 197 2. PRODUCT SPECIFICATIONS Dimensions ARPT Model ARPF024-00B-1/-1A ARPF036-00B-1/-1A ARPF048-00B-1/-1A ARPF060-00B-1/-1A A 42.125” 46.75” 53.25” 53.25” B 22” 22” 24” 24” C 13.5” 13.5” 20” 20” D 15.5” 19.5” 22” 22” E 10” 10” 12” 12” F 3.5” 3.5” 9.25” 9.25” G 6” 6” 11.875” 11.875” H 13.125” 13.125” 19.625” 19.625” I 19.812” 19.812” 21.812” 21.812” L 15.5” 15.5” 21.438” 21.438” M 15.313” 15.313” 21.25” 21.25” Blower Performance Model ARPF024-00B-1/-1A ARPF036-00B-1/-1A ARPF048-00B-1/-1A ARPF060-00B-1/-1A Dry coil with Filter in Place Speed High / Low High / Low High / Low High / Low CFM Delivered Against External Static Pressure (inches water) 0.1” 0.2” 0.3” 0.4” 0.5” 1,050 / 900 1,010 / 880 980 / 880 910 / 810 1,160 / 1,030 1,470 / 1,400 2,000 / 1,810 840 / 740 1,080 / 980 1,390 / 1,330 1,970 / 1,780 1,340 / 1,150 1,280 / 1,120 1,980 / 1,040 1,590 / 1,510 1,530 / 1,460 1,530 / 1,430 2,250 / 2,020 2,180 / 2,000 2,050 / 1,870 CFM Correction for Wet Coil - 4% 106 AER PRODUCT SPECIFICATIONS The AER Series Airhandlers represent the next generation of indoor air moving and conditioning equipment. Combining all of the advantages of our standard Airhandlers with the features and benefits of the new General Electric ECMTM Programmable Motor; the AER Series Airhandlers have been designed to provide the highest level of indoor comfort at the increased efficiency levels demanded today. The AER Series Airhandlers do not require any special external electronic controls and can be operated with the same controls as our standard air handlers without any extensive or complicated connections. WHAT DOES THE AER SERIES AIRHANDLER DO? Efficiency The ECMTM motors utilized in the AER Series Airhandlers are, at full load, over 20% more efficient than the motors utilized in the typical airhandler. And they maintain their efficiency throughout the entire load range in variable speed applications. Figure 1 Constant CFM vs. Static Pressure (Figure 2) The airflow delivered to a system by a typical airhandler is dependent upon the static pressure requiring careful attention to the design of the air distribution network. Often the system's airflow requirements in the cooling mode are different than they are in the heating mode making it necessary to design the air distribution network for the cooling or heating mode, or a compromise of the two. In such cases the system's capacity may be reduced resulting in higher operating costs and a lower level of comfort. The AER Series Airhandlers delivers the optimum airflow for the system size whether in the heating or Cooling mode and regardless Seriesstatic pressure delivers by the air distrubution The AER of the Airhandlers imposed the optimum Figure 2 airflow for the system size whether in the heating or Constant Fan The airflow delivered to the system in constant fan operation by the typical airhandler is the full system require-ments. In most applications the constant fan operation is intended to provide air circulation throughout the condi-tioned space to prevent air stratification. In such applications the full system airflow is not required and results in a high background noise level and high operating cost. The AER Series airhandlers deliver to the system ap-proximately 30% of the full system airflow in constant fan operation. (60% or Y1 airflow can be field se-lected.) This results in lower background noise levels and lower operating cost. Fan Only Mode Fan Only Mode will select 30% of the Air Flow when dip switch #3 is OFF. FAN ONLY MODE will select 60% or Y1 cooling Air Flow when dip switch #3 is ON. Humidity Control The typical airhandler when matched with today's high efficiency outdoor sections operating under high humidity conditions may not remove sufficient moisture from the conditioned air to provide the desired comfort level. The AER Series Airhandlers provides further humidity control when operated with a standard 24V de-humidistat. When the de-humidistat detects a high humidity condition, the airflow delivered to the system is reduced allowing the indoor coil to remove more moisture from the conditioned air. When the de-humidistat detects normal humidity conditions the airflow delivered to the system is increased to the normal level. Soft Start/Stop vs. Instant On/Off Upon a call for system operation the blower motor of a typical airhandler is energized at full speed. Because of the time lag between a call for system operation and the system operating at full capacity this often results in com-plaints of “warm air blasts" at start up in the cooling mode, and of "cold air blasts" at start up in the heating mode. There are also potential complaints of noise and distraction caused by the blower motor starting at full speed. 107 PRODUCT SPECIFICATIONS Figure 3 represents the airflow delivered to the system by the AER Series Airhandlers for a typical cooling/ heating cycle. Upon a call for system operation the AER's blower motor provides a soft start, i.e. the airflow delivered to the system "ramps" from zero to the system's full air flow requirements. Ramping the airflow during the system start up matches the airflow closer to the immediate system capacity to eliminate the complaints of "warm" or "cold air blasts". Ramping the airflow from zero to full system requirements also serves to eliminate the perceived noise and distraction which occurs on start up with the typical airhandler. Figure 3 Air Flow AER Upon a call to shut down system operation the AER's blower motor provides a soft stop, i.e. the airflow delivered to the system ramps down to approximately 50% of the full system requirements and remains there for a period of time and then ramps down to a full stop. The shut down air profile is intended to take the maximum advantage of the residual cooling or heating capacity of the indoor coil without "warm" or cold air blasts". Ramping the airflow from full system requirements to zero also eliminates the perceived noise and distraction which occurs on shut down with a typical airhandler. Two Speed Application The typical airhandlers blower motor when matched with a two speed outdoor section normally does not deliver the optimum airflow to the system for both high and low speed operation. This is due to design limitations inherent in the design of the standard induction motor. Because of this the typical two-speed application is designed to operate based upon the airflow delivered at either high or low speed and as a result the overall system efficiency and comfort level provided by the system is compromised. The AER airhandler delivers the optimum airflow to the system for both high and low speed operations. As a result the overall system efficiency and comfort level provided by the system is not compromised. PERFORMANCE RATINGS MODEL NO. AER24-1 AER30-1 AER36-1 AER48-1 AER60-1 CAPACITY (TONS) NOMINAL COOLING+ 2 2-1/2 3 4 5 SEASONAL EFFICIENCY AFUE 100 100 100 100 100 HEATER KIT APPLICATION OPTIONS MODEL NO. HKR-03 HKR-05(c) HKR-06 HKR-08(c) HKR-10(c) HKR-15C HKR-20C HKR-21C AER24-1 AER30-1 AER36-1 AER48-1 AER60-1 x x x x x x x x x x x * Capacity and efficiency ratings in accordance with U. S. Govern* Capacity and efficiency ratings in accordance ment standard tests with U.S. Government standard tests ** Capacity correction factors @ 208V = 0.75, 230V= 0.92 (Heating) (c) circuit breakers optional + Refer to correction factors @ 208V = 0.75, 230V = 0.92 (Heating) ** Capacityoutdoor sections specification for actual rating + Refer to outdoor sections specifications for actual rating x x x x ELECTRICAL DATA SINGLE SUPPLY CIRCUIT MAXIMUM MINIMUM OVERCURRENT AMPACITY PROTECTION 208V 240V 208V 240V 2.5 2.5 15 15 2.5 2.5 15 15 3.1 3.1 15 15 6.1 6.1 15 15 7.8 7.8 15 15 BLOWER MOTOR MIN. VAC 197 197 197 197 197 MAX VAC 253 253 253 253 253 FLA 2.0 2.0 2.5 4.9 6.2 HP 1/2 1/2 3/4 3/4 3/4 MODEL NO. AER24-1 AER30-1 AER36-1 AER48-1 AER60-1 108 AER PHYSICAL DATA Models Blower Dia. Width 9.5 [24.1cm] 10 [25.4cm] 8 [20.3cm] 10 [25.4cm] PRODUCT SPECIFICATIONS Coil Drain Conn. FPT 3/4 3/4 Refrigerant Connections Liq. Suct. 3/8 [1.0cm] 3/8 [1.0cm] 3/4 [1.9cm] 7/8 [2.1cm] Approx. Shipping Weight 147 LBS [66.7 Kg] 195 LBS [88.5 Kg] Filter Size (permanent washable) 19x21x1 [48.3 X 53.3 X 2.5 cm’s] 21-1/2x24x1 [54.6 X 61 X 2.5 cm’s] AER24, 30 AER36, 48, 60 [ ] DESIGNATES METRIC EQUIVALENTS Base Model # AER24, 30 AER36, 48, 60 A 46.75 [118.7 cm] 53.25 [135.3 cm] B 22 [55.9 cm] 24 [61.0 cm] C 17.5 [44.5 cm] 20 [50.8 cm] D 19.5 [49.5 cm] 22 [55.9 cm] E 10 [25.4 cm] 12 [30.5 cm] F 13.375 [34.0 cm] 14.5 [36.8 cm] G 10.811 [27.5 cm] 11.935 [30.3 cm] H 17.125 [43.5 cm] 19.625 [49.8 cm] J 19.812 [50.3 cm] 21.812 [55.4 cm] K 3.563 [9.05cm] 3.343 [8.49CM] [ ] DESIGNATES METRIC EQUIVALENTS NOTE: SPECIFICATIONS AND PERFORMANCE DATA LISTED HEREIN ARE SUBJECT TO CHANGE WITHOUT NOTICE 109 Each mode has 4 levels to deliver different Air Flow CFM [L/s]. 5. O N O F F 1 2 3 G 4 N/A 5 6 7 (ADJUST) See Step 3 8 ELECTRIC HEAT COOLING & HEAT PUMP TRIM CFM Follow these procedures to set up your Air Flow: 1. NOTE: Other settings have no effect on the set airflow. On dip switch channel 7 and 8 . Backup Heating (Electric Heating). Heating and Backup Heat (Electric Heat) airflow must be set-up using dip-switch on terminal board.OFF-ON will decrease selected COOL/HP Air Flow by 15%. FAN ONLY MODE will select 30% of the Air Flow when dip switch #3 is OFF.5 3 Switch Position OFF-OFF ON-OFF OFF-ON ON-ON 3. Heating. Simply flip the dip switch. servicing or setting up switches. H. CFM [L/s] AER24-30 Outdoor Unit Tons 2. 1800 1800 [849] [849] 1580 1580 [746] [746] 1480 1480 [698] [698] 1200 1200 [566] [566] AER36-60 Heating Element KW UP TO 20 UP TO 20 UP TO 15 UP TO 10 Switch Position OFF-OFF ON-OFF OFF-ON ON-ON AER36-60 Outdoor Unit Tons 5 4 3. and you can get different CFM combinations. CFM [L/s] AER24-30 Heating Element KW UP TO 10 UP TO 10 5 Switch Position OFF-OFF ON-OFF OFF-ON Emrgy. (Bkup) 1100 [519] 850 [401] 700 [330] Emrgy.P. SET UP ADJUST MODE: You can increase or decrease your selected Air Flow to fit your requirement. Multiple power sources may be present.5 Switch Position OFF-OFF ON-OFF OFF-ON Indoor Air Flow Cool H.It is recommended that you select the taps allowed in the tables below. Failure to do so may cause property damage.P. SET UP COOL/HEAT PUMP MODE: On dip switch channel 5 and 6 . 1100 1100 [519] [519] 800 800 [378] [378] 600 600 [283] [283] Indoor Air Flow Cool H. The Humidistat will only effect cooling airflow by adjusting the Air Flow to 85%. cut jumper PJ6. SET UP HEAT MODE (ELECTRIC HEAT MODE): On dip switch channel 1 and 2 .5 2 1. 110 .ON-OFF will increase selected COOL/HP Air Flow by 10%. FAN ONLY MODE will select 60% or Y1 cooling Air Flow when dip switch #3 is ON. IT IS NOT A FACTORY SET-UP. Set up motor by the outdoor unit capacity tons. AER IMPORTANT: Cooling. The AER Series Airhandlers blower motors have been preprogrammed for operation at 4 distinct airflow levels when operating in the Cooling. and Backup + H. personal injury or death. When using a Humidistat (normally closed).P. Heating.Find the Air Flow for you application in the tables below.P. . 4.PRODUCT SPECIFICATIONS HOW IS THE AER SERIES AIRHANDLER'S AIRFLOW CHANGED? HIGH VOLTAGE! Disconnect ALL power sources before installing. (Bkup) 2050 [967] 1750 [826] 1600 [755] 1200 [566] HP w/ Bkup AirFlow 1210 [571] 935 [441] 775 [354] HP w/ Bkup Air Flow 2150 [1015] 1835 [866] 1680 [793] 1260 [595] 2. 1/3.8/7.2 HP 1/2 3/4 3/4 * Minimum Circut Ampacity @ 208/ 240 V +Maximum Overcurrent Protection @ 208/ 240 V 111 .5 3.AEPT Specifications Blower Model AEPT030-00C-1/00C-1A AEPT036-00C-1/00C-1A AEPT060-00C-1/00C-1A Diameter 9½” 10 ” 10 ” Width 8” 10 ” 10 ” Coil Drain Connection FPT 3/4” 3/4” 3/4” PRODUCT SPECIFICATIONS Approximate Shipping Weight (pounds) 147 176 195 Liquid Connection 3/8” 3/8” 3/8” Suction Connection 3/4” 7/8” 7/8” Electrical Data Model AEPT030-00C-1/00C-1A AEPT036-00C-1/00C-1A AEPT060-00C-1/00C-1A Single Supply Circuit Minimum Circuit Max.0 2.5 6.5/2. Overcurrent Ampacity Protection 2.8 15/15 15/15 15/15 Minimum Maximum VAC VAC 197 197 197 253 253 253 Blower Motor FLA 2.1 7. PRODUCT SPECIFICATIONS Dimensions AEPT J 2.572’’ 2.935” 11.024” 1.938” 17.938 J 2.875’’ I Model AEPT030-00C-1/00C-1A AEPT036-00C-1/00C-1A AEPT060-00C-1/00C-1A A 46¾” 53¼” B 22” 24” C 17½” 20” D 19½” 22” E 10” 12” F 14½” 14½” G 11.837” 112 .935” H 17 ” 19 ” I 17. In such applications. or a compromise of the two. whether in heating or cooling mode. the AEPT air handler has been designed to provide the highest level of indoor comfort at the increased efficiency levels demanded today. The AEPT air handler delivers to the system approximately 30% of the full system air flow in constant fan operation (60% or Y1 air flow can be field-selected). They also maintain their efficiency throughout the entire load range in variable-speed applications. The AEPT air handlers do not require any special external electronic controls and can be operated with the same controls as our standard air handlers without any extensive or complicated connections. over 20% more efficient than the motors utilized in the typical air handler. PRODUCT SPECIFICATIONS Efficiency The variable-speed DC motors utilized in the AEPT air handler are. This results in lower background noise levels and lower operating cost.AEPT AEPT Overview The AEPT air handler represents the next generation of indoor air moving and conditioning equipment. In most applications. the full system air flow is not required and results in a high background noise level and high operating cost. Fan Only Mode Fan Only Mode will select 30% of the Air Flow when dip switch #3 is OFF. FAN ONLY MODE will select 60% or Y1 cooling Air Flow when dip switch #3 is ON. Constant Fan The air flow delivered to the system in constant fan operation by the typical air handler is the full system requirement. Often. regardless of the static pressure imposed by the air distribution. the system’s capacity may be reduced. at full load. Constant CFM vs. the constant fan operation is intended to provide air circulation throughout the conditioned space to prevent air stratification. Combining all of the advantages of our standard air handlers with the features and benefits of a variablespeed DC programmable motor. Static Pressure The air flow delivered to a system by a typical air handler is dependent upon the static pressure requiring careful attention to the design of the air distribution network. resulting in higher operating costs and a lower level of comfort. the system’s air flow requirements in the cooling mode are different from the heating mode. making it necessary to design the air distribution network for the cooling or heating mode. 113 . In such cases. The AEPT air handler delivers the optimum air flow for the system size. the air flow delivered to the system is increased to the normal level. Instant On/Off Upon a call for system operation. This is due to design limitations inherent in the design of the standard induction motor. Ramping the air flow during the system start-up matches the air flow more closely to the immediate system capacity. Soft Stop Upon a call to shut down system operation.and lowspeed operations. which occurs on start-up with the typical air handler. Soft Start/Stop vs. allowing the indoor coil to remove more moisture from the conditioned air. Air flow delivered to the system by the AEPT air handler for a typical cooling/heating cycle. As a result. This means the air flow gradually increases from zero to the system’s full air flow requirements. eliminating blasts of warm or cold air. Soft Start Upon a call for system operation. normally does not deliver the optimum air flow to the system for both high. The AEPT air handler provides further humidity control when operated with a standard 24V de-humidistat. Ramping the air flow from full system requirements to zero also eliminates the perceived noise and distraction. This means the air flow delivered to the system ramps down to approximately 50% of the full system requirements and remains there for a period of time and then ramps down to a full stop. Because of the time lag between a call for system operation and the system operating at full capacity. the typical 2-speed application is designed to operate based upon the air flow delivered at either high or low speed. the blower motor of a typical air handler is energized at full speed. this often results in complaints of blasts of warm air at start-up in the cooling mode. The AEPT air handler delivers the optimum air flow to the system for both high. Two-Speed Application The typical air handler blower motor. When the de-humidistat detects a high-humidity condition. Ramping the air flow from zero to full system requirements also eliminates the perceived noise and distraction. the overall system efficiency and comfort level provided by the system are compromised. the AEPT’s blower motor provides a soft start. which occurs on shut-down with a typical air handler. 114 . when matched with a 2-speed outdoor section. As a result. the typical air handler operating under high-humidity conditions may not remove sufficient moisture from the conditioned air to provide the desired comfort level. When the de-humidistat detects normal humidity conditions. the air flow delivered to the system is reduced. The shut-down air profile is intended to take the maximum advantage of the residual cooling or heating capacity of the indoor coil without blasts of warm or cold air. Because of this. There are also potential complaints of noise and distraction caused by the blower motor starting at full speed. and of blasts of cold air at start-up in the heating mode.and low-speed operation.PRODUCT SPECIFICATIONS Humidity Control AEPT When matched with today’s high-efficiency outdoor sections. the overall system efficiency and comfort level provided by the system are not compromised. the AEPT’s blower motor provides a soft stop. 580 1.480 1.200 NOTE: When applying a humidistat (normally closed). Failure to do so may cause property damage.210 935 770 Dipswitch 5/6 AEPT30 Outdoor Unit (Tons) 2. The encoded thermostats can be used with two-stage condensing units in retrofit applications where there aren’t enough existing wires available for connections to the indoor thermostat and outdoor units.480 1. Cooling/Heat Pump Mode Find the air flow for your application in the tables (Dipswitch 5/6) below.750 1.800 1.680 1.5 3 Switch Position OFF-OFF ON-OFF OFF-ON ON-ON Indoor Air Flow Cool Heat Pump 1. Trim CFM Adjust Mode Increase or decrease your selected air flow to fit your requirement.5 2 1. Multiple power sources may be present. Simply flip the dipswitch. 115 . The humidistat can adjust the cooling air flow to 85%. Heat Pump Heating. AEPT Dipswitches The AEPT air handler blower motors have been pre-programmed for operation at four distinct air flow levels when operating in the Cooling.200 1. servicing or setting up switches.150 1.800 1.AEPT PRODUCT SPECIFICATIONS HIGH VOLTAGE! Disconnect ALL power sources before installing.100 800 800 600 600 AEPT36/60 Heating Element (kW) Up to 20 Up to 20 Up to 15 Up to 10 Switch Position OFF-OFF ON-OFF OFF-ON ON-ON Emergency Backup 2. personal injury or death.260 AEPT36/60 Outdoor Unit (Tons) 5 4 3. Each mode has four levels to deliver different CFM. Dipswitch 1/2 AEPT30 Heating Element (kW) Up to 10 Up to 10 5 Switch Position OFF-OFF ON-OFF OFF-ON Emergency Backup 1. Cooling/Heat Pump Mode Set up the motor based on the outdoor unit capacity tons. Backup Heating (Electric Heating) and Backup + Heat Pump Heating.835 1.600 1. OFF-ON = Decreases selected Cool/Heat Pump air flow by 15% Trim CFM Adjust Mode NOTE: Other settings have no effect on the set air flow. 4 5 6 7 8 N/A ON = The system operates with single-stage units using a single-stage cooling or heat pump thermostat.100 850 700 Heat Pump with Backup 1. and you can get a different CFM combination. (factory default) OFF = The system operates with two-stage units with either a conventional two-stage cooling/heat pump thermostat or with an Thermostat Mode encoded two-stage thermostat for cooling operation. ON-OFF = Increases selected Cool/Heat Pump air flow by 10%.200 Heat Pump with Backup 2.580 1. Setting Up Your Motor Dipswitch Number 1 2 3 Function Electric Heat Mode Electric Heat Mode N/A Instructions Select the taps allowed in the tables (Dipswitch 1/2) below.5 Switch Position OFF-OFF ON-OFF OFF-ON Indoor Air Flow Cool Heat Pump 1.050 1.100 1. refer to the installation and operating instructions. PRODUCT SPECIFICATIONS Heat Kit Selection Model HKR-05C HKR-08C HKR-10C HKR-15C HKR-20C HKR-21C AEPT030-00C-1/00C-1A X X X AEPT036-00C-1/00C-1A X X X AEPT AEPT060-00C-1/00C-1A X X X X NOTE: The C indicates circuit breakers are optional 116 . 0 372 / 14.4 20 30 11.3 / 540 48 52 44 48 39 45 TANGENTIAL 5.0 9.048 / 20.0 / 9/32 0.927 0.254 / 2.19 0.22 / 290 43 41 39 4.51 INTERNAL THERMAL OVERLOAD RELAY 0.536 / 16.36 / 0.1 189 / 7.3 RATINGS – RATINGS INDICATED ARE WITH MATCHING HDC OUTDOOR SECTION 117 .00 / 0.400 1457 8. POLES V / PH / HZ INPUT WATTS (W) RUNNING CURRENT (A) OVERLOAD PROTECTION REFRIGERANT COIL 2 2 FACE AREA (M /FT ) NO.38 40 110 0.4 15.5 / 20.43 / 580 47 44 42 4 32 0.5 / 32.32 / 0.0 / 33. FAN (dBA) LOW FAN (dBA) BLOWER WHEEL MOTOR NO.733 7.52 / 3/8 0. OVERCURRENT PROTECTION AIRFLOW (cmm / cfm) HIGH FAN (dBA) MED.6 1.1 306 / 12 1062 / 41.276 0.000 2716 12.014 ALUMINUM (HYDROPHILIC COATED) 14 14 ANTI FUNGUS POLYPROPYLENE 20 / 5/64 20 / 5/64 7.800 6.6 1.8 202 / 8.4 14.024 / 11.224 / 2.6 16.36 / 0.224 / 2.0 16 / 35.0 15 8.4 152 / 6.2 849 / 33.043 / 41.544 / 22.043 / 41.411 2 0.179 / 1.6 30 16. ROWS TUBES MATERIAL DIAMETER (mm / in) THICKNESS (mm / in) FIN MATERIAL FIN / in AIR FILTER MEDIA COND.013 20 18 20 / 5/64 360 / 14. DRAIN SIZE (mm / in) DIMENSIONS HEIGHT (mm / in) WIDTH (mm / in) DEPTH (mm / in) SHIPPING WEIGHT (kg / lbs) 16 / .014 0. CIRCUIT AMPACITY (A) MAX.063 WMC12-1A WMC18-1A WMC24-1A AWM25F-KFAD (ACSON INTERNATIONAL) LCD MICRO COMPUTER REMOTE CONTROL LOUVER (UP & DOWN) & GRILLE (LEFT & RIGHT) ELECTRONIC THERMOSTAT 3.22 / 0.16 4 208 – 230 /1 / 60 2 4 81 0.9 / 420 15.000 208 – 230 / 1 / 60 2040 2860 12.1 189 / 7.52 / 3/8 9.RATINGS INDICATED ARE WITH MATCHING HDCX OUTDOOR SECTION MODEL CONTROL OPERATION DISCHARGE AIR ROOM TEMPERATURE RATINGS NOMINAL CAPACITY (KCALH / BTUH) POWER SUPPLY (V / PH / HZ) WATTS (W) MIN.WMC SPECIFICATIONS PRODUCT SPECIFICATIONS RATINGS .411 0.9 372 / 14.013 COPPER (SEAMLESS INNER GROOVED TUBE) 9. 2 mm Installation Plate AWM25F-KFAD 118 .38 in 320.5 mm / 35.05 in INSTALLATION PLATE WMC12-1 WMC20 / 5/6412-1A INSTALLATION PLATE 34.5 in 876.38 in 306.0 mm 12.0 mm / 28.875 in 276.3 mm 10.60 in INSTALLATION PLATE WMC18-1 & WMC24-1 INSTALLATION PLATE WMC18-1A & WMC24-1A 721.PRODUCT SPECIFICATIONS iring Diagr Wir ing Diag r am WMC 897.0 mm 12. WMH PRODUCT SPECIFICATIONS 119 . PRODUCT SPECIFICATIONS WMH 120 . A DDITION AL SUCTION LINE OIL TRA P FOR EA CH 2 0 ' RISE OF PIPE LIQUID LINE SUCTION LINE OIL TRA PS W HEN INDOOR UN IT IS 4 FEET OR MORE BELOW OUTDOOR UNIT 10" Min. Refer to Figure 3 and Table 1 for maximum refrigerant line lengths. plantings can be made in relatively close proximity to the unit. 121 . sound is also a consideration in rooftop application. there should be a minimum of 36” clearance and provisions made to deflect the warm discharge air out from the overhang. If air handler is mounted above condensing unit. LOCATION If unit is to be located under an overhang. 10" .LOCATION & CLEARANCES 10" Min. the lift should not exceed 50’ (liquid line.). therefore. For rooftop application. make sure the building construction can support the weight and that proper consideration is given to the weather-tight integrity of the roof. If units are to be located under an overhang. Service Access 18" Min. i. FIGURE 3 10" Min. such as corners. 10" 10" FIGURE 1 70' MAX. pre-formed concrete slab or other suitable base. Since this unit discharges warm condenser air from the top with cooler air being drawn in three sides. there should be a minimum of 36” clearance and provisions made to deflect the warm discharge air out from the overhang. the maximum lift should not exceed 70’ (suction line). level foundation. If the outdoor unit is mounted above the air handler.e. INDOOR UN IT IN DOOR UNIT BELOW OUTDOOR UNIT 8' Service Access 18" Min. FIGURE 2 The condensing unit must be mounted on a solid. 10" Min. OUTDOOR UNIT PITCH SUCTION LINE TOWARD OUTDOOR UNIT 1/2" FOR EVERY 10' OF LINE IND OOR UNIT ABOVE OR LEVEL TO OUTDOOR UN IT INDOOR UNIT LIQUID LINE OUTDOOR UN IT Service Access 18" Min. In more confined application spaces. Allow 18” minimum for service access to the compressor compartment and controls. provide a minimum 10” clearance on all air inlet sides. Owners should be advised to avoid lawn mower discharge toward the unit depositing debris on the fan coil surface reducing product efficiency. The condensing unit contains moving components and can vibrate. INV ERTED LOOP OUTDOOR UNIT LIQUID LINE SUCTION LINE INDOOR UN IT 50' MAX. Close to the wall application assures free. The top of the unit should be completely unobstructed. 10" . unobstructed air to the other two sides. Service Access 18" Min. As this motion occurs. the pockets between the two forms are slowly pushed to the center of the two scrolls while simultaneously being reduced in volume.e. the gas. Ensure your system is properly sized for heat gain and loss according to methods of the Air Conditioning Contractors Association (ACCA) or equivalent. Efficiency is dependent upon the unit and its components. When the pocket reaches the center of the scroll form. Both the suction process (outer portion of the scroll members) and the discharge process (inner portion) are continuous. Refer to the “Technical Information” manual of the unit you are servicing for further details. is discharged out of a port located at the center. For additional refrigerant line set information. NOTE: Operating pressures and amp draws may differ from standard reciprocating compressors. • 122 . generates a series of crescent shaped gas pockets between the two members. 3GS oil may be used if additional oil is required. refer to the "Technical Information" manual of the unit you are servicing. Some design characteristics of the Compliant Scroll compressor are: • Compliant Scroll compressors are more tolerant of liquid refrigerant. During compression. resulting in a very smooth process. 4. The unit requires no additional resistance (i. 5. when matched with a mating scroll form as shown. The 7. several pockets are being compressed simultaneously.5 to 5-ton and have a rating of 10 through 13 SEER. one scroll remains stationary (fixed scroll) while the other form (orbiting scroll) is allowed to orbit (but not rotate) around the first form. and 5 ton models are also available for 230V 3 phase applications. This information can be found in the unit's Technical Information Manual.5 and 10 ton models are also available for 230V and 460V 3 phase applications. Refer to the "Technical Information" manual of the unit you are servicing for further details. Compliant scroll compressors perform "quiet" shutdowns that allow the compressor to restart immediately without the need for a time delay. The 3.PRODUCT DESIGN This section gives a basic description of cooling unit operation. which is now at a high pressure. Goodman Remote Condensing Units are designed for 208240 volt single phase applications. its various components and their basic operation. During compression. This compressor will restart even if the system has not equalized. continued floodback or flooded start conditions may wash oil from the bearing surfaces causing premature bearing failure.5 and 10 ton models are available in 230V and 460V 3 phase applications. SEER efficiency is dependent upon the unit and its components. 7. duct work) and should not be added. Condensed air is pulled through the condenser coil by a direct drive propeller fan and then discharged from the cabinet top. • Compliant Scroll compressors use white oil which is compatible with 3GS. NOTE: Even though the compressor section of a Scroll compressor is more tolerant of liquid refrigerant.5 through 5 ton and have a rating of 10 through 14 SEER. Front seating valves are factory-installed to accept the field-run copper. A scroll is an involute spiral which. The units range in size from 1. Compressors Goodman unit use a mix of reciprocating and scroll compressors. 4. CONDENSING UNIT These units are designed for free air discharge. One is the scroll. The Goodman Remote Condensing Units range in size from 1. There are a number of design characteristics which differentiate the scroll compressor from the reciprocating compressor. The total refrigerant charge needed for a normal operation is also factory-installed. The 3. Suction and Liquid Line Connections The suction and liquid line connections of the unit are set up for field piping with refrigerant-type copper. The Goodman Remote Heat Pump condensing units are designed for 208-230 dual voltage single phase applications. warehouses or other areas where they may be subjected to mechanical damage must be suitably guarded against such damage by installing behind protective barriers. This secondary drain pan is required in the event that there is a leak or main drain blockage. however. adequate access for service or replacement must be considered without removing permanent structure.PRODUCT DESIGN WARNING When installing or servicing this equipment. SOME AIR HANDLERS USE DIRECT DRIVE MOTORS. Heating and cooling equipment located in garages. Multiple power sources may be present. etc. When this product is installed in the vertical position in an unconditioned space. In Canada. contact your local EPA office. which may generate a glow. the use of a quenching cloth is strongly advised to prevent scorching or marring of the equipment finish.). observe these requirements. personal injury or death.e. WARNING The unit MUST have an uninterrupted. POWER SUPPLY IS 220-240 V. The horizontal left and downflow positions require product modification. water-heaters. Other methods of grounding are permitted if performed in accordance with the “National Electric Code” (NEC)/“American National Standards Institute” (ANSI)/“National Fire Protection Association” (NFPA) 70 and local/state codes. Closed cell insulation should be applied to the drain lines in unconditioned spaces where sweating may occur. furnace. Failure to do so may cause property damage. In an attic installation a secondary drain pan must be provided by the installer and placed under the entire unit with a separate drain line properly sloped and terminated in an area visible to the owner.). Failure to observe this warning can result in electrical shock that can cause personal injury or death. This product is designed for zero centimeter (0 cm) clearance. ensure the area is properly ventilated. WARNING The United States Environmental Protection Agency (“EPA”) has issued various regulations regarding the introduction and disposal of refrigerants introduced into this unit. 50 HZ. 1 PHASE INSTALLATION Before installing this appliance insure that it is properly sized and adequate power is available. unbroken electrical ground to minimize the possibility of personal injury if an electrical fault should occur. DPI18-30/20 DPI36-42/20 DPI48-61/20 WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. remove the horizontal drain pan and install the following insulation kit Unit A24-00-2RA A36-000-2RA A48-00-2RA A61-00-2RA Kit No. If installing this equipment in an area that has special safety requirements (hard hats etc. must be installed with the ignition source at least 18"[46cm] above the floor level. Violation of EPA regulations may result in fines or penalties. AIR HANDLERS *See AirHandler Specification Sheet for Proper Combinations. When more than one appliance is installed in a building it shall be permanently identified as to the area or space serviced by the equipment. the base must also be protected by similar means. When installed on a base. including hand and eye protection. A certified technician must perform the installation and service of this product. These regulations may vary by jurisdiction. electrical grounding is to be in accordance with the Canadian Electric Code CSA C22. being elevated or located out of the normal path of vehicles. This unit can be installed on a platform when deemed necessary.1. The electrical ground circuit may consist of an appropriately sized electrical wire connecting the ground lug in the unit control box to the building electrical service panel. is strongly advised. 123 . Failure to follow these regulations may harm the environment and can lead to the imposition of substantial fines. To protect the unit when welding close to the painted surfaces. This kit is used to prevent sweating on the vertical drain pan. spark or flame capable of igniting flammable vapors. WARNING If this appliance is installed in an enclosed area such as a garage or utility room with any carbon monoxide (CO) producing appliance (i. This appliance can be installed in the vertical or right horizontal position without modification. automobile. safety clothing. Appliances installed in garages. Should questions arise. As the refrigerant passes through the last tubes of the evaporator coil it becomes superheated. and indoor blower motor. and on heat pump models through the reversing valve. The boiling point. In the cooling mode. the condenser fan motor. to the compressor where the cycle begins again. A few of the important principles that make the refrigeration cycle possible are: heat always flows from a warmer to a cooler body. Should the second stage heating contacts in the room thermostat close. a two stage heating single stage cooling thermostat must be installed. This energizes the compressor contactor. and enters the condenser coil.SYSTEM OPERATION COOLING The refrigerant used in the system is R-22. This is an indication to the defrost board that the unit is in the heating mode. When the first stage heat demand “Y” is satisfied. As long as the thermostat is set for heating. the reversing valve is not energized. NOTE: Actual temperatures and pressures are to be obtained from the "Cooling Performance Chart. The compressor turns off and the indoor blower will stop after the fan off delay. when the room thermostat is set to the heating mode. Low pressure superheated vapor leaves the evaporator coil and returns through the suction line. this would energize the coil(s) of the electric heat relay(s). When the thermostat is satisfied. Air drawn through the condenser coil by the condenser fan causes the refrigerant to condense into a liquid by removing heat from the refrigerant. it opens its contacts. through the reversing valve on heat pump models. at atmospheric pressure is -41. the board accumulates compressor run time. the room thermostat energizes “Y” and “G”. the room thermostat will remove the 24Vac from “Y” and “G”. As the refrigerant passes through the expansion device and into the evaporator coil a pressure drop is experienced causing the refrigerant to become a low pressure vapor. It is clear and colorless and the chemical formula is CHCLF2. they may be controlled by outdoor thermostats. R to Y and G in the unit are energized. that is. If the room thermostat fan selector switch should be set to the "on" position then the indoor blower would run continuous rather than cycling with the compressor. As the refrigerant is cooled below its condensing temperature it becomes subcooled. 124 . the indoor evaporator coil functions to cool and dehumidify the air conditioned spaces through the evaporative process taking place within the coil tubes. When auxiliary electric heaters are used.4°F. If auxiliary electric heaters should be used. causing the compressor contactor to open and indoor fan to stop after the fan off delay. The compressor starts in the heating mode and the indoor blower motor starts. under lower pressure a refrigerant will absorb heat and vaporize at a low temperature. Contacts within the relay(s) will close. the compressor contactor and the “G” terminal in the unit. The subcooled high pressure liquid refrigerant now leaves the condenser coil via the liquid line until it reaches the indoor expansion device. the reversing valve will be in the de-energized position for heating except during a defrost cycle. the vapors may be drawn off and condensed at a higher pressure and temperature to be used again." High temperature. On a demand for first stage heat with heat pump units. This supplies 24Vac to terminal “Y” of the defrost board. When 24Vac is present at terminal “Y” of the defrost board during the heating mode. Low pressure saturated refrigerant enters the evaporator coil where heat is absorbed from the warm air drawn across the coil by the evaporator blower. bringing on the electric resistance heaters. Maintaining proper superheat assures that liquid refrigerant is not returning to the compressor which can lead to early compressor failure. COOLING CYCLE Cooling When the contacts of the room thermostat close. HEATING CYCLE Heat Pump Models On heat pump units. The defrost board will store the compressor’s accumulated run time in memory. which would be wired to W1 at the unit low voltage connections. it absorbs more heat than is necessary for the refrigerant to vaporize. breaking the low voltage circuit. high pressure vapor leaves the compressor through the discharge line. e. which is clamped to a return bend on the outdoor coil.e. If the thermostat is not calling for heat or cool. the airflow delivered to the system "ramps" from zero to the system's full air flow requirements. or 90 minutes may be selected by connecting the circuit board jumper to 30. TEST JUMPER WIRE DF2 90 60 30 A DF1 C Y W2 R R DFT 125 . Upon a call to shut down system operation. R to W1 will e energized. DEFROST CYCLE The defrosting of the outdoor coil is jointly controlled by the defrost control board and the defrost thermostat. This will energize the electric heat sequencers. Anytime there is a call for continuous fan. Solid State Defrost Control During operation the power to the circuit board is controlled by a temperature sensor. the blower motor provides a soft start. FAN OPERATION Continuous Fan Mode (All Models) If the thermostat calls for continuous fan.SYSTEM OPERATION Emergency Heat Mode (Heat Pumps) NOTE: The following only applies if the unit has an approved electric heat kit installed for auxiliary heating. Ramping the airflow during the system start up matches the airflow closer to the immediate system capacity to eliminate the complaints of "warm" or "cold air blasts". and when the room thermostat calls for heat. If the defrost cycle is not terminated due to the sensor temperature. Soft Start (AER & AEPT) Upon a call for system operation. the airflow delivered to the system ramps down to approximately 50% of the full system requirements and remains there for a period of time and then ramps down to a full stop. Ramping the airflow from zero to full system requirements also serves to eliminate the perceived noise and distraction which occurs on start up with the typical airhandler. With the thermostat set to the emergency heat position and a call for 2nd stage heat. Defrost timing periods of 30. Ramping the airflow from full system requirements to zero also eliminates the perceived noise and distraction which occurs on shut down with a typical airhandler. regardless of a call for heat or cool. When the sensor opens (approximately 75° F). 60. i. 60. a ten minute override interrupts the unit’s defrost period. When the normally open contacts of the heat sequencers close. The shut down air profile is intended to take the maximum advantage of the residual cooling or heating capacity of the indoor coil without "warm" or cold air blasts". At the end of the timing period. the unit’s defrost cycle will be initiated provided the sensor remains closed. and the fan switch on the thermostat is returned to the automatic position. the indoor blower will be energized from the normally open contacts of the EBTDR after a 7 second delay on 2 thru 4 ton units. the blower motor provides a soft stop. or 90 respectively. the fan will stop after a 65 second delay on all air handlers with multi-speed motors. the defrost cycle is terminated and the timing period is reset. i. the indoor blower will be energized through the normally open contacts of the EBTDR on 2 thru 4 ton units and from the "G" terminal from the thermostat on 5 ton units. Accumulation of time for the timing period selected starts when the sensor closes (approximately 31° F). this will energize the electric resistance heat and also the indoor blower motor through the normally closed contacts of the EBTDR. or through the normally open contacts of the blower relay on 5 ton units. forcing refrigerant to flow through the metered hole in the center of the orifice. 126 . the orifice is pushed into its seat.SYSTEM OPERATION COOLING CYCLE In the cooling mode. SYSTEM OPERATION COOLING CYCLE Reversing Valve (Energized) Indoor Coil Accumulator Outdoor Coil Thermostatic Expansion Valve Bi-Flow Filter Dryer HEATING CYCLE Check Valve Reversing Valve (De-Energized) Indoor Coil Accumulator Outdoor Coil Thermostatic Expansion Valve Bi-Flow Filter Dryer Check Valve 127 . SYSTEM OPERATION Typical Heat Pump System in Cooling Reversing Valve (Energized) Indoor Coil Accumulator Outdoor Coil Typical Heat Pump System in Heating Reversing Valve (De-Energized) Indoor Coil Accumulator Outdoor Coil 128 . 129 . This type of expansion valve does not require an external check valve as shown above.SYSTEM OPERATION EXPANSION VALVE/CHECK VALVE ASSEMBLY IN COOLING OPERATION EXPANSION VALVE/CHECK VALVE ASSEMBLY IN HEATING OPERATION Most expansion valves used in current Goodman Brand Heat Pump products use an internally checked expansion valve. forcing refrigerant to flow through the metered hole in the center of the orifice. However. In the heating mode. the orifice moves back off its seat. the principle of operation is the same. allowing refrigerant to flow unmetered around the outside of the orifice. RESTRICTOR ORIFICE ASSEMBLY IN COOLING OPERATION RESTRICTOR ORIFICE ASSEMBLY IN HEATING OPERATION In the cooling mode. the orifice is pushed into its seat. the “Y” heat demand is switched to the “W1” input to the furnace by the outdoor thermostat and the furnace is used to satisfy the first stage “Y” heat demand.SYSTEM OPERATION AFE18-60 & AFE18-60A CONTROL BOARD DESCRIPTION The AFE18 control is designed for use in heat pump applications where the indoor coil is located above/downstream of a gas or fossil fuel furnace. An anti-short cycle feature is also incorporated which initiates a 3 minute timed off delay when the compressor goes off. if the outdoor thermostat fails closed in this position during the heating season. AFE18-60A 130 . On some controls.e. The AFE18 control will turn the heat pump unit off when the furnace is turned on. i. The outdoor thermostat will have to be replaced to restore the unit to normal operation. The compressor won’t be allowed to restart until the 3 minute off delay has expired. It will operate with single and two stage heat pumps and single and two stage furnaces. OT18-60A. When used in this manner. the furnace produces heat and increases the indoor temperature thereby never satisfying the cooling demand. this 3 minute timed off delay will be initiated. If the outdoor thermostat is stuck in the closed position switching the “Y” demand to the “W1” furnace input during the cooling mode as described above. E. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. can be used with the AFE18 to switch from heat pump operation to furnace operation below a specific ambient temperature setting. In this situation. These thermostat inputs must be present for 5 seconds before the AFE18 control will respond to it. break even temperature during heating. W1 and O” thermostat inputs. the AFE18 won’t allow the furnace to operate. Failure to do so may cause property damage. it recognizes this as a cooling demand in the cooling mode. Multiple power sources may be present. On initial power up or loss and restoration of power. Also included is a 5 second de-bounce feature on the “Y. personal injury or death. The furnace will continue to operate and can only be stopped by switching the thermostat to the off position or removing power to the unit and then replacing the outdoor thermostat. An optional outdoor thermostat. it will turn on the furnace during the cooling season on a “Y” cooling demand. When the AFE18 receives a “Y” and “O” input from the indoor thermostat. A properly operating unit should be within plus or minus 3 degrees of the typical (Delta T) value shown. compressor connections. that. Manifold Gauges and high vacuum hoses . should be pointed out to the owner. replace the contactor.measure amperage and voltage. Low and high side pressures and power will not change. NOTE: Depending on operation conditions.measure relative humidity and wet bulb temperature. 8. As indoor CFM decreases.evacuation. A properly operating unit should be within plus or minus 3 Amps of the typical value shown. it may be necessary to clean the filters more often. 3.measure dry bulb temperature. as with any mechanical equipment the remote air conditioner requires regularly scheduled maintenance to preserve high performance standards.measure static pressure and pressure drop across coils. 5. a slight increase will occur in indoor temperature drop (Delta T). 2. TO AVOID PREMATURE MOTOR FAILURE. Thermocouple type temperature meter . Volt-Ohm Meter .testing for refrigerant leaks. Manually rotate the outdoor fan and indoor blower to be sure they run freely. High Vacuum Pump . a slight increase will occur in indoor air temperature drop (Delta T). SCHEDULED MAINTENANCE TEST EQUIPMENT Proper test equipment for accurate diagnosis is as essential as regular hand tools.testing continuity. for refrigerant leaks. 2. 3. NOTE: Pressures are measured at the liquid and suction service valve ports. which places all maintenance in the hands of a trained serviceman. results will change as follows: 1. Clean the casing of the outdoor unit inside and out . Other recording type instruments can be essential in solving abnormal problems. Motors are permanently lubricated and do not require oiling. Electric Vacuum Gauge. however. As indoor dry bulb temperatures increase. COOLING PERFORMANCE TEST All data based upon listed indoor dry bulb temperature. capacitors. 131 . Failure to do so may cause property damage. The following is a must for every service technician and service shop: 1. personal injury or death. and motor windings. Inspect wire insulation to be certain that it is good. DO NOT OIL. Multiple power sources may be present. 9. 2. Check the contacts of the compressor contactor. In many instances the owner may be able to perform some of the maintenance. Using a halide or electronic leak detector. . prolong the service life of the equipment. 7. 4. Inspect the control panel wiring. more efficient service. they should be washed with warm water and dried. Sling psychrometer.The owner should be made aware of the fact. Indoor air cubic feet per minute (CFM) as listed in the Performance Data Sheets: If conditions vary from this. A properly operating unit should be within plus or minus 7 PSIG of the head pressure shown.to measure and obtain proper vacuum. 6. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. and all other component wiring to be sure all connections are tight. Accurate Electronic Scale . When operating on the cooling cycle. ONCE A YEAR Qualified Service Personnel Only 1. If permanent type filters are used. 7. inspect the condensate line piping from the evaporator coil.00 inches external static pressure on coil of outdoor section. the advantage of a service contract. Inspect the return filters of the evaporator unit and clean or change if necessary. ONCE A MONTH 1. Accurate Leak Detector . and lessen the chances of costly failure. If the results of the test are not satisfactory. 5. however. 6. Make sure the piping is clear for proper condensate flow. see the "Service Problem Analysis" Chart of the possible cause. 8. 4. check all piping and etc. Start the system and run both a Cooling & Heating Performance Test. A properly operating unit should be within plus or minus 3 PSIG of the suction pressure shown. Inclined Manometer . and accurate repairs with less call backs. in many instances they may be rented from local sources.measure proper refrigerant charge. A slight decrease will occur in low and high side pressures and power. 2. Clean the indoor and outdoor coils. If they are burned or pitted. Proper equipment promotes faster. Amprobe . little cooling/htg Compressor runs . Recharge Remove Obstruction to Air Flow Check Windows.Tighten Test Circuits With Ohmmeter Test Continuity of Overload Test Continuity of Thermostat & Wiring Check Control Circuit with Voltmeter Test Capacitor Test Continuity of Overload Test Motor Windings Use Test Cord Test Continuity of Coil & Contacts Test Continuity of Coil And Contacts Test Control Circuit with Voltmeter Test Voltage ♦ Repair or Replace Test Motor Windings Check Resistance of Anticipator Test For Leaks. Duct Static Press.S-27 • • • • • • S-200 S-200 S-113 S-114 • • • • • • • • • • • • • S-115 S-104 S-104 S-110 S-110 S-105 S-110 S-21. Heater Dirty Air Filter Dirty Indoor Coil Not enough air across Indoor Coil Too much air across Indoor Coil Overcharge of Refrigerant Dirty Outdoor Coil Noncondensibles Recirculation of Condensing Air Infiltration of Outdoor Air Improperly Located Thermostat Air Flow Unbalanced System Undersized Broken Internal Parts Broken Valves Inefficient Compressor Wrong Type Expansion Valve Expansion Device Restricted Oversized Expansion Valve Undersized Expansion Valve Expansion Valve Bulb Loose Inoperative Expansion Valve Loose Hold-down Bolts Faulty Reversing Valve Faulty Defrost Control Faulty Defrost Thermostat Flowrator Not Seating Properly • • • • • • • • • • • • • • • • • • • • • • • • • • • Compressor is noisy System will not start • • • • • • • • • • • • • • • • • • ♦ ♦ • • • • • • • • ♦ • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • • ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ ♦ Cooling or Heating Cycle (Heat Pump) Test Voltage Inspect Fuse Size & Type Test Voltage Inspect Connection .fan runs Comp. Evacuate.Clean ♦ Recover Charge. Relocate Thermostat Readjust Air Volume Dampers Refigure Cooling Load Replace Compressor Test Compressor Efficiency Test Compressor Efficiency ♦ Replace Valve Remove Restriction or Replace Expansion Device Replace Valve Replace Valve Tighten Bulb Bracket Check Valve Operation Tighten Bolts ♦ ♦ ♦ ♦ Replace Valve or Solenoid ♦ ♦ ♦ ♦ Test Control ♦ ♦ ♦ ♦ ♦ Test Defrost Thermostat Check Flowrator & Seat or Replace Flowrator Heating Cycle Only (Heat Pump) • • • • • • • • • • S-1 S-1 S-1 S-2. Fan will not start Unit will not terminate defrost Too cool and then too warm Evaporator fan will not start Condenser fan will not start Test Method Remedy High suction pressure Low suction pressure High head pressure Low head pressure Unit will not defrost Power Failure Blown Fuse Unbalanced Power. Doors. and Cond.TROUBLESHOOTING CHART COOLING/HP ANALYSIS CHART Complaint No Cooling Unsatisfactory Cooling/Heating System Operating Pressures System runs continuously . S-3 S-2. 3PH Loose Connection Shorted or Broken Wires Open Fan Overload Faulty Thermostat Faulty Transformer Shorted or Open Capacitor Internal Compressor Overload Open Shorted or Grounded Compressor Compressor Stuck Faulty Compressor Contactor Faulty Fan Relay Open Control Circuit Low Voltage Faulty Evap.Clean ♦ Check Blower Speed. . Replace Restricted Part Test Heater Element and Controls ♦ Inspect Filter-Clean or Replace ♦ Inspect Coil . S-8 S-7 S-4 S-1 S-16 S-16 S-3B S-101. Add Refrigerant Remove Restriction.goes off on overload Certain areas too cool. Fan Motor Shorted or Grounded Fan Motor Improper Cooling Anticipator Shortage of Refrigerant Restricted Liquid Line Open Element or Limit on Elec.103 S-112 S-26. Etc.blows cold air in heating Compressor will not start . 122 S-24 S-25 S-111 • • 132 See Service Procedure Ref. others too warm SYMPTOM Compressor cycles on overload Not cool enough on warm days POSSIBLE CAUSE DOTS IN ANALYSIS GUIDE INDICATE "POSSIBLE CAUSE" System runs . Vent Fans. Filter Reduce Blower Speed ♦ Recover Part of Charge Inspect Coil . S-3 S-17A S-3 S-4 S-15 S-17A S-17B S-17D S-7. ................................. 137 Checking Cycle Protector ........................................................................................... 158 Compressor Burnout ............ AR*F Electronic Blower Time Delay ... 145 Resistance Test .......... 147 Testing Defrost Control ............................................. 158 Checking Restricted Liquid Line ............ 144 ECM CFM Adjustments ............ 157 Checking Expansion Valve Operation ......... 162 WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit........................................ 134 Checking Thermostat............ 148 Checking Heater Elements ....................... 135 Cooling Anticipator ...... 152 S-101 Leak Testing ..................................... 157 Fixed Orifice Restriction Devices ................................. 137 Checking Time Delay Relay ........................................................................... 139 Checking Capacitor ... 159 Refrigerant Piping ......................................................................... Failure to do so may cause property damage.............................................. 140 Capacitance Check ....... 135 Heating Anticipator ....... 148 A.... 139 Checking High Pressure Control .. 145 Ground Test ................................ 133 ........ 135 Checking Encoded Thermostats ........ 148 S-26 S-27 S-40 S-41 Checking Heater Limit Control(s) ....................................................................................................................................................... 146 Testing Crankcase Heater (optional item) ............ 153 S-102 Evacuation ....................... 155 Underfeeding ................ 144 Checking Compressor Windings ...... 156 Checking Subcooling ......... 137 Checking Contactor and/or Relays .......................................... 162 Coil Static Pressure Drop .... 155 S-106 S-107 S-108 S-109 S-110 S-111 S-112 S-113 S-114 S-115 S-120 S-122 S-202 S-203 S-204 Overfeeding ....... 154 S-104 Checking Compressor Efficiency ....................... 153 S-103 Charging ............... 159 Replacing Reversing Valve ..................... 162 Air Handler External Static .................................................. 151 S-61A Checking Heater Limit Control(S) ...................... 139 Checking Low Pressure Control .......... 146 Operation Test .. 155 S-105B Thermostatic Expansion Valve ........................ 138 Checking Fan Relay Contact ......... 139 Resistance Check ...................... 158 Non-condensables ............... 140 Checking Fan & Blower Motor Windings (PSC Motors) .............. 152 S-61B Checking Heater Fuse Line ............ 147 Testing Defrost Timer Board .... Multiple power sources may be present....................... 152 S-62 Checking Heater Elements ................... Wiring & Anticipator 135 Thermostat & Wiring ....... 136 Checking Transformer & Control Circuit ............. 158 Refrigerant Overcharge ............... 152 S-100 Refrigeration Repair Practice ................................................................. 147 Checking Reversing Valve Solenoid ... 138 Checking Contactor Contacts ...............................................................................SERVICING Table of Contents S-1 S-2 S-3 S-3A S-3B S-3C S-3D S-4 S-5 S-6 S-7 S-8 S-9 S-12 S-13 S-15 S-15A S-15B S-16A S-16B S-16C S-16D S-17 S-17A S-17B S-17D S-18 S-21 S-24 S-25 Checking Voltage .. AEPT with Single Speed Air Conditioning and Heat Pump .................... 155 Superheat ................ 150 S-60 Electric Heater (optional item) ... 134 Checking Wiring ........................................................................................ personal injury or death.............................. 141 Checking Fan & Blower Motor (ECM Motors) 141 Checking ECM Motor Windings .................. 148 AER.. 161 Duct Static Pressure & Static Pressure Drop Across Coils ..................................... Use an ohmmeter to check continuity of any suspected open wires. % Voltage = Imbalance Max.L3 = 232V L2 . Remove outer case. damaged insulation and loose connections. measure the voltage across terminals L1 and L2 of the contactor for the condensing unit or at the field connections for the air handler or heaters. Long runs of undersized wire can cause low voltage. V = 710 = 236. Max. locked rotor. Locked Rotor Voltage is the actual voltage available at the compressor during starting. it must be determined if the imbalance is in the incoming power supply or the equipment. then shut down the unit. and determine the unit Locked Rotor Voltage.7 = +1. 3.7 = -4. personal injury or death. replace with comparable gauge and insulation thickness. or a stalled condition. 6.L2 = 240V L1 . from unit to fused disconnect service. 3.3 Max deviation was 4. etc.L2 = 240V L1 . With power ON: To find the percentage of imbalance.7 236. Using a voltmeter. L1 .7 2. Lock rotor voltage should read within the voltage tabulation as shown.L3 = 238V L1 L2 L3 Rotate all 3 incoming legs as shown. Immediately attempt to restart the unit while measuring the Locked Rotor Voltage. If the voltage falls below the minimum voltage. If the percentage of voltage imbalance exceeds 3% the unit must not be operated until the voltage condition is corrected.. energize the unit.L3 = 238V Total 710V 240 . or to the T1 and T2 terminals of the contactor. = 1. Start the unit and allow the compressor to run for several seconds. Multiple power sources may be present. L1 .7 If the percentage of imbalance had exceeded 3%.236. 1. To do this rotate the legs of the incoming power and retest voltage as shown below. be sure all heating elements are energized.99% L1 . Voltage Deviation From Average Voltage X 100 Average Voltage WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit.. Repair as needed. L1 L2 L3 Avg.7 3 WARNING Line Voltage now present.L3 = 240V Unit Supply Voltage Voltage Min.L3 = 238V L2 . deviation: 238 .7 = +3.L3 = 227V L2 . If any wires must be replaced.SERVICING S-1 CHECKING VOLTAGE 1.indicates open wiring. measure the incoming power supply. check the line wire size. 4. from unit being tested. 134 .3 232 . Failure to do so may cause property damage. control panel cover. With ample voltage at line voltage connectors. Check wiring visually for signs of overheating. If wire size is adequate. notify the local power company in regard to either low or high voltage. open fuse(s) no power or etc. 5.236. To find Max.236. Measured voltage should be above minimum listed in chart below. Measure the voltage with the unit starting and operating. No reading . NOTE: If checking heaters.L2 = 227V L1 . 460 437 506 208/230 198 253 S-2 CHECKING WIRING Three phase units require a balanced 3 phase power supply to operate.7V % Voltage Imbalance = 4. 2. To measure Locked Rotor Voltage attach a voltmeter to the run "R" and common "C" terminals of the compressor. 2. Wrap 10 turns of thermostat wire around the stationary jaw of the amprobe and divide the reading by 10.4 AMPS Checking Heat Anticipator Amp Draw 135 . During the "off" cycle. 2.D. and etc. No voltage indicates the trouble is in the thermostat or wiring. WIRING. Repair or replace as necessary. Indoor Blower Motor With power ON: WARNING Line Voltage now present. See the following tables for recommended heater anticipator setting in accordance to the number of electric heaters installed. 2. wiring or external transformer source.). it heats the bimetal element helping the thermostat call for the next cooling cycle. check for 24 volts at each heater relay. Set fan selector switch at thermostat to "ON" position. If the anticipator should fail for any reason. Check the continuity of the thermostat and wiring. 3. No voltage indicates trouble in the thermostat. 3. A properly sized anticipator should maintain room temperature within 1 1/2 to 2 degree range. With power ON. 4. the thermostat must be replaced. Check the continuity of the thermostat and wiring. 10 TURNS OF THERMOSTAT WIRE (From "W" on thermostat) STATIONARY JAW OF AMPROBE READS 4 AMPS CURRENT DRAW WOULD BE . With voltmeter. Resistance Heaters 1. 4. use an ammeter to measure the current on the "W" wire going to the thermostat. With voltmeter.SERVICING S-3 CHECKING THERMOSTAT. COPPER WIRE GAUGE (AWG) 18 16 14 14 12 12 S-3B COOLING ANTICIPATOR The cooling anticipator is a small heater (resistor) in the thermostat. thermostat calling for cooling 1.T. No voltage indicates the trouble is in the thermostat or wiring. Check the continuity of the thermostat and wiring. AND ANTICIPATOR THERMOSTAT WIRE SIZING CHART LENGTH OF RUN 25 feet 50 feet 75 feet 100 feet 125 feet 150 feet MIN. S-3A THERMOSTAT AND WIRING S-3C HEATING ANTICIPATOR The heating anticipator is a wire wound adjustable heater which is energized during the "ON" cycle to help prevent overheating of the conditioned space. Repair or replace as necessary. Use an amprobe as shown below. Use a voltmeter to check for 24 volts at thermostat wires C and Y in the condensing unit control panel. Set room thermostat to a higher setting than room temperature so both stages call for heat. This prevents the room temperature from rising too high before the system is restarted. Also safety devices must be checked for continuity. To determine the proper setting. 1. Repair or replace as necessary. The anticipator is a part of the thermostat and if it should fail for any reason. 3. WARNING Line Voltage now present. check for 24 volts at wires C and G. NOTE: Consideration must be given to how the heaters are wired (O. the thermostat must be changed. The anticipator is supplied in the thermostat and is not to be replaced. BOTH RED AND GREEN ILLUMINATED WILL INDICATE FULL CYCLES DENOTED BY + .LED WILL BE GREEN AND WILL LIGHT TO INDICATE ..) THE + LED WILL BE RED AND WILL LIGHT TO INDICATE + HALF CYCLES. a technician can determine if the proper input signal is being received by the encoded VSTB control and diagnose any problems that may be relayed to the output response of the B13682-74 VSTM control. A test lead or jumper wire can be added from the test terminal to any terminal on the B13682-74 or B13682-71 variable speed terminal board and provide information through the use of the LED lights on the B13682-71 VSTB control.) SIGNAL OUT CONDITION FOR W1 . 2.* POWER TO THERMOSTAT R+COM G N/A N/A 24 VAC GND * ERROR CONDITION ( S3 CAN ONLY READ + ) * ERROR CONDITION ( S3 CAN ONLY READ + ) NOTES: 1.SERVICING S-3D TROUBLESHOOTING ENCODED TWO STAGE COOLING THERMOSTATS OPTIONS Troubleshooting Encoded Two Stage Cooling Thermostats Options T E S T TEST INDICATION S1 + * S1 . THE .* S1 + S2 + INPUT FROM THERMOSTAT S2 - FUNCTION LOW SPEED COOL * LO SPEED COOL * HI SPEED COOL LO SPEED HEAT O SIGNAL OUT YCON + * YCON . The chart above provides troubleshooting for either version of the encoded thermostat option.) THE TEST SPADE CAN BE CONNECTED TO ANY OTHER TEST SPADE ON EITHER BOARD.HALF CYCLES. Using this chart.* YCON + W1 HEATER ED ( FUTURE USE ) SIGNAL FAN Y1 * Y / Y2 HI * Y / Y2 W / W1 O SEE NOTE 3 * ERROR CONDITION ( DIODE ON THERMOSTAT BACKWARDS ) S2 + - LO SPEED HEAT HI SPEED HEAT W1 HEATER W2 HEATER NONE N/A N/A R TO T'STAT COM TO T'STAT W / W1 EM / W2 G N/A N/A R C1 . This provides diagnostic information for the GMC CHET18-60 or a conventional two cool / two stage heat thermostat with IN4005 diodes added as called out in the above section. 3. 136 . THE TABLE ABOVE ASSUMES OT1 PJ4 IS REMOVED AND OT2 PJ2 IS MADE WITH NO OUTDOOR THERMOSTATS ATTACHED.* * S3 + . C2 SEE NOTE 3 S3 + * S3 . W2 HEATER WILL BE AFFECTED BY OT1 PJ4 AND OT2 PJ2 JUMPERS AND OUTDOOR THERMOSTATS ATTACHED. 2. 3.. Failure to do so may cause property damage. Remove wire from Y1 terminal. measure the resistance across terminals H1 and H2.SERVICING S-4 CHECKING TRANSFORMER AND CONTROL CIRCUIT With power ON: WARNING Line Voltage now present. Check for continuity across other terminals .replace relay. S-5 CHECKING CYCLE PROTECTOR Some models feature a solid state. 3. Apply 24 volts to terminals H1 and H2. 2. Should read 0 VAC at Y1 and Y2. check voltage across secondary voltage side of transformer (R to C). Should read 24 VAC at terminals Y1 and Y2. 4. NOTE: The time delay for the contacts to make will be approximately 20 to 50 seconds and to open after the coil is de-energized is approximately 40 to 90 seconds. Replace. Check transformer primary voltage at incoming line voltage connections and/or splices. bad wiring. 1. OHMMETER TESTING COIL CIRCUIT 137 . personal injury or death. With power ON: S-6 CHECKING TIME DELAY RELAY Time delay relays are used in some of the blower cabinets to improve efficiency by delaying the blower off time. Using a voltmeter. transformer is inoperative.replace. Remove control panel cover. The outdoor sections do not contain a transformer. 4. or etc. or bad splices. 4. Wait for approximately four (4) minutes if machine was running. A step-down transformer (208/240 volt primary to 24 volt secondary) is provided with each indoor unit. 1. check for continuity across terminals 3 and 1. 3. to gain access to transformer. Reapply 24 VAC to R1 and R2 . Multiple power sources may be present. Using an ohmmeter. 2. If not as above . Time delays are also used in electric heaters to sequence in multiple electric heaters. 2. This control is used to prevent short cycling of the compressor under certain operating conditions. WARNING Line Voltage now present. Should read approximately 150 ohms. This allows ample capacity for use with resistance heaters. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Using an ohmmeter. Apply 24 VAC to terminals R1 and R2. 5. 1.should test continuous. A power interruption will break circuit (R1 to Y1) for approximately three minutes before resetting. The component is normally closed (R1 to Y1). No voltage indicates faulty transformer. delay-on make after break time delay relay installed in the low voltage circuit. 5 If line voltage available at primary voltage side of transformer and wiring and splices good. Tag and disconnect all wires from male spade connections of relay. If not as above . and 4 and 5.within approximately three (3) to four (4) minutes should read 24 VAC at Y1 and Y 2. Remove 24 VAC at terminals R1 and R2. 1. . CC VOLT/OHM METER L3 L2 L1 Ohmmeter for testing holding coil Voltmeter for testing contacts S-8 CHECKING CONTACTOR CONTACTS SINGLE PHASE 1. T1-T3. Failure to do so may cause property damage. A. THREE PHASE Using a voltmeter. If a no voltage reading is obtained .If voltage is present. TESTING COMPRESSOR CONTACTOR (ThreePhase) S-9 CHECKING FAN RELAY CONTACTS WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. WARNING Line Voltage now present. L2 . springs return the contacts to their normal position. leaving 115 volts to ground present at most internal components. the coil pulls in the normally open contacts or opens the normally closed contacts. Using an ohmmeter. energize the relays. energize the contactor. and L2-L3 .replace the contactor. test across terminals. With power ON. CC VOLT/OHM METER L2 L1 WARNING Line Voltage now present. check breaker or fuses on main power supply.T1 . proceed to B. Remove the leads from the holding coil. NOTE: Most single phase contactors break only one side of the line (L1). Multiple power sources may be present. 2. 5 and 6 of Fan Relay Heating. With power ON. When the control circuit is energized.If voltage readings are not the same as in "A". Disconnect wires leads from terminals 2 and 4 of Fan Relay Cooling and 2 and 4. Using a voltmeter.SERVICING S-7 CHECKING CONTACTOR AND/OR RELAYS 3. Ohmmeter for testing holding coil Voltmeter for testing contacts TESTING COMPRESSOR CONTACTOR (Single Phase) 138 . 3. T3 T2 T1 WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. 1. L1-L2. A.should read open. test across the coil terminals. test across terminals. Failure to do so may cause property damage. When the coil is de-energized. B. replace contactor. replace the relay or contactor. If voltage is not present. Test between 5 and 6 . Using an ohmmeter.No voltage indicates CC1 contacts open. The compressor contactor and other relay holding coils are wired into the low or line voltage circuits. Disconnect the wire leads from the terminal (T) side of the contactor. T1-T2. T2 T1 2. If the coil does not test continuous. Multiple power sources may be present.should read continuous. test between 2 and 4 . and T2-T3 . personal injury or death. personal injury or death. L1-L3. 1. 2. test between 2 and 4 . If not as above. It will automatically cut-in (close) at approximately 85 PSIG. 5. With power ON: If it cuts-out at 610 PSIG ± 10 PSIG. the contacts of the control open. Test for continuity using a VOM and if not as above. S-12 CHECKING HIGH PRESSURE CONTROL WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Test between 5 and 6 . This control is automatically reset. Start the system and place a piece of cardboard in front of the condenser coil. 4. breaking the control circuit before the compressor motor overloads. check across terminals of high pressure control. raising the condensing pressure. The capacitors primary function is to reduce the line current while greatly improving the torque characteristics of a motor. RUN A run capacitor is wired across the auxiliary and main windings of a single phase permanent split capacitor motor. it is operating normally (See causes for high head pressure in Service Problem Analysis Guide). The low pressure control will automatically reset itself with a rise in pressure.should read open. replace the control. 139 . so that the motor will give two phase operation when connected to a single phase circuit. If it cuts out below this pressure range. replace the control. Using an ohmmeter.SERVICING 4 3 OHMMETER 2 5 1 TESTING FAN RELAY 4. Multiple power sources may be present. Failure to do so may cause property damage. the contacts are open. 3. 5. The high pressure control capillary senses the pressure in the compressor discharge line. S-13 CHECKING LOW PRESSURE CONTROL The low pressure control senses the pressure in the suction line and will open its contacts on a drop in pressure. Attach a gauge to the dill valve port on the base valve. Using an ohmmeter. This is accomplished by using the 90° phase relationship between the capacitor current and voltage in conjunction with the motor windings. WARNING Line Voltage now present.should read continuous . The line side of this capacitor is marked with "COM" and is wired to the line side of the circuit. If not continuous. The capacitor also reduces the line current to the motor by improving the power factor. The low pressure control is designed to cut-out (open) at approximately 50 PSIG. personal injury or death. Check pressure at which the high pressure control cutsout. replace the relay. 1. If abnormally high condensing pressures develop. S-15 CHECKING CAPACITOR CAPACITOR. with wire removed. Multiple power sources may be present. START SCROLL COMPRESSOR MODELS Hard start components are not required on Scroll compressor equipped units due to a non-replaceable check valve located in the discharge line of the compressor. (Start capacitor would read resistor resistance. It will still read the resistance of the resistor). Set an ohmmeter on its highest ohm scale and connect the leads to the capacitor A. However hard start kits are available and may improve low voltage starting characteristics.) RUN CAPACITOR HARD START KIT WIRING 140 . the increase in voltage across the start winding will energize the start relay holding coil and open the contacts to the start capacitor. personal injury or death. Discharge capacitor and remove wire leads. START A potential or voltage type relay is used to take the start capacitor out of the circuit once the motor comes up to speed. 1. START CAPACITOR S-15A RESISTANCE CHECK WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. C. The normally closed contacts are wired in series with the start capacitor and the relay holding coil is wired parallel with the start winding. Open . T2 T1 L2 L1 CONTACTOR ORANGE 5 COM HERM FAN B. OHMMETER CAPACITOR RED 10 VIOLET 20 YELLOW 12 START RELAY TESTING CAPACITOR RESISTANCE 2. Two quick ways to test a capacitor are a resistance and a capacitance check. This check valve closes off high side pressure to the compressor after shut down allowing equalization through the scroll flanks. Shorted . WARNING Discharge capacitor through a 20 to 30 OHM resistor before handling.indicator swings to zero and slowly returns to infinity. RELAY.indicator swings to zero and stops there replace. Equalization requires only about one or two seconds during which time the compressor may turn backwards. (Start capacitor with bleed resistor will not return to infinity.no reading . This type of relay is position sensitive.replace. Failure to do so may cause property damage. As the motor starts and comes up to speed. Good Condition .SERVICING CAPACITOR. Capacitance (MFD) = 2650 X Amperage Voltage S-16A CHECKING FAN AND BLOWER MOTOR WINDINGS (PSC MOTORS) The auto reset fan motor overload is designed to protect the motor against high temperature and high amperage conditions by breaking the common circuit within the motor. Remove the motor leads from its respective connection points and capacitor (if applicable). This is a characteristic of the motor. Using a volt meter. An ECM motor requires power (line voltage) and a signal (24 volts) to operate. reinsert the 5-pin connector and remove the 16-pin connector. As a result. WARNING Line Voltage now present. not an indication of defective bearings. 1. If you do not have continuity. 8. low noise. the motor may function erratically. The ECM has near zero rotor loss. Check the continuity between each of the motor leads. 6. personal injury or death. Check for signal (24 volts) from the thermostat to the "G" terminal at the 16-pin connector. Check the control board. GE offers two ECM motor testers. If the windings do not test continuous or a reading is obtained from lead to ground. variable speed. one can easily perform basic troubleshooting on ECM motors. The ECM motor stator contains permanent magnet. 2. If line voltage is present. See section S-40. If no voltage is present: 3. Disconnect the 5-pin connector from the motor. Multiple power sources may be present. Check the unit for incoming power See section S-1. Check for signal (24 volts) at the transformer. Failure to do so may cause property damage.SERVICING S-15B CAPACITANCE CHECK Using a hookup as shown in the following drawing. 141 . WARNING Discharge capacitor through a 20 to 30 OHM resistor before handling. similar to the compressor internal overload. Trace the common circuits. 4. Touch one probe of the ohmmeter to the motor frame (ground) and the other probe in turn to each lead. heat generated within the motor is faster to dissipate than the compressor. 5. Using an ohmmeter. locate and repair the open neutral. Because of the sophisticated electronics within the ECM motor. the shaft feels "rough" when turned by hand. take the amperage and voltage readings and use them in the formula: 1. However. these fears are unfounded. Using a voltmeter. 2. check for 24 volts between pin # 15 (G) and common. 9. and with a VOM meter. replace the motor. and programmable air flow. synchronous machine operation. 3. allow at least 45 minutes for the overload to reset. check for line voltage at terminals #4 & #5 at the power connector. VOLTMETER S-16B CHECKING FAN AND BLOWER MOTOR (ECM MOTORS) 15 AMP FUSE AMMETER CAPACITOR TESTING CAPACITANCE An ECM is an Electronically Commutated Motor which offers many significant advantages over PSC motors. some technicians are intimated by the ECM motor. then retest. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Set the thermostat to "Fan-On". however. 7. check for continuity from the #1 & #3 (common pins) to the transformer neutral or "C" thermostat terminal. Force plugs. 11.Replace one motor or control model # with another (unless an authorized replacement).Use high pressure drop filters . . check for 24 volts at pin #2 and/or #11. the problem is in the control or interface board.some have 1/2" H2O drop! .Check orientation before inserting motor connectors. Using a voltmeter. static. the ECM power head is defective and must be replaced.Use restricted returns.Oversize system then compensate with low airflow. . DON'T .Size the equipment wisely. ECM VARIABLE SPEED CIRCULATOR BLOWER MOTORS DO .Design ductwork for min.Recommend high efficiency.Check-out motor. .SERVICING 10. but not the motor. . . and connections before replacing motor. controls. . max comfort. . . . . Disconnect power to compressor.Look for and recommend ductwork improvement. Set thermostat to call for cooling.Keep static pressure to a minimum: . in replacement. low static filters.Recommend keeping filters clean. . where necessary. . 142 . Set the thermostat to a call for heating. .Orient connectors down to prevent water infiltration. wiring.Use authorized motor and control model #'s for replacement.Automatically assume the motor is bad.Install "drip loops".Locate connectors above 7 and 4 o'clock positions. If you register voltage as described . OUT ADJUST +/Y1 COOL 8 16 OUT + G (FAN) Y/Y2 EM Ht/W2 24 Vac (R) HEAT BK/PWM (SPEED) O (REV VALVE) 7 15 6 14 5 13 1 2 3 4 5 } Lines 1 and 2 will be connected for 12OVAC Power Connector applications only DELAY COMMON2 W/W1 COMMON1 4 12 3 11 Gnd AC Line Connection AC Line Connection 2 10 1 9 16-PIN ECM HARNESS CONNECTOR 5 PIN CONNECTOR If you do not read voltage and continuity as described. . . Using a voltmeter.Plug in power connector backwards. check for 24 volts at pin # 6 and/or #14. G. .M ake sure b lo w er w heel is t ig ht o n shaf t .Perf o rm M o ist ure C heck. . Y . U nseat ed p ins in w iring harness co nnect o rs.C heck/ co rrect d uct rest rict io ns. p anels.w ait unt il d elay co mp let e. W ait 5 minut es af t er d isco nnect ing p o w er b ef o re o p ening mo t o r. - D o es remo ving p anel o r f ilt er red uce " p uf f ing " ? C heck/ rep lace f ilt er.C heck lo w vo lt ag e (Thermo st at ) w ires and co nnect io ns.A d just t o co rrect b lo w er sp eed set t ing . Y .Hand le elect ro nic mo t o r/ co nt ro l w it h care.C heck and p lug leaks in ret urn d uct s. ------- . - C heck 2 3 0 V ac p o w er at mo t o r. . B lo w n f use o r circuit b reaker. R . . .C heck f o r Triac sw it ched t ' st at o r so lid st at e relay.Hig h st at ic creat ing hig h b lo w er sp eed ." Hunt s" o r " p uf f s" at hig h C FM (sp eed ).C heck lo w vo lt ag e co nnect io ns (G.M o t o r ro cks. .Hand le elect ro nic mo t o r/ co nt ro l w it h care. Inco rrect b lo w er sp eed set t ing . . . .Hand le elect ro nic mo t o r/ co nt ro l w it h care. B ad mo t o r/ co nt ro l mo d ule. . ." R " missing / no t co nnect ed at mo t o r. .Perf o rm mo t o r/ co nt ro l rep lacement check.C heck f o r lo o se mo t o r mo unt .Perf o rm mo t o r/ co nt ro l rep lacement check.V erif y f an is no t in d elay mo d e .C heck f o r lo o se b lo w er ho using . . * M o i s t ur e C he c k . . .St ays at hig h C FM . . R ." Hunt s" o r " p uf f s" at hig h C FM (sp eed ). W ait 5 minut es af t er d isco nnect ing p o w er b ef o re o p ening mo t o r.Turn p o w er OFF p rio r t o rep air.Evid ence o f M o ist ure. . p anels.Lo o se mo t o r mo unt .Turn p o w er OFF p rio r t o rep air. . .St ays at lo w C FM d esp it e syst em call f o r co o l o r heat C FM .C heck-o ut syst em co nt ro ls . . . b ut w o n't st art .Turn p o w er OFF p rio r t o rep air. o r W . Inco rrect sup p ly o r ret urn d uct w o rk.w ait unt il d elay t ime co mp let e.Turn p o w er OFF p rio r t o rep air. W ait 5 minut es af t er d isco nnect ing p o w er b ef o re o p ening mo t o r. .A rrang e harnesses w it h " d rip lo o p " und er mo t o r. . .* . EC M mo t o rs o nly. .Turn p o w er OFF p rio r t o rep air.Inco rrect o r d irt y f ilt er(s). Inco rrect b lo w er sp eed set t ing . . .Turn p o w er OFF p rio r t o rep air.C heck f o r und ercharg ed co nd it io n.2 4 V ac w ires misw ired o r lo o se. . C ) at mo t o r. C heck/ co rrect d uct rest rict io ns. . C heck lo w vo lt ag e (2 4 V ac R t o C ) at mo t o r. .Is co nd ensat e d rain p lug g ed ? .Turn p o w er OFF p rio r t o rep air. W ait 5 minut es af t er d isco nnect ing p o w er b ef o re o p ening mo t o r. .C heck f o r air w hist ling t hru seams in d uct s.This is no rmal st art -up f o r variab le sp eed mo t o r. C heck f o r unseat ed p ins in co nnect o rs o n mo t o r harness. . .M o t o r f ailure o r malf unct io n has o ccurred and mo ist ure is p resent . M o ist ure p resent in mo t o r o r co nt ro l mo d ule. C ) at mo t o r.It is no rmal f o r mo t o r t o o scillat e w it h no lo ad o n shaf t . o r p anels. Test w it h a t emp o rary jump er b et w een R . Even t ho ug h t hey lo o k alike.C heck/ rep lace f ilt er. 2 4 V ac w ires misw ired .Fan in d elay mo d e.Fan in d elay mo d e. W . . C heck/ co rrect d uct rest rict io ns. . .A ir no ise. .C urrent leakag e f ro m co nt ro ls int o G.C heck line vo lt ag e f o r variat io n o r " sag " .B lo w er w o n't shut o f f .C heck f o r lo w airf lo w (t o o much lat ent cap acit y). et c. .M o ist ure in mo t o r/ co nt ro l mo d ule.M o t o r w o n't st art .Is f an in d elay mo d e? . unseat ed p ins in mo t o r harness co nnect o rs. .Inco rrect sup p ly o r ret urn d uct w o rk. - V ariat io n in 2 3 0 V ac t o mo t o r.M o t o r ro cks slig ht ly w hen st art ing .C heck f o r cab inet / d uct d ef o rmat io n. . - M anual d isco nnect sw it ch o f f o r d o o r sw it ch o p en.Turn p o w er OFF p rio r t o rep air.Turn p o w er OFF p rio r t o rep air. . EC M mo t o rs o nly. . . . d if f erent mo d ules may have co mp let ely d if f erent f unct io nalit y. ---- . . Y .Thermo st at .N o isy b lo w er o r cab inet . W ait 5 minut es af t er d isco nnect ing p o w er b ef o re o p ening mo t o r.B lo w er w heel no t t ig ht o n mo t o r shaf t . . Inco rrect o r d irt y f ilt er(s). .Perf o rm mo t o r/ co nt ro l rep lacement check.N o mo vement . EC M mo t o rs o nly.Inco rrect b lo w er sp eed set t ing . .B ad mo t o r/ co nt ro l mo d ule.R ep lace mo t o r and p erf o rm M o ist ure C heck. C heck lo w vo lt ag e co nnect io ns (G. M o ist ure p resent in mo t o r/ co nt ro l mo d ule.M o t o r o scillat es up & d o w n w hile b eing t est ed o f f o f b lo w er. .V aries up and d o w n o r int ermit t ent . W . - Hig h st at ic creat ing hig h b lo w er sp eed .Trouble shooting Cha rt for ECM V a ria ble Spe e d Air Circula tor Blow e r Motors Pos s ible Caus es ---------- Sy mptom Fault Des c ription(s ) Correc tiv e A c tion Cautions and Notes .Hand le elect ro nic mo t o r/ co nt ro l w it h care. . . .Excessive no ise.Lo o se b lo w er ho using . . C heck m . . ." R " missing / no t co nnect ed at mo t o r. N o t e : Y o u must use t he co rrect rep lacement co nt ro l/ mo t o r mo d ule since t hey are f act o ry p ro g rammed f o r sp ecif ic o p erat ing mo d es. - D o es remo ving p anel o r f ilt er red uce " p uf f ing " ? C heck/ rep lace f ilt er. . Imp ro p er t hermo st at co nnect io n o r set t ing . . . cab inet . . et c. . . . cab inet s. Errat ic C FM co mmand f ro m " B K" t erminal.Turn p o w er OFF p rio r t o rep air. . . Inco rrect o r d irt y f ilt er(s). - Hig h st at ic creat ing hig h b lo w er sp eed .C o nnect o rs are o rient ed " d o w n" (o r as reco mmend ed b y eq uip ment manuf act urer).M o t o r st art s. A d just t o co rrect b lo w er sp eed set t ing . Inco rrect sup p ly o r ret urn d uct w o rk. .Turn p o w er OFF p rio r t o rep air. .Hand le elect ro nic mo t o r/ co nt ro l w it h care.* . U nseat ed p ins in w iring harness co nnect o rs. . cab inet s o r p anels. The EC M variab le sp eed mo t o rs are c I mp o r t a nt N o t e : U sing t he w ro ng mo t o r/ co nt ro l mo d ule vo id s all p ro d uct w arrant ies and may p ro d uce unexp ect ed result s. . 143 . SERVICING .A ir leaks in d uct w o rk. A d just t o co rrect b lo w er sp eed set t ing . b ut runs errat ically. If the ohmmeter indicates continuity to ground. Multiple power sources may be present. When an AER or AEPT is used with 2-stage cooling units. Disconnect the 5-pin and the 16-pin connectors from the ECM power head. dipswitch #4 should be in the "OFF" position. AEPT MOTORS AER36-60 AEPT36-60 This section references the operation characteristics of the AER and AEPT models motor only. Each ECM™ blower motor has been preprogrammed for operation at 4 distinct airflow levels when operating in Cooling/Heat Pump mode or Electric Heat mode. Dipsw itch Num ber 1 2 3 4 5 6 7 8 Function Electric Heat N/A Indoor Therm ostat Cooling & Heat Pum p CFM CFM Trim Adjust Table 1 Motor Connector (3-pin) CFM DELIVERY Tables 2 and 3 show the CFM output for dipswitch combinations 1-2. personal injury or death. Using an ohmmeter.200 Table 2 144 .SERVICING S-16C CHECKING ECM MOTOR WINDINGS WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. The ECM control board is factory set with the dipswitch #4 in the “ON” position and all other dipswitches are factory set in the “OFF” position. check the motor windings for continuity to ground (pins to motor shell).600 1. Remove the 2 screws securing the ECM power head and separate it from the motor.100 850 700 2. For most applications. 5. Electric Heat Operation Motor OK when R > 100k ohm (3-pin) Model AER30 AEPT30 WINDING TEST S-16D ECM CFM ADJUSTMENTS AER. Allow motor to cool and retest. Disconnect the 3-pin motor connector from the power head and lay it aside. If no continuity is indicated. Using an ohmmeter. AER and AEPT products use a General Electric ECMTM motor. Failure to do so may cause property damage. These 4 distinct levels may also be adjusted slightly lower or higher if desired. 2. This motor provides many features not available on the traditional PSC motor. and 5-6. These features include: • • • • Improved Efficiency Constant CFM Soft Start and Stop Improved Humidity Control MOTOR SPEED ADJUSTMENT 1. the settings are to be changed according to the electric heat size and the outdoor unit selection. Switch 1 OFF ON OFF OFF ON OFF OFF Switch 2 OFF OFF ON OFF OFF ON ON CFM 1. the thermal limit (over load) device may be open. The function of these dipswitches are shown in Table 1.750 1. the motor is defective and must be replaced. The adjustment between levels and the trim adjustments are made by changing the dipswitch(s) either to an "OFF" or "ON" position. 3.050 1. check the windings for continuity (pin to pin). DIPSWITCH FUNCTIONS AER and AEPT air handler motors have an electronic control that contains an eight (8) position dip switch. 4. is slow to dissipate. and C-S. If the following test indicates shorted. see procedures S-19 for the next steps to be taken.200 ON ON This discharge can be ignited external to the compressor if the terminal cover is not properly in place and if the discharge impinges on a sufficient heat source. S-17A RESISTANCE TEST Each compressor is equipped with an internal overload. C FM +10% -1 5 % S w it c h 7 ON OFF Table 4 S w it c h 8 OFF ON HUMIDITY CONTROL When using a Humidstat (normally closed). Heat generated within the compressor shell. the terminal may be expelled. usually due to recycling of the motor. breaking the common circuit within the compressor on single phase units. all open flame. venting the vapor and liquid contents of the compressor housing and system. grounded or open windings. cut jumper PJ6 on the control board. High motor temperature or amperage heats the disc causing it to open. Ignition cannot occur at the venting terminal without the presence of contaminant air. then retest. Table 4 shows the switch position for this feature.480 ON 1. personal injury or death.100 OFF AER30 ON 800 OFF AEPT30 OFF ON 600 OFF 1. Remove the leads from the compressor terminals. Using an ohmmeter. WARNING See warnings S-17 before removing compressor terminal cover. electrical power. on 3 phase units. the CFM output is 30% of the cooling setting. and cannot occur externally from the venting terminal without the presence of an external ignition source.580 OFF AEPT36-60 OFF 1. spouting flames several feet. S-17 CHECKING COMPRESSOR WARNING Hermetic compressor electrical terminal venting can be dangerous. cut jumper PJ4 on the control board. that the vaporous and liquid discharge can be ignited. When using staged electric heat. if there is sufficient contaminant air present in the system and an electrical arc occurs as the terminal vents. 1. Multiple power sources may be present. Failure to do so may cause property damage. If the compressor terminal PROTECTIVE COVER and gasket (if required) are not properly in place and secured. CFM TRIM ADJUST Minor adjustments can be made through the dip switch combination of 7-8. proper evacuation of a hermetic system is essential at the time of manufacture and during servicing.SERVICING Cooling/He a t Pum p Ope ra tion OFF 1. and other heat sources should be extinguished or turned off prior to servicing a system. on single phase units or terminals T2.800 OFF ON AER36-60 1. To reduce the possibility of external ignition. Therefore. T2 and T3. When insulating material which supports a hermetic compressor or electrical terminal suddenly disintegrates due to physical abuse or as a result of an electrical short between the terminal and the compressor housing. C-R. Table 3 THERMOSTAT “FAN ONLY” MODE During Fan Only Operations. there is a remote possibility if a terminal vents. NOTE: The airflow will not make the decreasing adjustment in Electric Heat mode. test continuity between terminals SR. 2. high amperage or insufficient gas to cool the motor. The line break internal overload senses both motor amperage and winding temperature. 145 . TWO STAGE HEATING WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. causing potentially severe or fatal injury to anyone in its path. Allow at least three to four hours for it to cool and reset. The Humidstat will only affect cooling airflow by adjusting the Airflow to 85%. Ignition of the discharge can also occur at the venting terminal or inside the compressor. 2. 5. B. and its maximum rating should coincide with that marked on the equipment nameplate. the cause for failure is somewhere else in the system. making sure that all power legs are open. Do not use a low voltage output instrument such as a voltohmmeter. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. If ground is indicated. ground fault protective device. S-17D OPERATION TEST If the voltage. Remove unit wiring from disconnect switch and wire a test cord to the disconnect switch. overload and motor winding test fail to show the cause for failure: WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit.replace. If no visual problems indicated. 1. The circuit protective device rating must be checked. etc. directly between compressor terminals and ground. Multiple power sources may be present. 2. This can result in terminal and hot oil discharging. A. use the three leads to the compressor terminals that were disconnected at the nearest point to the compressor and connect the common. If the compressor starts and continues to run. Connect good capacitors of the right MFD and voltage rating into the circuit as shown. Hi-Potential Ground Tester. Identify the leads and using a Megger. With the protective terminal cover in place. close the switch.SERVICING 3. R OHMMETER S COMP Carefully retest for ground.. carefully remove the leads at the compressor terminals. 1. NOTE: The wire size of the test cord must equal the line wire size and the fuse must be of the proper size and type. Failure to do so may cause property damage. C 4. If the compressor fails to start . If a ground is indicated. Failure to do so may cause property damage. replace the compressor. circuit breaker. NOTE: If an open compressor is indicated. personal injury or death. DO NOT continue to reset. With power ON. start and run clips to the respective leads. it is acceptable to replace the fuse or reset the circuit breaker ONE TIME ONLY to see if it was just a nuisance opening. Disconnect all power to unit. this is a strong indication that an electrical problem exists and must be found and corrected. capacitor. has tripped. TESTING COMPRESSOR WINDINGS If either winding does not test continuous. then carefully remove the compressor terminal protective cover and inspect for loose leads or insulation breaks in the lead wires. DO NOT remove protective terminal cover. Multiple power sources may be present. check for a ground separately between each of the three leads and ground (such as an unpainted tube on the compressor). With the terminal protective cover in place. HI-POT COMPRESSOR GROUND TEST 146 . or other suitable instrument which puts out a voltage between 300 and 1500 volts. WARNING Damage can occur to the glass embedded terminals if the leads are not properly removed. 4. allow ample time for the internal overload to reset before replacing compressor. replace the compressor. If it opens again. personal injury or death. S-17B GROUND TEST If fuse. 3. Disconnect the three leads going to the compressor terminals at the nearest point to the compressor. unit running. If no voltage is registered at the coil terminals. Check operation of the valve by starting the system and switching the operation from COOLING to HEATING cycle. test the voltage (24V) at the valve coil terminals. Energize the relay by applying 24 volts to the relay coil. measure voltage between (DFT) terminal and (COM) terminal of defrost timer board . check heater continuity . while the system is on the COOLING cycle. Disconnect the heater lead in wires.Count time speeds up . proceed as follows: With power ON. With power on. If voltage is registered at the coil. Failure to do so may cause property damage. Defrost contacts should read closed. If this fails to cause the valve to switch positions. check the operation of the thermostat an the continuity of the connecting wiring from the "O" terminal of the thermostat to the unit.should read 24 VAC. Using an ohmmeter. With VOM connected to the C and O terminials. 3. short or jumper the two TEST pins on board.O. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. (Test Terminals Jumpered .C. Using a VOM. Multiple power sources may be present. WARNING Line Voltage now present. Readings should be opposite those read in step 2. Using an ohmmeter. replace. part of the discharge gas from the compressor is directed back to the suction side. N. contacts should be open). 4. remove the coil connector cap and test the continuity of the reversing valve solenoid coil. etc. test continuity between terminals. If not as above. An increase in the suction line temperature through the reversing valve can also be measured. 147 . replace the relay. If not as above. If the coil does not test continuous replace it. A crankcase heater will not prevent compressor damage due to a floodback or over charge condition. Crankcase heaters are used to prevent migration or accumulation of refrigerant in the compressor crankcase during the off cycles and prevents liquid slugging or oil pumping on start up. S-20 CHECKING DEFROST RELAY CONTACTS 1. to (DFT) terminal of defrost timer board. With the unit in operation.replace. If not as above. Remove the wire leads from the defrost relay contact terminals. (N. 1. When stuck in the mid-position.90 minutes = approximately 21 seconds). replace relay. retest with ohmmeter. Jumper defrost control (thermostat) by placing jumper wire from (R) wire of low voltage terminal board. WARNING Line Voltage now present. 5. S-24 TESTING DEFROST TIMER BOARD To check the defrost timer board for proper sequencing. S-18 TESTING CRANKCASE HEATER (OPTIONAL ITEM) The crankcase heater must be energized a minimum of four (4) hours before the condensing unit is operated. 2. personal injury or death. contact should be closed. resulting in excessively high suction pressure. 2.SERVICING COPELAND COMPRESSOR 03 YEAR S-21 CHECKING REVERSING VALVE AND SOLENOID A MONTH 12345 SER IAL NUMBER L PLANT Occasionally the reversing valve may stick in the heating or cooling position or in the mid-position. 3. If not. If the valve fails to change its position. If the coil test continuous and 24 volts is present at the coil terminals.should test continuous. 2. replace control. tap the valve body lightly while switching the system from HEATING to COOLING. the valve is inoperative . TIME TEMPERATURE DEFROST CONTROL Testing Defrost Initiation 1. meter should read 0 VAC. Failure to do so may cause property damage. This board provides on/off time delays for the blower motor in cooling and heat pump heating demands when “G” is energized. 2. Check the temperature at which the control closes its contacts. Using an ohmmeter. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Failure to do so may cause property damage. 4. Remove jumper from defrost control (thermostat) installed in Step 1 above. M1 and M2. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Multiple power sources may be present. Unit should terminate defrost and resume normal heating operation. on the EBTDR board. 2. 24Vac is supplied to terminal “G” of the EBTDR to turn on the blower motor. the EBTDR initiates a 65 second delay off. Raise the temperature of the control until it opens. 3. When “W1” is energized.DO NOT WIRE AROUND. 3. 1. When the 65 seconds delay expires the onboard relay is de-energized and it’s contacts open and remove power from the blower motor. If not as above. The EBTDR initiates a 7 second delay on and then energizes it’s onboard relay. test the element for continuity . IF FOUND OPEN . “C”. Install a thermocouple type temperature test lead on the tube adjacent to the defrost control (thermostat). When the “G” input is removed. “W1” is energized but “G” is not. S-27 CHECKING HEATER ELEMENTS Optional electric heaters may be added in the quantities shown in the spec sheet for each model unit. Disassemble and remove th heating element(s). are on the EBTDR board. 2. Insulate the lead point of contact. Remove the wiring from the control terminals. Visually inspect the heater assembly for any breaks in the wire or broken insulators. the sequencer opens it contacts within 30 to 70 seconds and removes power from the heater element and the blower motor. The relay on the EBTDR board closes it’s normally open contacts and supplies power to the blower motor. Replace as neccessary. 4. During a cooling or heat pump heating demand. The blower motor is connected to the normally closed contacts of the relay on the EBTDR board. 1. Multiple power sources may be present. the sequencer will close it’s contacts within 10 to 20 seconds to supply power to the first heater element and to the blower motor through the normally closed contacts on the relay on the EBTDR. S-40 AR & AR*F ELECTRONIC BLOWERS TIME DELAY RELAY The AR and AR*F contain an Electronic Blower Time Delay Relay board. replace control. When this terminal is shorted to the common terminal. 3. S-25 TESTING DEFROST CONTROL 1. the delay ON time is reduced to 3 seconds and the delay OFF time is reduced to 5 second. Under no condition shall more heaters than the quantity shown be installed. No readin gindicates the control is open . The EBTDR also contains a speedup terminal to reduce the delays during troubleshooting of the unit. This limit control will open its circuit at approximately 150°F to 160°F and close at approximately 110°F. B1370735. These terminals are used to connect the unused leads from the blower motor and have no affect on the board’s operation. 2. S-26 CHECKING HEATER LIMIT CONTROL(S) (OPTIONAL ELECTRIC HEATERS) Each individual heater element is protected wtih an automatic rest lmit control connected in series with each element to prevent overheating of components in case of low airflow. 148 .no reading indicates the element is open. The other side of this set of contacts is connected to the heat sequencer on the heater assembly that provides power to the first heater element. personal injury or death. to provid electri resistance heating.SERVICING Testing Defrost Termination With unit still running and defrost initiated: 1. If not as above. personal injury or death.REPLACE .replace if necessary. When the “W1” demand is removed. Make sure the limits are cool before testing. Remove wire from Terminal (DFT) on defrost control board. Two additional terminals. Using an ohmmeter test for continuity across the normally closed contacts. replace control. During an electric heat only demand. When the “W2” demand is satisfied. the temperature indoors will continue to drop. Some installations may use one or more outdoor thermostats to restrict the amount of electric heat that is available above a preset ambient temperature. the room thermostat energizes “G” and “Y” and 24Vac is supplied to “Y” at the condensing unit and the “G” terminal on the EBTDR board. the relay on the EBTDR board is energized and the blower motor starts. “W1” cannot be satisfied by the heat pump. The blower motor is already on as a result of terminal “G” on the EBTDR board being energized for the first stage heat demand. Both set of contacts on the relay opens within 30 to 70 seconds and turn off the heater element(s) and the blower motor. which will control the 3rd and 4th heater elements if available. 2. HR2. when the room thermostat set to the cooling mode. if the heater assembly contains a second heater element. the room thermostat will remove the 24Vac from HR1.SERVICING SEQUENCE OF OPERATION This document covers the basic sequence of operation for a typical application with a mercury bulb thermostat. 3. the room thermostat will remove the 24Vac from HR2. on the heater assembly.1 On a demand for heat. The room thermostat will then energize “W2” and 24Vac will be supplied to HR2 on the heater assembly.1 On a demand for first stage heat with heat pump units. At the same time. the room thermostat energizes “G” and “Y” and 24Vac is supplied to “Y” at the heat pump unit and the “G” terminal on the EBTDR board. AR & AR*F WITH SINGLE STAGE CONDENSERS 1. On most digital/electronic thermostats.3 When the cooling demand is satisfied.1 On a demand for cooling. if the heater assembly contains a second heater element. the reversing valve will be in the energized position for cooling. Note: If more than two heater elements are on the heater assembly. the relay on the EBTDR board is de-energized and the blower motor is turned off. the reversing valve will be in the de-energized position for heating except during a defrost cycle. which will close to turn on heater element #2. “W2” will remain energized until the first stage demand “W1” is satisfied and then the “W1” and “W2” demands will be removed. which will close and turn on heater element #2. 1. HR1. 4. the room thermostat energizes “W1” and 24Vac is supplied to heat sequencer.4 The compressor and condenser fan are turned off and after a 65 second delay off. As long as the thermostat is set for heating.1 On a demand for cooling.2 The heat pump turned on in the cooling mode and after a 7 second on delay. At the same time. HR1 will contain a second set of contacts.0 Heating Operation On heat pump units. the temperature indoors will continue to drop.0 Cooling Operation 1. the on/off staging of the auxiliary heat will vary.2 If the first stage heat demand cannot be satisfied by the heat pump. 149 . This sequence of operation does not cover those applications. the reversing valve is not energized. The normally closed contacts on the EBTDR are also connected to terminal M1. 1. 2. When a digital/electronic thermostat is used. 1. 4.3 When the “W1” heat demand is satisfied. 2. 4. Use of optional controls such as these can change the operation of the electric heaters during the heating mode. As long as the thermostat is set for cooling. M3 and M4. If the first stage heat demand. The heat pump is turned on in the heating mode and the blower motor starts after a 7 second on delay.0 Cooling Operation On heat pump units. it will contain a second heat sequencer. the blower motor will be energized thru the normally closed contacts on the EBTDR board. AR & AR*F WITH SINGLE STAGE HEAT PUMPS 3. the relay on the EBTDR board is de-energized and the blower is turned off. 3.3 When the cooling demand “Y” is satisfied. The contacts on HR2 will open between 30 to 70 seconds and heater elements #3 and #4 will be turned off. The room thermostat will then energize terminal “W2’ for second stage heat and 24Vac will be supplied to heat sequencer HR1 on the heater assembly. the relay on the EBTDR board is energized and the blower motor starts.2 The contacts M1 and M2 will close within 10 to 20 seconds and turn on heater element #1. M3 and M4. the room thermostat removes the 24Vac from “G” and “Y”.2 The compressor and condenser fan are turned on and after a 7 second on delay. When M1 and M2 close. 3. the room thermostat removes the 24Vac from “G” and “Y”. 4. Refer to the installation instructions and wiring diagrams provided with the MBR and AR*F for specific wiring connections and system configuration.4 The heat pump is turned off and after a 65 second delay off. 24Vac is supplied to “O” which energizes the reversing valve. HR1 will contain a second set of contacts. 3.0 Heating Operation 2. the room thermostat energizes “G” and “Y” and 24Vac is supplied to “Y” at the heat pump and the “G” terminal on the EBTDR board.3 HR1 contacts M1 and M2 will close will close within 10 to 20 seconds and turn on heater element #1. when the room thermostat set to the heating mode. the defrost cycle will be terminated. The orange jumper wire from terminal “Y1” to terminal “O” on the VSTB inside the AEPT must remain connected. 150 . 5. 5.1 The heat pump will be on and operating in the heating mode as described the Heating Operation in section 4. 5. “W2” cannot be satisfied by the heat pump. the contacts of the HVDR relay on the defrost board open and turns off the outdoor fan. the temperature indoors will continue to drop.SERVICING Note: If more than two heater elements are on the heater assembly. the room thermostat will remove the 24Vac from the coil of HR1. the room thermostat will remove the 24Vac from HR2. The room thermostat will then energize “W3” and 24Vac will be supplied to HR2 on the heater assembly. HR2.1 On a demand for cooling. The AEPT removes the 24Vac from “Y’ at the condenser and the compressor and condenser fan are turned off. the defrost board will automatically terminate the defrost cycle. 1. The contacts on HR2 will open between 30 to 70 seconds and heater elements #3 and #4 will be turned off. S-41 AER & AEPT WITH SINGLE STATE CONDENSERS AER & AEPT ELECTRONIC BLOWER TIME DELAY RELAY SEQUENCE OF OPERATION This document covers the basic sequence of operation for a typical application with a mercury bulb thermostat. When the “W3” demand is satisfied.4 When a defrost cycle is initiated. The VSTB inside the AER and AEPT will turn on the blower motor and the motor will ramp up to the speed programmed in the motor based on the settings for dip switch 5 and 6. 4.5 When the first stage heat demand “Y” is satisfied. The unit will continue to run in this mode until the defrost cycle is completed. “W2” and “W3” demands will be removed. “W3” will remain energized until the first stage heat demand “Y” is satisfied and then the “G”. 4. AER & AEPT WITH SINGLE STAGE CONDENSERS When used with a single stage condenser. The “Y” output from the indoor thermostat must be connected to the yellow wire labeled “Y/Y2” inside the wire bundle marked “Thermostat” and the yellow wire labeled “Y/ Y2” inside the wire bundle marked “Outdoor Unit” must be connected to “Y” at the condenser. when the room thermostat is set to the heating mode. dip switch settings and system configuration. The heat pump is turned off and the blower motor turns off after a 65 second off delay. the contacts of the HVDR relay will close to start the outdoor fan and the contacts of the LVDR relay will open and turn off the reversing valve and electric heater(s). On most digital/electronic thermostats. the reversing valve is not energized.2 The defrost control in the heat pump unit checks to see if a defrost is needed every 30. it will contain a second heat sequencer. The VSTB will supply 24Vac to “Y” at the condenser and the compressor and condenser are turned on. is satisfied. As long as the thermostat is set for heating.3 If the temperature of the outdoor coil is low enough to cause the defrost thermostat to be closed when the defrost board checks it. 60 or 90 minutes of heat pump operation depending on the selectable setting by monitoring the state of the defrost thermostat attached to the outdoor coil. The contacts of the LVDR relay on the defrost board closes and supplies 24Vac to “O” and “W2”. the room thermostat energizes “G” and “Y” and 24Vac is supplied to “G” and “Y/Y2” of the AER and AEPT unit. Refer to the installation instructions and wiring diagrams provided with the AER and AEPT for specific wiring connections. The reversing valve is energized and the contacts on HR1 close and turns on the electric heater(s). The unit will now be back in a normal heating mode with a heat pump demand for heating as described in the Heating Operation in section 4. The contacts on HR1 will open between 30 to 70 seconds and turn off both heater element(s). the room thermostat removes the 24Vac from “G” and “Y”. When a digital/electronic thermostat is used. dip switch #4 must be set to the on position on the VSTB inside the AER and AEPT.6 When the defrost cycle is terminated.2 When the cooling demand is satisfied. the board will initiate a defrost cycle. 1. “W2”.4 As the temperature indoors increase. “Y”. the reversing valve will be in the de-energized position for heating except during a defrost cycle. When this happens. The blower motor will ramp down to a complete stop based on the time and rate programmed in the motor. If the second stage heat demand. which will control the 3rd and 4th heater elements if available.5 When the temperature of the outdoor coil rises high enough to causes the defrost thermostat to open. the on/off staging of the auxiliary heat will vary. 5. the room thermostat will remove the 24Vac from “G” and “Y”. 5. 5. If at the end of the programmed 10 minute override time the defrost thermostat is still closed. The heat pump remains on along with the blower motor because the “Y” demand for first stage heat will still be present. 5.0 Defrost Operation On heat pump units. it will reach a point where the second stage heat demand.0 Cooling Operation 1. As long as the thermostat is set for heating. HR1 will contain a second set of contacts. If at the end of the programmed 10 minute override time the defrost thermostat is still closed. BTUH CAPACITY CORRECTION FACTOR SUPPLY VOLTAGE MULTIPLICATION FACTOR 250 1. the contacts of the HVDR relay on the defrost board will close to start the outdoor fan and the contacts of the LVDR relay will open and turn off the reversing valve and electric heater(s). which will close and turn on heater element #2.84 = 68. 60 or 90 minutes of heat pump operation depending on the selectable setting by monitoring the state of the defrost thermostat attached to the outdoor coil. the board will initiate a defrost cycle. Heating output at 220 V = 24. in the quantities shown in the specifications section.0KW x 3.92 220 . The VSTB will turn on the blower motor and the motor will ramp up to the speed programmed in the motor based on the settings for dip switch 1 and 2. the system CFM can be determined by operating the electric heaters and indoor blower WITHOUT having the compressor in operation.84 Corr. to provide electric resistance heating. The VSTB will supply 24Vac to heat sequencer HR1 on the electric heater assembly.1 The heat pump will be on and operating in the heating mode as described the Heating Operation in section 4.3 If the temperature of the outdoor coil is low enough to cause the defrost thermostat to be closed when the defrost board checks it. The system CFM can be determined by measuring the static pressure external to the unit. M3 and M4. 2.08 230 .0 Heating Operation 2.84 208 .0 KW at the rated 240V. Measure the temperature rise as close to the blower inlet and outlet as possible. Other components such as a Heating/Cooling Thermostat and Outdoor Thermostats are available to complete the installation. The installation manual supplied with the blower coil. The unit will now be back in a normal heating mode with a heat pump demand for heating as described in the Heating Operation in section 4. Actual CFM = 1800 x .2 The defrost control in the heat pump unit checks to see if a defrost is needed every 30. the defrost board will automatically terminate the defrost cycle.8 MBH.413 x . if the heater assembly contains a second heater element.75 EXAMPLE: Five (5) heaters provide 24. 240 V = 1800 CFM from the TEMPERATURE RISE CHART. If other than a 240V power supply is used. shows the CFM for the static measured. 5. the defrost cycle will be terminated. the reversing valve will be in the de-energized position for heating except during a defrost cycle. the room thermostat energizes “W1” and 24Vac is supplied to terminal “E/W1” of the VSTB inside the AER and AEPT units. Alternately.0KW.2 HR1 contacts M1 and M2 will close within 10 to 20 seconds and turn on heater element #1. Factor = 1400 CFM. The contacts of the LVDR relay on the defrost board closes and supplies 24Vac to “O” and “W2”. the contacts of the HVDR relay on the defrost board open and turns off the outdoor fan. 5. At the same time. Find the actual CFM: Answer: 24. refer to the BTUH CAPACITY CORRECTION FACTOR chart below. The reversing valve is energized and the contacts on HR1 close and turns on the electric heater(s). The low voltage circuit in the air handler is factory wired and terminates at the location provided for the electric heater(s).5 When the temperature of the outdoor coil rises high enough to causes the defrost thermostat to open. Under no condition shall more heaters than the quantity shown be installed. 5.SERVICING 2. S-60 ELECTRIC HEATER (OPTIONAL ITEM) Optional electric heaters may be added. The unit will continue to run in this mode until the defrost cycle is completed. when the room thermostat is set to the heating mode. 151 . or the blower performance table in the service manual. A minimum of field wiring is required to complete the installation. 5. 5. 42°F Rise.4 When a defrost cycle is initiated. 5. Table 5. and our measured temperature rise is 42°F. The temperature rise at a particular KW and CFM will be greater at high altitudes. Our actual measured voltage is 220V.0 Defrost Operation On heat pump units. 5. while the external static pressure at a particular CFM will be less.1 On a demand for heat.6 When the defrost cycle is terminated. NOTE: The temperature rise table is for sea level installations. the reversing valve is not energized. DO NOT WIRE AROUND . Visually inspect the heater assembly for any breaks in the wire or broken insulators.0 KW 9. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. Factor Actual CFM = CFM (from table) x Corr.0 KW 7. NOTE: The link is designed to open at approximately 333°F. 2.0 KW 54 50 47 44 42 40 38 36 34 33 28.7 KW 6.8 KW 65 60 57 53 50 48 45 43 41 39 S-61A CHECKING HEATER LIMIT CONTROL(S) Each individual heater element is protected with a limit control device connected in series with each element to prevent overheating of components in case of low airflow. Using an ohmmeter.replace if necessary.0 KW 4.4 KW 57 51 46 41 38 35 32 30 28 27 25 24 23 22 21 20 19. Table 5 ELECTRIC HEATER CAPACITY BTUH HTR KW 3.8 KW 25 22 19 17 15 14 13 12 11 10 9 9 8 8 8 7 7 7 7. 1.DO NOT WIRE AROUND.no reading indicates the element is open. 2. Remove the wiring from the control terminals. S-61B CHECKING HEATER FUSE LINK (OPTIONAL ELECTRIC HEATERS) Each individual heater element is protected with a one time fuse link which is connected in series with the element.REPLACE .5 KW 21.0 KW BTUH 10200 16200 20400 23800 32400 48600 66500 71600 Table 6 FORMULAS: Heating Output = KW x 3413 x Corr. Multiple power sources may be present. test the element for continuity .08 1.no reading indicates the link is open. Replace as necessary.2 KW 19. 2. The fuse link will open at approximately 333°. test for continuity across the normally closed contacts. 152 . Disassemble and remove the heating element. No reading indicates the control is open . Using an ohmmeter.determine reason for failure.2 KW 38 33 29 26 23 21 19 18 16 15 14 14 13 12 12 11 11 10 9. IF FOUND OPEN . Failure to do so may cause property damage. personal injury or death.2 KW 55 50 46 43 40 38 36 34 32 30 29 27 26 24. Using an ohmmeter. 3.08 x Temperature Rise (T) CFM = KW x 3413 1.08 x T T = BTUH CFM x 1. Remove heater element assembly so as to expose fuse link. This limit control will open its circuit at approximately 150°F. test across the fuse link for continuity .6 KW 51 43 38 34 30 27 25 23 22 20 19 18 17 16 15 14 14 13 14.SERVICING TEMPERATURE RISE (F°) @ 240V CFM 600 700 800 900 1000 1100 1200 1300 1400 1500 1600 1700 1800 1900 2000 2100 2200 2300 4. Replace as necessary. 1. Factor S-62 CHECKING HEATER ELEMENTS BTUH = KW x 3413 BTUH = CFM x 1.5 KW 14. Never open a system that is under vacuum.1200°F. 32% zinc). The equipment required to thoroughly evacuate the system is a high vacuum pump. With the suction line of the compressor closed or severely restricted. BRAZING MATERIALS Copper to Copper Joints . Air in a system causes high condensing temperature and pressure. proceed to system evacuation. Motor damage could occur. The pressure relief valve must be set to open at no more than 150 psig.Sil-Fos used without flux (alloy of 15% silver. WARNING SCROLL COMPRESSOR. 38% copper. WARNING REFRIGERANT UNDER PRESSURE! Failure to follow proper procedures may cause property damage. Failure to do so may cause property damage. resulting in a damaged or failed compressor. Clean the inside of all new tubing to remove oils and pipe chips. WARNING To avoid possible explosion. 5. Do not front seat the service valve(s) with the compressor operating in an attempt to save refrigerant. then apply the detector to suspect areas. When brazing. causing breakdown. Plug or cap all openings. This is the most important part of the entire service procedure. high pressure air or flammable gases for leak testing of a refrigeration system. Complete any repair by replacing the liquid line drier in the system. never use oxygen. resulting in increased power input and reduced performance. with the suction line of the comprssor closed or severely restricted.SERVICING S-100 REFRIGERATION REPAIR PRACTICE DANGER Always remove the refrigerant charge in a proper manner before applying heat to the system. WARNING Do not front seat the service valve(s) with the compressor open. Recommended heat . Multiple power sources may be present. The life and efficiency of the equipment is dependent upon the thoroughness exercised by the serviceman when evacuating air (non-condensables) and moisture from the system. WARNING To avoid the risk of fire or explosion.Silver Solder used without a flux (alloy of 30% silver. sweep the tubing with dry nitrogen to prevent the formation of oxides on the inside surfaces. 153 . These acids attack motor windings and parts. personal injury or death. repair them. After repair. 1. Remove all burrs and clean the brazing surfaces of the tubing with sand cloth or paper. If leaks are found. 80% copper. 4. the line from the nitrogen cylinder must include a pressure regulator and a pressure relief valve. If you wish to use a leak detector. 6. S-102 EVACUATION WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit. S-101 LEAK TESTING (NITROGEN OR NITROGEN-TRACED) WARNING Operating the compressor with the suction valve closed will void the warranty and cause serious compressor damage. charge the system to 10 psi using the appropriate refrigerant then use nitrogen to finish charging the system to working pressure. When repairing the refrigeration system: Pressure test the system using dry nitrogen and soapy water to locate leaks. personal injury or death. evacuate and charge. Air and moisture will be drawn in. the scroll compressor can and will draw a deep vacuum very quickly. Moisture chemically reacts with the refrigerant oil to form corrosive acids. capable of producing a vacuum equivalent to 25 microns absolute and a thermocouple vacuum gauge to give a true reading of the vacuum in the system NOTE: Never use the system compressor as a vacuum pump or run when under a high vacuum. This vacuum can cause internal arcing of the fusite. and 5% phosphorous). 2. repeat the pressure test. Copper to Steel Joints . 3. Brazing materials do not flow well on oxidized or oily surfaces. If no leaks exist. Recommended heat 1400°F. 4. After the compound gauge (low side) has dropped to approximately 29 inches of vacuum. Check system for leaks. 1. thermocouple vacuum gauge and charging cylinder as shown. Charge the system with the exact amount of refrigerant. 6. 800 PSI RATED HOSES CHARGING CYLINDER AND SCALE CAUTION Operating the compressor with the suction valve closed will void the warranty and cause serious compressor damage. Failure to follow proper procedures may cause property damage. allow liquid refrigerant only to enter the high side. CAREFUL: Watch so that liquid refrigerant does not enter the compressor. remove hose and reinstall both valve core caps. If gauge continues to rise a leak is present. 2. open the manifold valve to the cylinder. Evacuate the system to at least 29 inches gauge before opening valve to thermocouple vacuum gauge. 7. Start the system and charge the balance of the refrigerant through the low side. If the vacuum pump is working properly. Refer to the specification section or check the unit nameplates for the correct refrigerant charge. 3. Repair and re-evacuate. Continue to evacuate to a maximum of 250 microns. With the system still running. 6. close the valve on the high side of the charging manifold. system can be considered properly evacuated. An inaccurately charged system will cause future problems. 5. At this time. moisture and noncondensables are still present. Connect the vacuum pump. open the valve to the vacuum thermocouple gauge. { TO UNIT SERVICE VALVE PORTS VACUUM PUMP ADAPTER VACUUM PUMP 3. vacuum tight manifold set with high vacuum hoses. Close valve to vacuum pump and watch rate of rise. 154 . * Do not operate unit in a vacuum or at negative pressure. Slowly open the high side manifold valve and transfer the liquid refrigerant from the liquid line hose and charging cylinder hose into the suction service valve port. Reseat the liquid line core.SERVICING 1. With the valve on the charging cylinder closed. Shut off pump and prepare to charge. See that the vacuum pump will blank-off to a maximum of 25 microns. 4. you may still have some liquid refrigerant in the charging cylinder hose and will definitely have liquid in the liquid hose. DO NOT charge in a liquid form. R-22 MANIFOLD LOW SIDE GAUGE AND VALVE HIGH SIDE GAUGE AND VALVE CAUTION Use refrigerant certified to ARI standards. With the system still running. Start the vacuum pump and open the shut off valve to the high vacuum gauge manifold only. Most portable machines cannot clean used refrigerant to meet ARI standards. S-103 CHARGING WARNING REFRIGERANT UNDER PRESSURE! * Do not overcharge system with refrigerant. After the system will take all it will take. When using an ambient compensated calibrated charging cylinder. EVACUATION 2. 5. Close valve to thermocouple vacuum gauge and vacuum pump. close the valve on the charging cylinder. If thermocouple vacuum gauge continues to rise and levels off at about 5000 microns. If vacuum does not rise above 1500 microns in three to five minutes. personal injury or death. Used refrigerant may cause compressor damage and will void the warranty. reseat the suction valve core. A high vacuum pump can only produce a good vacuum if its oil is non-contaminated. close the valve to the vacuum thermocouple gauge and open the high and low side valves to the high vacuum manifold set. Low temperature difference across coil. 155 . or a system where the charge quantity is unknown. alternate charging methods must be used. Reverse rotation results in elevated or unusual sound levels. This regulation of the flow prevents the return of liquid refrigerant to the compressor. These systems must be charged according to subcooling or superheat. replace the restricted part. Attach gauges to the high and low side of the system. reducing the ability of the compressor to pump refrigerant vapor. (°F Drybulb) 65 115 100 95 90 85 80 75 70 65 60 Return Air Temperature (°F Drybulb) 70 75 80 1. evacuate and recharge. continued floodback or flooded start conditions may wash oil from the bearing surfaces causing premature bearing failure. See "Checking Subcooling and Superheat" sections in this manual. Due to their design. 3. or scroll flanks on Scroll compressors. b. The illustration below shows typical heat pump TXV/check valve operation in the heating and cooling modes. There is no negative impact on durability caused by operating 3 phase compressors in reversed rotation. Coils having flow control restrictors should be charged to match the System Superheat chart above. (Early production "a" models only. Below normal high side pressure. d. If a restriction is located.replace the compressor. S-105B THERMOSTATIC EXPANSION VALVE The expansion valve is designed to control the rate of liquid refrigerant flow into an evaporator coil in exact proportion to the rate of evaporation of the refrigerant in the coil. This is normal and does not harm the compressor.) All models with compressor process tube access valve can be processed in heating cycle if this valve is used. S-104 CHECKING COMPRESSOR EFFICIENCY The reason for compressor inefficiency is broken or damaged suction and/or discharge valves. The compressor is faulty . NOTE: THIS TEST CANNOT BE DONE IN THE HEATING MODE Verification of proper rotation of Scroll Compressors is made as follows. The compressors internal protector will trip. switch any two power supply leads at the outdoor unit contactor. NOTE: Even though the compressor section of a Scroll compressor is more tolerant of liquid refrigerant. To correct improper rotation. Listen for normal compressor sound levels. 2. 1. Continued operation of 3 phase scroll compressors with the rotation reversed will contribute to compressor failure. NOTE: The compressor may run backwards (noisy operation) for 1 or 2 seconds at shutdown. and the charge is correct. The 3 phase Scroll Compressors are direction of rotation sensitive.SERVICING NOTE: This charging procedure can only be done in the cooling mode of operation. Reverse rotation will result in substantially reduced amp draw from tabulated values. Install gauges and verify that the suction pressure drops while the discharge pressure increases. replace drier. de-energizing the compressor. Start the system and run a "Cooling Performance Test. The amount of refrigerant entering the coil is regulated since the valve responds to temperature of the refrigerant gas leaving the coil (feeler bulb contact) and the pressure of the refrigerant in the coil. c. They will rotate in either direction depending on the phasing of the power. The condition of the valves or scroll flanks is checked in the following manner. Coils with thermostatic expansion valves (TXV's) should be charged by subcooling. 85 3 5 5 7 5 5 5 5 13 17 10 14 19 25 10 12 17 20 26 30 5 12 17 21 25 28 32 33 5 5 18 20 26 29 32 35 37 SYSTEM SUPERHEAT Ambient Condenser Inlet Temp. Scroll compressors are inherently more tolerant of liquid refrigerant. All 3 phase scroll compressors should be checked for correct phase rotation. 2. Low amp draw at compressor. If the test shows: a. When charging a remote condensing unit with a non-matching evaporator coil. Above normal low side pressure. To obtain the degrees temperature of superheat subtract 50. perform all the procedures outlined under Air Flow. If these symptoms are observed: 1. Before checking the superheat or replacing the valve. 2. S-107 UNDERFEEDING Underfeeding by the expansion valve results in low system capacity and low suction pressures. The valve will shut off completely at approximately 100 PSIG. The difference is 13° Superheat. These are the most common causes for evaporator malfunction. S-106 OVERFEEDING Overfeeding by the expansion valve results in high suction pressure. See Temperature . 2. THE VALVES PROVIDED BY GOODMAN ARE DESIGNED TO MEET THE SPECIFICATION REQUIREMENTS FOR OPTIMUM PRODUCT OPERATION. 3. The three forces which govern the operation of the valve are: (1) the pressure created in the power assembly by the feeler bulb. A restriction will be indicated by a temperature drop across the drier. 3. The degree of superheat equals the degrees of temperature increase above the saturation temperature at existing pressure. find the temperature in the °F. On systems using capillary tubes or flow control restrictors. 5. 156 . due to the resulting drop in performance.0°F. Column. 2. Attach an accurate thermometer or preferably a thermocouple type temperature tester to the suction line at a point at least 6" from the compressor. Check for an overcharged unit by referring to the cooling performance charts in the servicing section. and (3) the equivalent pressure of the superheat spring in the valve. 4. SUPERHEAT ADJUSTMENT The expansion valves used on Amana® coils are factory set and are not field adjustable. This type of valve should not be used as a replacement for a 0% bleed valve. The 13° Superheat would fall in the ± range of allowable superheat. Underfeeding. CHECKING SUPERHEAT Refrigerant gas is considered superheated when its temperature is higher than the saturation temperature corresponding to its pressure. Convert the suction pressure gauge reading to temperature by finding the gauge reading in Temperature .Pressure Chart and reading to the left. and possible liquid slugging of the compressor. Thermometer on Suction Line = 63°F. (2) evaporator pressure. If the superheat setting becomes disturbed. Expansion Valve . OUTDOOR TEMP" chart as explained in section S-103 CHARGING COOLING HEATING THERMOSTATIC EXPANSION VALVES Some TXV valves contain an internal check valve thus eliminating the need for an external check valve and bypass loop. EXAMPLE: a.Pressure Chart Table 7. The 0% bleed valve will not allow the system pressures (High and Low side) to equalize during the shut down period. the bulb must be mounted so that the capillary tubing comes out at the top. 0% bleed type expansion valves are used on indoor and outdoor coils. Application of the bulb to a horizontal run of line is preferred. Corresponding Temp. DO NOT USE SUBSTITUTES.Overfeeding. Suction Pressure = 84 b.SERVICING S-108 SUPERHEAT The expansion valves are factory adjusted to maintain 12 to 18 degrees superheat of the suction gas. The bulb must be securely fastened with two straps to a clean straight section of the suction line. °F. Check for restricted or plugged equalizer tube. superheat is adjusted in accordance with the "DESIRED SUPERHEAT vs. Check the operation of the power element in the valve as explained in S-110 Checking Expansion Valve Operation. Record the gauge pressure and the temperature of the line.0 from 63. replace the valve. 1. If these symptoms are observed: 1. The difference between the thermometer reading and pressure to temperature conversion is the amount of superheat. cold suction line. Check for a restricted liquid line or drier. 30% bleed valves used on some other models will continue to allow some equalization even though the valve has shut-off completely because of the bleed holes within the valve. If a vertical installation cannot be avoided. Refrigerant Charge. = 50 c. Install a low side pressure gauge on the suction line service valve at the outdoor unit. Check the operation of the power element of the valve as described in S-110 Checking Expansion Valve Operation. Start the system and cool the bulb in a container of ice water.23 57.5 192.85 50.24 16.15 4.51 63.44 29.3 411.18 10.1 291.0 364.8 433.59 17.9 186. find the temperature in the °F. = 120° c. Record the gauge pressure and the temperature of the line.99 19.03 8. As you warm the bulb.07 5.3 374.09 43. replace the valve and drier. As you cool the bulb.44 20. Thermometer on Liquid line = 109°F.88 36. If a temperature or pressure change is noticed. °F.53 47.9 216. Next warm the bulb in your hand.Pressure Chart and reading to the left.8 131. the valve is restricted.8 Temp. 3. 3.21 31. The difference is 11° subcooling.3 314.02 6. The difference between the thermometer reading and pressure to temperature conversion is the amount of subcooling. or the equalizer tube is plugged. 4.89 38.1 98.3 392.0 222. the suction pressure should fall and the suction temperature will rise.8 209.0 321.0 346.4 298.9 203.7 276.7 140. 60 62 64 65 68 70 72 74 76 78 80 82 84 86 88 90 92 94 96 96 100 102 104 106 108 110 112 114 116 118 120 122 124 126 128 130 132 134 136 136 140 142 144 146 158 150 152 154 156 158 160 Gauge Pressure (PSIG) Freon-22 102.9 248.73 27. °F.7 255. the suction pressure should rise and the suction temperature will fall.4 180.94 22.5 95. Table 7 157 .83 60.9 170.3 S-109 CHECKING SUBCOOLING Refrigerant liquid is considered subcooled when its temperature is lower than the saturation temperature corresponding to its pressure.02 71.94 15. 5.1 384.13° subcooling for heat pumps units.5 126. The normal subcooling range is 9° .SERVICING Temp.10 91.04 78.48 12.1 197.04 32.42 2.1 175.09 9. °F.49 24.2 114.3 110.5 145. 2. To obtain the amount of subcooling subtract 109°F from 120°F.7 159. 1.9 329. the expansion valve is operating. 2. 4.01 7.61 13.9 284.27 66. closing the valve. Corresponding Temp.8 306.7 235.9 338.18 81. Convert the liquid line pressure gauge reading to temperature by finding the gauge reading in Temperature . EXAMPLE: a.2 241.11 69.70 88.5 154. 5.2 118.09 25.61 1.3 355.0 149.70 55.5 106.27 3. 14 to 18 for straight cool units.31 11. Remove the remote bulb of the expansion valve from the suction line.24 52.3 401. Liquid Line Pressure = 260 b. Capture the charge. The degree of subcooling equals the degrees of temperature decrease below the saturation temperature at the existing pressure.2 135. S-110 CHECKING EXPANSION VALVE OPERATION 1.28 45. Column.3 122.6 269. Install a high side pressure gauge on the high side (liquid) service valve at the front of the unit.3 228.40 84. the power element is faulty.8 164.6 262.93 34. evacuate and recharge.96 41.3 421. If no change is noticed.99 75. Attach an accurate thermometer or preferably a thermocouple type temperature tester to the liquid line as it leaves the condensing unit. -40 -38 -36 -34 -32 -30 -28 -26 -24 -22 -20 -18 -16 -14 -12 -10 -8 -6 -4 -2 0 2 4 6 8 10 12 14 16 18 20 22 24 26 28 30 32 34 36 38 40 42 44 46 48 50 52 54 56 58 Gauge Pressure (PSIG) Freon-22 0. proceed as follows: 1. However. the high side pressure bleeds to the low side through the capillary tubes/restrictor orifices. If the liquid line is restricted. S-112 CHECKING RESTRICTED LIQUID LINE When the system is operating. When the outdoor temperature falls. An evaporator coil. If the pressure indicates a higher temperature than that of the coil temperature. 2. replace the restricted part. 2. An evaporator coil. but at a slower rate. increasing the cooling capacity of the system. could allow refrigerant to return to the compressor under extreme overcharge conditions. Capillary Tubes/Orifice Assembly CHECKING EQUALIZATION TIME During the "OFF" cycle. will basically modulate and control a flooded evaporator and prevent liquid return to the compressor. and the cooling loads on the indoor coil decrease.). The amount of refrigerant that flows through the capillary tube/ restrictor orifice is regulated by the pressure difference between the high and low sides of the system. If a restriction should become evident.SERVICING S-111 CAPILLARY TUBES/RESTRICTOR ORIFICES The capillary tubes/restrictor orifices used in conjunction with the indoor and outdoor coil. evacuate and recharge. Wait at least 15 minutes. Replace. causing the low side pressure to rise. the reverse takes place. A strainer is placed on the entering side of the tubes to prevent any foreign material from becoming lodged inside the capillary tubes. replacing and/or installing liquid line drier. an overcharge or a system containing non-condensables would be indicated. Check equalization time as follows: 1. causing less refrigerant flow. but the head pressure would be lower. are a predetermined length and bore (I. 3.D. a definite temperature drop will be noticed at the point of restriction. then the system contains non-condensables. S-114 NON-CONDENSABLES If non-condensables are suspected. the high side condensing pressure rises. S-113 OVERCHARGE OF REFRIGERANT An overcharge of refrigerant is normally indicated by an excessively high head pressure. Remove the capillary tubes/restrictor orifice or tube strainer assembly. the unit will have normal to high subcooling. 2. Compare the pressure to the temperature of the coldest coil since this is where most of the refrigerant will be. Observe the system while running a cooling performance test. 158 . extreme cases of insufficient indoor air can cause icing of the indoor coil and liquid return to the compressor. using a capillary tube metering device. evacuate and recharge. If a shortage of refrigerant is indicated. non-condensables are present. evacuating and recharging. Since the high side pressure rises faster when the temperature increases. Attach a gauge manifold to the suction and liquid line dill valves. If this system is observed: 1. more refrigerant flows to the evaporator. Capture the refrigerant charge. 3. Remove and capture small quantities of gas from the suction line dill valve until the head pressure is reduced to normal. the liquid line is warm to the touch. Start the system and allow the pressures to stabilize." If other causes check out normal. shut down the system and allow the pressures to equalize. Discharge and suction pressures will be low. In severe cases. the cooling load on the indoor coil increases. Stop the system and check the time it takes for the high and low pressure gauge readings to equalize. They are designed to control the rate of liquid refrigerant flow into an evaporator coil. The condensing pressure falls. Also with a capillary tube metering device. At the same time. frost will form at the restriction and extend down the line in the direction of the flow. 3. Replace liquid line drier. There are other causes for high head pressure which may be found in the "Service Problem Analysis Guide. giving the appearance of an undercharged unit. Non-condensables are removed from the system by first removing the refrigerant charge. Start the system. and replace. install a liquid line drier. If it takes more than seven (7) minutes the capillary tubes/ restrictor orifices are inoperative. Locate the restriction. replace drier. In the cooling cycle when the outdoor air temperature rises. using an expansion valve metering device. evacuate and recharge. Limiting the liquid line size to 3/8" is critical since an increased refrigerant charge level from having a larger liquid line could possibly shorten a compressor’s lifespan. L. A hard start assist device may be required to overcome this. In long line applications. Remove the suction line drier from the system. leak test. either a burnout has not occurred or the burnout is so mild that a complete clean-up is not necessary. As a result. Remove the compressor and obtain an oil sample from the suction stub. This guideline will cover installation requirements and additional accessories needed for split system installations where the line set exceeds 50 feet in actual length. NOTICE Violation of EPA regulations may result in fines or other penalties. Remove the liquid line drier and expansion valve. Select the proper suction tube size based on equivalent length of the suction line (see Tables 8 & 9) and recalculated system capacity. ® 4. Crankcase Heater. the drier has trapped the contaminants. Install new components including liquid line drier. The filter must be accessible and be rechecked for a pressure drop after the system has operated for a time. and recharge system. 7. NOTICE: Regardless. oil and motor insulation to decompose forming acids and sludge. Continue to run the system for several days. then it must be replaced and steps 5 through 9 repeated until it does not exceed 6 PSIG. NOTE: At least twelve (12) inches of the suction line immediately out of the compressor stub must be discarded due to burned residue and contaminates. high temperature develops causing the refrigerant. 6. If the pressure drop never exceeds the 6 PSIG. Tube Sizing: 1. Start up the unit and record the pressure drop across the drier. Hard Start Assist. Braze all joints. Suction Line Drier Clean-Up Method Use AMANA brand part number RF000127 suction line filter drier kit. 3 Purge all remaining components with dry nitrogen or carbon dioxide until clean. 1. the system is very prone to refrigerant migration during its off-cycle and a crankcase heater will help minimize this risk. 9. attach a refrigerant hose to the liquid line dill valve and properly remove and dispose of the refrigerant. the “equivalent line length” is the sum of the straight length portions of the suction line plus losses (in equivalent length) from 45 and 90 degree bends. 5. It may be necessary to use new tubing and form as required. Pressure drop should not exceed 6 PSIG. A crankcase heater is recommended for any long line application (50 watt minimum). S-120 REFRIGERANT PIPING The piping of a refrigeration system is very important in relation to system capacity.increased charge level in long line applications can require extra work from the compressor at start-up. 2. CAUTION Do not allow the sludge or oil to contact the skin. AK3 or its equivalent. This drier should be installed as close to the compressor suction fitting as possible. If a compressor is suspected of being burned-out. 8. Remove compressor discharge line strainer. evacuate.000 to 60. If the oil is not acidic. This long line set application guideline applies to all ARI listed R22 air conditioner and heat pump split system matches of nominal capacity 18. Now determine if a burn out has actually occurred.SERVICING S-115 COMPRESSOR BURNOUT When a compressor burns out. Continue to run the system for a minimum of twelve (12) hours and recheck the pressure drop across the drier. Additional Accessories: 1. 159 . NOTE: The Flushing Method using R-11 refrigerant is no longer approved by Goodman Company. 2. Severe burns may result. If acid level is unacceptable.a long line set application can critically increase the charge level needed for a system. proper oil return to compressor. For any residential split system installed with a long line set. Equivalent length = Length horizontal + Length vertical + Losses from bends (see Table 9) 2. If the pressure drop becomes greater. the cause for burnout must be determined and corrected before the new compressor is started.000 Btuh. Confirm by analyzing an oil sample using a Sporlan Acid Test Kit. repeatedly checking pressure drop across the suction line drier. pumping rate of compressor and cooling performance of the evaporator.P. the liquid line size must never exceed 3/8". the system must be cleaned by using the clean-up drier method. 000 60.99 .80 .93 .97 .95 .SERVICING 3.95 . REFRIGERANT LINE LENGTH (Ft) Cond Unit Tons Suct Liq 0-24 Suct 25-49 Line Diameter (In.98 .) Type of elbow fitting 90° short radius 90° long radius 45° I.91 .90 . Properly size the suction line to minimize capacity loss. (in. ½”-thick suction line insulation is recommended to reduce loss of capacity.99 1 .98 .89 . Two-Stage Condensing Unit: The maximum length of tubing must not exceed 75 feet where indoor coil is located above the outdoor unit. Most refrigerant tubing kits are supplied with 3/8"-thick insulation on the vapor line.89 .96 . Vibration and Noise: In long line applications.99 .86 .7 1-1/8 2. For long line installations over 50 feet.95 .99 75 .7 0. FT.000 42. This helps reduce refrigerant migration to the condenser during a system’s off-cycle. LOSSES FROM SUCTION LINE ELBOWS (EQUIVALENT LENGTH.96 .94 .97 .78 . especially if the line set passes through a high ambient temperature. Single Stage Condensing Unit: The maximum length of tubing must not exceed 150 feet. refrigerant tubing is highly prone to transmit noise and vibration to the structure it is fastened to.92 .94 .90 .93 .8 3/4 1.86 .90 .97 150 .) 3/4 3/4 3/4 3/4 7/8 3/4 7/8 1-1/8 3/4 7/8 1-1/8 7/8 1-1/8 EQUIVALENT LINE LENGTH (FT) 50 .000 48. Equivalent length is not to exceed 150 feet.94 .000 24.96 1 .91 .96 .83 .98 N/R .D.96 1 .97 1 . 6. as long as the equivalent length does not exceed 150 feet. premature compressor failure will occur due to inadequate oil return.86 . Table 2 lists the equivalent length gained from adding bends to the suction line.92 .000 30. use 3/8" liquid line tubing for a line set greater than 25 feet.) 7/8 2 1.93 . • 50 feet is the maximum recommended vertical difference between the condenser and evaporator when the evaporator is above the condenser.6 1 Table 9 Installation Requirements 1. the maximum vertical rise must not exceed 25 feet.99 . Do not attach the liquid line to any non-insulated portion of the suction line Table 8 lists multiplier values to recalculate system-cooling capacity as a function of a system’s equivalent line length (as calculated from the suction line) and the selected suction tube size. 4. OD) Liq Suct Liq 50-74*** 1 1/2 2 2 1/2 3 3 1/2 4 5 5/8 5/8 3/4 3/4 3/4 7/8 7/8 1/4 1/4 3/8 3/8 3/8 3/8 3/8 3/4 3/4 3/4* 3/4** 7/8** 1 1/8 1 1/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 3/4 3/4 7/8 7/8** 1 1/8 1 1/8 1 1/8 3/8 3/8 3/8 3/8 3/8 3/8 3/8 *7/8" required for full ratings **1 1/8" required for full ratings ***Lines greater than 74 feet in length or vertical elevation changes more than 50 feet. If the maximum vertical rise exceeds 25 feet. refer to the long line set.7 1.99 .93 .000 36.90 . In a completely horizontal installation with a long line set where the evaporator is at the same altitude as (or slightly below) the condenser. the line set should be sloped towards the evaporator.98 .98 100 . 5.94 1 . Use adequate vibrationisolating hardware when mounting line set to adjacent structure.99 .99 .5 0. TABLE 9.84 .97 . as long as the equivalent length does not exceed 150 feet. The liquid line should be insulated if passing through an area of 120°F or greater.83 . • The distance between the condenser and evaporator in a completely horizontal installation in which the indoor and outdoor unit do not differ more than 10 feet in vertical distance from each other can approach 150 feet.000 Vapor line diameter (in. CAPACITY MULTIPLIERS AS A FUNCTION OF SUCTION LINE SIZE & EQUIVALENT LENGTH Nominal capacity Btuh 18. • The vertical difference between the condenser and evaporator when the evaporator is below the condenser can approach 150 feet.3 1. TXV Requirement: All line set applications over 50 ft will require a TXV. NOTE: When the outdoor unit is located above the indoor coil.93 .82 .87 . 160 .98 125 .79 .97 Table 8 NOTE: For a condenser with a liquid valve tube connection less than 3/8" diameter.98 . TABLE 8. an inverted vapor line trap should be installed on the suction line just before the inlet to the evaporator (see Fig 6). since both should be equal) used. Where X = 0. the linear feet of line set is the actual length of liquid line (or suction line.7+1.6 feet (refer to table 9). Extra refrigerant needed = (Linear feet of line set – 15 ft) x X oz/ft. The wet rag around the reversing valve will eliminate conducting of heat to the valve body when brazing the line connection. evacuate and recharge. Evaporator unit with inverted vapor loop 3.SERVICING 2. There are commercial grades of heat absorbing paste that may be substituted. for condensers with a liquid valve connection less than 3/8" diameter. below. The top of the inverted loop must be slightly above the top of the evaporator coil and can be created simply by brazing two 90° long radius elbows together. which equals 4. Oil Trap 4. especially on a system with a TXV installed in the indoor unit.5.7+1. Low voltage wiring. This guideline is meant to provide installation instructions based on most common long line set applications. Wrap the reversing valve with a large rag saturated with water. Remember to add the equivalent length from oil traps to the equivalent length calculation of the suction line. Heat pumps should be checked in both heating and cooling mode for proper charge level.6 for 3/8" liquid tubing Remember. or oil traps may be created by brazing tubing elbows together (see diagram below). Fig 6. it is of extreme importance that the temperature of the valve does not exceed 250° F. When brazing a reversing valve into the system. if a bending tool is unavailable.7+ 0. Follow the charging procedures in the outdoor unit I/O manual to ensure proper superheat and sub-cooling levels. S-122 REVERSING VALVE REPLACEMENT Remove the refrigerant charge from the system. at any time. 3/8" liquid tubing is required for a line set longer than 25 feet. multiply the additional length of line set by 0. Preformed oil traps are available at most HVAC supply houses. one short and one long 90° elbow in a ¾” diameter suction line. For a system installation where the evaporator is above the condenser. System Charging R22 condensers are factory charged for 15 feet of line set. Oil Trap Construction Long Radius Street Ell 45 ° Ell 45° Street Ell Short Radius Street Ell Fig 7. the additional equivalent length would be 0. "Re-wet" the rag and thoroughly cool the valve after each brazing operation of the four joints involved. NO ADDITIONAL COMPRESSOR OIL IS NEEDED FOR LONG LINE SET APPLICATIONS ON RESIDENTIAL SPLIT SYSTEMS. Installation variables may affect system operation. After the valve has been installed leak test.6 ounces. not the equivalent length calculated for the suction line. To calculate the amount of extra refrigerant (in ounces) needed for a line set over 15 feet. An oil trap is required at the evaporator only if the condenser is above the evaporator. if you construct an oil trap using two 45° elbows. Properly support and secure the inverted loop to the nearest point on the indoor unit or adjacent structure. For example. Note for the formula 161 . Verify low voltage wiring size is adequate for the length used since it will be increased in a long line application. The use of a wet rag sometimes can be a nuisance. A direct reading can be taken of the static pressure drop across the coil. connect the positive probe underneath the coil and the negative probe above the coil. 2. Tables are also provided for each coil. Measure the static pressure of the supply duct. proceed as follows: 1. Using a draft gauge (inclined manometer). (Negative Pressure). Consult proper table for quantity of air. check for closed dampers. supply static must be taken between the "A" coil and the furnace. Too much air can also cause motor overloading and in many cases this constitutes a poorly designed system. listing quantity of air (CFM) versus static pressure drop across the coil. 2. dirty filters. 3. 162 . Consult proper table for quantity of air. 4. Add the two readings together. (Positive Pressure). Too much air can cause poor humidity control and condensate to be pulled off the evaporator coil causing condensate leakage. A ir F lo w S-203 AIR HANDLER EXTERNAL STATIC To determine proper air movement. If external static pressure is being measured on a furnace to determine airflow. Using a draft gauge (inclined manometer). measure the static pressure of the return duct at the inlet of the unit. Too great an external static pressure will result in insufficient air that can cause icing of the coil.SERVICING S-202 DUCT STATIC PRESSURES AND/OR STATIC PRESSURE DROP ACROSS COILS This minimum and maximum allowable duct static pressure for the indoor sections are found in the specifications section. TOTAL EXTERNAL STATIC S-204 COIL STATIC PRESSURE DROP 1. STATIC PRESSURE DROP If the total external static pressure and/or static pressure drop exceeds the maximum or minimum allowable statics. TOTAL EXTERNAL STATIC NOTE: Both readings may be taken simultaneously and read directly on the manometer if so desired. 3. undersized or poorly laid out duct work. ACCESSORIES WIRING DIAGRAMS ! WARNING TO AVOID POSSIBLE ELECTRICAL SHOCK. Refer to the appropriate wiring diagram for the unit being serviced.8K P3-6 C Y C P3-3 OT-NO P3-1 OT-NC P3-4 2ND STAGE COMPRESSOR DEMAND OUTPUT OT-C P3-5 Y2 2 BREAK FOR ODT 1 ALL FUEL CONTROL BOARD . (For use with Heat Pumps in conjunction with 80% or 90% Single-Stage or Two-Stage Furnaces) 163 . OR DEATH. DISCONNECT THE POWER BEFORE SERVICING.0K W2 P2-6 Y2 24VAC P3-9 O 6. ALL FUEL SYSTEM AFE 18-60 & AFE18-60A CONTROL BOARD 24VAC F1 3A +VD C POWER SUPPLY INPUT FURNACE DEMAND OUTPUT BLOWER FAN DEMAND OUTPUT POWER SUPPLY INPUT (COMMON) SECOND STAGE FURNACE DEMAND OUTPUT COMPRESSOR OUTPUT SECOND STAGE COMPRESSOR OUTPUT REVERSING VALVE OUTPUT POWER SUPPLY OUT TO THERMOSTAT CALL FOR REVERSING VALVE CALL FOR COMPRESSOR CALL FOR EMERGENCY HEAT CALL FOR BLOWER FAN CALL FOR FURNACE HEAT POWER SUPPLY COMMON OUT TO THERMOSTAT CALL FOR 2ND STAGE FURNACE HEAT CALL FOR 2ND STAGE COMPRESSOR POWER SUPPLY OUT TO HP CONTROL HP CALL FOR FURNACE (DURING DEFROST) REVERSING VALVE OUTPUT COMPRESSOR CONTACTOR OUTPUT POWER SUPPLY COMMON OUT TO HP CONTROL ODT (OUTDOOR THERMOSTAT) P1-8 R P1-7 F U R N A C E W1 P1-4 POWER SUPPLY +5VDC W1-FURN W2-HP +VD C 24VAC G P1-6 C K1 P1-5 C W2 P1-2 G-STAT G-FURN Y P1-3 K2 Y2 P1-1 +VD C Y2-HP Y2-STAT Y2-FURN K4 Q1 P2-1 O 24VAC P2-2 T H E R M O S T A T R O P2-7 Y-STAT Y-FURN Y-HP K3 Y P2-8 E P2-5 G P2-9 +5VDC Q2 W1 P2-3 C P2-4 C E/W1 1.AFE18-60 and AFE18-60A This wiring diagram is for reference only. Not all wiring is as shown above.8K MICROPROCESSOR R P3-8 H E A T P U M P W2 P3-7 O P3-2 Y 6. PERSONAL INJURY. 164 . DISCONNECT THE POWER BEFORE SERVICING. A F E 18-60 P1 K1 3A FUSE R W FURNACE G C K2 P2 R O TIMER S & RELAYS Y E G W2 C THE RMOSTAT P3 R W2 K2 HEAT PUM P O Y C OT-NO K3 OT-NC OT-C OUTDOOR THERMOSTAT REM O VE B RE AK AW A Y TAB W H EN U SING OU TD OO R THE RM OS TA T IN TERN AL CO NTR OL TRAC ES FIE LD W IRING *NOTE: K 3 IS SH OW N W ITH THE C ONTR OL PO W ERED.ACCESSORIES WIRING DIAGRAMS ! WARNING TO AVOID POSSIBLE ELECTRICAL SHOCK. PERSONAL INJURY. TH E "Y" PATH TO TH E HEAT PUM P W ILL BE O PEN IF C ONTR OL IS N OT POW ERED . OR DEATH. PERSONAL INJURY. OR DEATH. tie white and brown wires from air handler together. Two Stage Electric Heat From Air Handler EE N H IT E E BR O W N BL U G R W SEE NOTE R C R ED C G W2 W3 BLUE 2 2 WHITE G W2 3 Indoor Thermostat 1 4 1 BROWN BLACK RED EMERGENCY HEAT RELAY THERMOSTAT E R OT/EHR18-60 O Y C R ED R W2 W H E IT O O G AN R E Y YE O LL W Note: When using a Thermostat with only one stage for electric heat (W2). This wiring diagram is for reference only. One Stage Electric Heat From Air Handler EE N BL U E H IT E R R ED C G G W2 W R C BLUE 3 2 WHITE G W2 2 BROWN BLACK RED EMERGENCY HEAT RELAY THERMOSTAT E R OT/EHR18-60 O Y C UE BL R ED R W2 W T HI E O R O G AN E Y LL YE O W From Outdoor Unit 15kw and Above. DISCONNECT THE POWER BEFORE SERVICING. Indoor Thermostat 1 4 1 E U BL 165 . From Outdoor Unit Typical Wiring Schematics for OT/EHR18-60 (Outdoor Thermostat & Emergency Heat Relay).ACCESSORIES WIRING DIAGRAMS ! WARNING TO AVOID POSSIBLE ELECTRICAL SHOCK. 10kw and Below. Refer to the appropriate wiring diagram for the unit being serviced. Not all wiring is as shown above. Two Stage Electric Heat and Two Stage Thermostat From Air Handler G RE EN W H OT/EHR18-60 #1 BLUE BL UE IT E O W N C G W2 W3 R C 3 2 2 RE D BR WHITE G W2 W3 E R BROWN BLACK RED EMERGENCY HEAT RELAY THERMOSTAT OT/EHR18-60 #2 BLUE O Y 3 2 2 WHITE BROWN 1 4 1 BLACK RED EMERGENCY HEAT RELAY THERMOSTAT C UE BL R D RE W2 H W E IT O R O E G AN Y W O LL YE From Outdoor Unit Typical Wiring Schematics for OT/EHR18-60 (Outdoor Thermostat & Emergency Heat Relay). 166 Indoor Thermostat 1 4 1 . Not all wiring is as shown above. PERSONAL INJURY. OR DEATH. DISCONNECT THE POWER BEFORE SERVICING.ACCESSORIES WIRING DIAGRAMS ! WARNING TO AVOID POSSIBLE ELECTRICAL SHOCK. Refer to the appropriate wiring diagram for the unit being serviced. This wiring diagram is for reference only. 15kw and Above with Two OT/EHR18-60's. DISCONNECT THE POWER BEFORE SERVICING. OR DEATH. ! WARNING 167 .WIRING DIAGRAMS CKL 90-120 TO AVOID POSSIBLE ELECTRICAL SHOCK. PERSONAL INJURY. CONTROLS SHOWN WITH UTILITIES IN 'ON'POSITION AND THERMOSTAT IN 'OFF' POSITION. IO USE N.C. CLASS 2 WIRE CM CPLE. DISCONNECT THE POWER BEFORE SERVICING. CPLJ. CRPT.E.LVDR SEE RATING PLATE HVDR DF2 DF1 WIRING DIAGRAMS POLE CONTACTOR ONLY BL R X AU ALTERNATE DOUBLE 168 DC OUTDOOR POWER SUPPLY OT-1 PU R 2 R BK OT-2 C H C C NOTE Y O O W2 R R DFT SEE W R T1 5 SR SC C 2 1 T2 L1 L2 O Y BL S RCCF COMP C Y X AU LP Y R OT-3 IO START ASSIST (IF USED) F R R MA IN BK BK DFT ! WARNING 5 Y BR SR 1 2 HVDR R BK Y Y R NOTE-1 T1 T2 BK L1 C L2 T1 T2 BK R M R DF2 CM IO AI N DF1 R R BR Y Y R W2 O Y C W O Y BL CH (IF USED) BL BL BK BK L1 CONTROL BOX L2 ALTERNATE DOUBLE POLE CONTACTOR R DC DFT DFT R LVDR Y O C C HERM WIRING CODE FACTORY WIRING BK LOW VOLTAGE OPTIONAL HIGH VOLTAGE O OPTIONAL START ASSIST LOW VOLTAGE HIGH VOLTAGE HIGH VOLTAGE F FIELD WIRING BL RCCF POWER SUPPLY (SEE RATING PLATE) USE COPPER CONDUCTORS ONLY USE L1 FOR NEUTRAL OR GROUNDED SUPPLY IF USED W2 O RVC R Y C (START ASSIST IF USED) BK Y START ASSIST COMPONENT CODE CM COMP C BK BK MAIN R BK AUX RVC Y OUTDOOR FAN MOTOR COMPRESSOR R O W2 Y LP C Y SC COLOR CODE BK DC LVDR CH INDOOR POWER SUPPLY BK BLACK CONTACTOR DEFROST CONTROL LOW VOLTAGE DEFROST RELAY CRANKCASE HEATER INTERNAL OVERLOAD LOW PRESSURE SWITCH R RED NOTES: Y YELLOW BL BLUE EQUIPMENT GROUND USE COPPER CONDUCTORS ONLY PU PU C S COMP. OR DEATH. CPLT 10/03 B17244-25 . PERSONAL INJURY. BR R BK BK BK (CRANKCASE HEAT IF USED) CH PURPLE IO LP OT RCCF DFT RVC SC SR HVDR OUTDOOR THERMOSTAT (OPTIONAL) RUN CAPACITOR FOR COMPRESSOR & FAN 1) TO INDOOR UNIT LOW VOLTAGE TERMINAL BLOCK & INDOOR THERMOSTAT BR BROWN MAIN O ORANGE AUX DEFROST THERMOSTAT REVERSING VALVE COIL START CAPACITOR FOR COMPRESSOR (OPTIONAL) START RELAY FOR COMPRESSOR (OPTIONAL) HIGH VOLTAGE DEFROST RELAY W WHITE 2) SEE INDOOR UNIT & OUTDOOR UNIT INSTALLATION INSTRUCTIONS FOR CONNECTION OF OPTIONAL OUTDOOR THERMOSTAT. 3) START ASSIST FACTORY EQUIPPED WHEN REQUIRED. TO AVOID POSSIBLE ELECTRICAL SHOCK. DISCONNECT THE POWER BEFORE SERVICING.WIRING DIAGRAMS CPLE 90-120 TO AVOID POSSIBLE ELECTRICAL SHOCK. PERSONAL INJURY. OR DEATH. ! WARNING 169 . CERTIFIED ENERGY LIMITED CLASS 2 TRANSFORMER.E. THREE PHASE 170 HP . DOUBLE POLE CONTACTOR T1 T2 C L2 O N T A C T O T2 R OUTDOOR POWER SUPPLY CRANKCASE HEATER (IF USED) R BK BR BK R R L1 L2 COMPRESSOR/FAN CAPACITOR R T1 Y PU T2 OUTDOOR POWER SUPPLY . USE C.WIRING DIAGRAMS CLQ. CLT TO AVOID POSSIBLE ELECTRICAL SHOCK. 40 VA. HEAT ANTICIPATOR COIL W 24V C COMPONENT CODE OUTDOOR FAN MOTOR COMPRESSOR CONTACTOR DEFROST CONTROL LOW VOLTAGE DEFROST RELAY CRANKCASE HEATER INTERNAL OVERLOAD LOW PRESSURE CONTROL HIGH PRESSURE CONTROL OUTDOOR THERMOSTAT (OPTIONAL) FAN CAPACITOR DEFROST THERMOSTAT REVERSING VALVE COIL HIGH VOLTAGE DEFROST RELAY COLOR CODE INDOOR POWER SUPPLY LOW VOLTAGE TRANSFORMER CM COMP C DC LDVR CH IO LP HP OT FC DFT FIELD WIRING RVC HVDR BK R Y BL V LTBL BR G O W BLACK RED YELLOW BLUE VIOLET LIGHT BLUE BROWN GREEN ORANGE WHITE 2) SEE INDOOR UNIT & OUTDOOR UNIT INSTALLATION INSTRUCTIONS FOR CONNECTION OF OPTIONAL OUTDOOR THERMOSTAT. INDOOR POWER SUPPLY 3/98 REV. WIRING CODE FACTORY WIRING HIGH VOLTAGE LOW VOLTAGE WIRE NUT LINE SPLICE CONTROLS SHOWN WITH UTILITIES IN 'ON'POSITION AND THERMOSTAT IN 'OFF' POSITION. CLJ. CERTIFIED ENERGY LIMITED CLASS 2 TRANSFORMER. INSTALLATION.E.S. PERSONAL INJURY.A INSTALLATION. A B17784-01 SINGLE PHASE HP BL Y OUTDOOR POWE R SUPPLY V BR V R BK BK R V BR V BL R Y T1 T2 T3 CONNECT TO APPROP.(SEE UNIT RATING PLATE) USE COPPER CONDUCTORS ONLY USE L1 FOR NEUTRAL OR GROUNDED SUPPLY IF USED PU EQUIPMENT GROUND COMPRESSOR MOTOR COMPRESSOR INTERNAL OVERLOAD C L1 C O N T A C T O T1 R S L1 L2 FAN MOTOR START ASSIST Y (START ASSIST IF USED) START ASSIST (IF USED) FAN MOTOR CAPACITOR COMPRESSOR BK C S Y PU R R BK BK BK CRANKCASE HEATER IF USED THERMOSTAT COOL ANTICIPATOR PU BR BK BK CONNECT TO APPROP. DISCONNECT THE POWER BEFORE SERVICING. D B17783-00 NOTES: 1) TO INDOOR UNIT LOW VOLTAGE TERMINAL BLOCK & INDOOR THERMOSTAT. CONTROL CIRCUIT HAVING MIN. CONTROL CIRCUIT HAVING MIN. CKL.A. HEAT ANTICIPATOR COIL OFF SYSTEM SWITCH HIGH VOLTAGE LOW VOLTAGE WIRE NUT OPTIONAL START ASSIST W 24V LOW VOLTAGE TRANSFORMER C NOTES: REPLACEMENT WIRE MUST BE SAME GAGE AND INSULATION THICKNESS.A. CALSS 2 TRAMSFORMER OR FOR CERTIFIED C.S.C. CLASS 2 WIRE 07/97 REV. USE N. 40 VA 24 VOLT N.S.C. USE C. CRT. 105° C APPLIANCE WIRING MATERIAL. CLASS 2 TRANSFORMER OR FOR CERTIFIED C.C. 24 VOLT N.E.A.S. CONTACTOR ON THERMOSTAT FAN SWITCH COIL G AUTO FAN RELAY Y COOL COIL COLOR CODE WIRING CODE FACTORY WIRING FIELD WIRING WIRING FOR FACTORY OPTIONS BK R Y BL PU LTBL BR G BLACK RED YELLOW BLUE PURPLE LIGHT BLUE BROWN GREEN R R THERMOSTAT THERMOSTAT BULB HEAT THERMOSTAT ADJ. OR DEATH. ! WARNING OUTDOOR CONTROL BOX PU C F HERM Y Y R R ALT. T3 T2 T1 T1 C C C C CH L3 L2 L1 L1 Y 2 C FC L1 L2 L3 EQUIPMENT GROUND USE COPPER CONDUCTORS ONLY 3 COMP 1 CAP BK POWER SUPPLY (SEE RATING PLATE) USE COPPER CONDUCTORS ONLY BK MOTOR ON MAIN V AUX CM BR BK IO BK BK BK C COMP R Y S THERMOSTAT FAN S WITCH AUTO G CONTACTOR COIL THERMOSTAT COOL ANTICIPATOR Y FAN RELAY COIL COOL R R THERMOSTAT BULB OFF THERMOSTAT SYSTEM SWITCH HEAT CH R THERM OSTAT ADJ. Line Voltage Control Circuit (Typical Wring For Use With Ductled Indoor Section .*Note: 24 Volt Contactor is Field Supplied. ! WARNING Wiring Diagram .Line Voltage Control Circuit (Typical Wiring for use with Ductless Indoor Section) Wiring Diagram . 171 . PERSONAL INJURY. DISCONNECT THE POWER BEFORE SERVICING.WIRING DIAGRAMS WMH / HDP TO AVOID POSSIBLE ELECTRICAL SHOCK. OR DEATH. 0 KW 9.2 . DISCONNECT THE POWER BEFORE SERVICING.2 STAGE 2 . tie white and brown wires from Airhandler together 172 .2 . PERSONAL INJURY.2 .8 KW STAGE 2 4.3 KW 9. OR DEATH.4 .2 .8 KW 5.8 KW 9.2 Low Voltage Wiring Diagram for Cooling Unit with optional heat kit 10 KW and below Thermostat Anticipator Setting for optional heat kits 15 KW and above THERMOSTAT HEAT ANTICIPATOR SETTING AIR HANDLER MODEL AR18-32 AR36-42 AR48-61 1 STAGE T’STAT .4 2 STAGE T’STAT STAGE 1 .WIRING DIAGRAMS AR18-61 TO AVOID POSSIBLE ELECTRICAL SHOCK.2 STAGE 1 7.4 . ! WARNING THERMOSTAT WIRING Thermostat Anticipator Setting for optional heat kits 10 KW and below AIR HANDLER MODEL AR18-61 THERMOSTAT HEAT ANTICIPATOR SETTING .8 KW KW STAGES WHEN STAGING Low Voltage Wiring Diagram for Cooling Unit with optional heat kit 15 KW and above Important: If outdoor thermostat is not used. DISCONNECT THE POWER BEFORE SERVICING.WIRING DIAGRAMS AR18-61 TO AVOID POSSIBLE ELECTRICAL SHOCK. ! WARNING Low Voltage Wiring Diagram for Heat Pump Unit with optional heat kit 10 KW and below Low Voltage Wiring Diagram for Heat Pump Unit with optional heat kit 15 KW and above 173 . OR DEATH. PERSONAL INJURY. This thermostat is single stage cool. ! WARNING Low Voltage Wiring Diagram for Heat Pump Unit with optional heat kit 15 KW and above With Optional Outdoor Thermostats and Emergency Heat Relay THERMOSTATS Note: Second Stage heat can be accomplished by multi-stage heating thermostat or the addition of an outdoor thermostat as shown Goodman Cooling and Heating thermostat part number is CHT18-60. such as digital or programmable thermostat other thermostats are commercially available that are compatible to this product line. This thermostat is single stage cool and single stage heat. Follow the thermostat manufacturer’s instruction for installation. first stage is heat pump heating and second stage is optional electric heat. If additional features are desired.WIRING DIAGRAMS AR18-61 TO AVOID POSSIBLE ELECTRICAL SHOCK. 174 . Goodman Heat Pump thermostat part number is HPT18-60. two stage heat. OR DEATH. PERSONAL INJURY. DISCONNECT THE POWER BEFORE SERVICING. 2 WIRES CONTACTOR CONDENSING UNIT 24V. OR DEATH. CONNECTIONS WHITE #18 GA.Low Voltage Wiring Diagram for Cooling Unit with optional heat kit 15KW and above 175 . 4 WIRE WITH COOLING 3 WIRE WITHOUT Y R G RED GREEN WHITE BROWN BLUE OUTDOOR THERMOSTAT (OPTIONAL) #18 GA.WIRING DIAGRAMS AR*F AIR HANDLER TO AVOID POSSIBLE ELECTRICAL SHOCK. PERSONAL INJURY. SEE SUPPLEMENTAL INSTALLATION AND OPERATING INSTRUCTIONS FOR AEPT MODELS. NOTE: DO NOT USE THESE DIAGRAMS FOR AEPT MODELS. CONNECTIONS COIL W #18 GA.Low Voltage Wiring Diagram for Cooling Unit with optional heat kit 10KW and below ROOM THERMOSTAT W2 W Y G R AR UNIT #18 GA. 4 WIRES WITH COOLING 3 WIRES WITHOUT AR UNIT R G RED GREEN W Y CONTACTOR TO CONDENSING COIL UNIT 24V. ROOM THERMOSTAT W Y G R #18 GA. 2 WIRES BLUE Figure 10 . ! WARNING Thermostat Wiring Use thermostat wiring diagram Figures 10 thru 13 and those provided with the thermostat when making these connections. DISCONNECT THE POWER BEFORE SERVICING. 2 WIRES Figure 11 . PERSONAL INJURY.WIRING DIAGRAMS AR / ARUF / ARPF / ARPT 18-60 TO AVOID POSSIBLE ELECTRICAL SHOCK. ! WARNING AR/ARUF/ARPF/ARPT 18-60 10 KW & BELOW HEAT PUMP FIGURE 12 TYPICAL H/P ROOM THERMOSTAT #18 GA. 6 WIRE NEEDED WHEN OT IS USED AR/ARUF/ARPF/ARPT 18-60 ABOVE 10 KW HEAT PUMP TYPICAL H/P ROOM THERMOSTAT #18 GA. 3) REMOVE WIRE WHEN USING OUTDOOR THERMOSTAT #18 GA. 7 WIRE C B L U E W2 W H I T E O Y R O R A N G E Y E L L O W R E D Y O C W2 G R E AR UNIT R Y O W BL SEE NOTE #3 R R RED G BR W BL G W GREEN WHITE BL BLUE #18 GA. OR DEATH. 7 WIRE FIGURE 13 C B L U E W2 W H I T E O Y R O R A N G E Y E L L O W R E D Y O C W2 G R E AR UNIT R Y O W 1 EHR 3 4 2 SEE NOTE #3 R BR G R RED G W GREEN WHITE SEE NOTE #2 BR BROWN BL BLUE BL #18 GA. 5 WIRE (OPTIONAL) OUTDOOR THERMOSTAT CLOSE ON TEMPERATURE FALL #18 GA. 7 WIRE NEEDED WHEN TWO OT'S ARE USED NOMENCLATURE OT ---OUTDOOR THERMOSTAT (OPTIONAL) EHR -EMERGENCY HEAT RELAY (OPTIONAL) COLOR CODES R --RED Y --YELLOW BL-BLUE BR-BROWN O --ORANGE W -WHITE G --GREEN Important: If outdoor thermostat is not used. tie white and brown wires from Air Handler together 176 . 2) CONNECT WHITE AND BROWN WIRES FROM AIRHANDLER TOGETHER IF OT-2 IS NOT USED. 5 WIRE BL OT-1 OT-2 (OPTIONAL) OUTDOOR THERMOSTAT CLOSE ON TEMPERATURE FALL NOTES: 1) OUTDOOR THERMOSTAT (OT-1) SHOULD BE THE FIRST TO CLOSE AND THE LAST TO OPEN. DISCONNECT THE POWER BEFORE SERVICING. It is important to follow both of these instructions and those in the latest version of IO-230 when installing the AER and AEPT series of air handlers. Multiple power sources may be present. Failure to do so may cause property damage. The GMC thermostats that listed are mercury type thermostats. WARNING HIGH VOLTAGE! Disconnect ALL power before servicing or installing this unit.) • Heat Pump (GMC Thermostat Part #18-60 or equivalent) Each diagram details the connections between room thermostat and AEPT air handlers.) OT1 PJ4 MUST BE CUT FOR THIS CONFIGURATION R CONDENSER YCON COM HEATPUMP O W2 ED Y1 4.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. W1 OT1 OT2 HUM PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH(CFM) CONFIGURATION. Examples include single-stage cooling and heat pump with single or two-stage electric heating. SINGLE STAGE COOLING WITH SINGLE OR TWO-STAGE HEATING ROOM THERMOSTAT W1 W2 C IF NEEDED R G Y CONDENSING UNIT HUMIDISTAT (OPTIONAL) NOTES: 1.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. All these configurations can be applied with convenient connections to outdoor thermostat applications.AER / AEPT INSTALLER These instructions must be used in conjunction with the latest version of IO-230. remember to connect the "Y/Y2" thermostat connection on the variable speed board (VSTB) to the thermostat. IMPORTANT: When matching the AEPT or AER Air Handlers to a Single Stage Cooling Unit or Heat Pump.) Y/Y2 ENABLES HI SPD FAN COOLING E\W1 W/W2 O SEE NOTE 5 THERMOSTATS OTC OT1 OT2 C R Y1 G Y/Y2 HUMIDISTAT HUM 2. 5. personal injury or death. An equivalent thermostat can be used in place of the Goodman thermostat part number. THERMOSTAT CONNECTIONS The following composite wiring diagrams detail various configurations in which the AEPT air handlers can be used. For each configuration. The following sections will be detailed: • Single-Stage Cooling (GMC Thermostat Part #CHT18-60 or equivalent. Connecting the "Y1" will result in first stage cooling blower speed and may cause the contactor to chatter. and the connections between the AEPT air handlers and the Condensing Unit (or Heat Pump) with optional connections to Outdoor Thermostats.) E/W1 ENABLES LO SPD FAN HEATING W/W2 ENABLES HI SPD FAN HEATING OUTDOOR 3.2 STAGE HEAT THERMOSTAT 177 . which is shipped with the unit. W2 W1 W2 HEATER SWITCH C R 24 VAC DIP OFF ON 2nd STAGE HEATER 1st STAGE HEATER COOLING ONLY . STAT OPENS ON HUMIDITY RISE. refer to the explanation of the proper jumper(s) to remove for the corresponding blower speed that will result in the programmed ECM™ motor. 2 STAGE HEAT (1st ROOM T'STAT & 2nd OT) OUTDOOR THERMOSTAT W1 ROOM THERMOSTAT W2 C IF NEEDED R G Y CONDENSING UNIT HUMIDISTAT (OPTIONAL) NOTES: 1. 5.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. DIP W2 SWITCH C R 24 VAC OFF ON 2nd STAGE HEATER 1st STAGE HEATER 1st STAGE ENABLED THRU ROOM T'STAT 2nd STAGE ENABLED THRU ROOM T'STAT AND CLOSED OT2 COOLING ONLY . 5. DISCONNECT THE POWER BEFORE SERVICING. PERSONAL INJURY.) OT1 PJ4 MUST BE CUT FOR THIS CONFIGURATION OT2 PJ2 MUST BE CUT FOR THIS CONFIGURATION 4.) E/W1 ENABLES LO SPD FAN HEATING W/W2 WITH OT CLOSED ENABLES HI SPD FAN HEATING OUTDOOR 3.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. OUTDOOR THERMOSTAT ROOM THERMOSTAT W C IF NEEDED R G Y CONDENSING UNIT HUMIDISTAT (OPTIONAL) NOTES: 1.) OT1 PJ4 MUST BE CUT FOR THIS CONFIGURATION 4. W1 OT1 OT2 HUM PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH(CFM) CONFIGURATION.) E/W1 ENABLES LO SPD FAN HEATING E/W1 WITH OT CLOSED ENABLES HI SPD FAN HEATING 3. STAT OPENS ON HUMIDITY RISE. STAT OPENS ON HUMIDITY RISE.) Y/Y2 ENABLES HI SPD FAN COOLING E\W1 W/W2 O OTC SEE NOTE 5 THERMOSTATS OT1 OT2 C R Y1 G Y/Y2 HUMIDISTAT HUM 2. CONDENSER OUTDOOR HEATPUMP O W2 ED Y1 R YCON COM W1 W2 HEATER W2 SWITCH C R 24 VAC DIP OFF ON 2nd STAGE HEATER 1st STAGE HEATER 1st STAGE ENABLED THRU ROOM T'STAT 2nd STAGE ENABLED THRU CLOSED OT COOLING ONLY .2 STAGE HEAT (T'STAT ENABLED OT) 178 .) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT.AER / AEPT ! WARNING TO AVOID POSSIBLE ELECTRICAL SHOCK. CONDENSER R YCON COM HEATPUMP O W2 ED Y1 W1 W2 HEATER W1 OT1 OT2 HUM PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH(CFM) CONFIGURATION.) Y/Y2 ENABLES HI SPD FAN COOLING E\W1 W/W2 O SEE NOTE 5 THERMOSTATS OTC OT1 OT2 C R Y1 G Y/Y2 HUMIDISTAT HUM 2. OR DEATH. ) OT1 PJ4 MUST BE CUT FOR THIS CONFIGURATION W1 CONDENSER OUTDOOR R YCON COM HEATPUMP O W2 ED Y1 REMOVE PRODUCTION WIRE Y1 . OR DEATH. 5.O W1 W2 HEATER W1 W2 OT1 OT2 SWITCH C R 24 VAC 4. OFF ON 2nd STAGE HEATER 1st STAGE HEATER HEATPUMP .AER / AEPT ! WARNING HEATPUMP R Y C O W2 TO AVOID POSSIBLE ELECTRICAL SHOCK.O W1 W2 HEATER W2 OT1 OT2 HUM PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH(CFM) CONFIGURATION. DIP SWITCH C R 24 VAC 4. PERSONAL INJURY.) IF OT2 PJ2 JUMPER IS CUT E AND W2 ENABLE LO SPD FAN HEATING R YCON COM REMOVE PRODUCTION WIRE Y1 . HUM PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH(CFM) CONFIGURATION.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION.2 STG EMHT 1 STG AUX HEAT 179 .) Y ENABLES HI SPD FAN COOLING 2. DIP OFF ON 1st STAGE HEATER HEATPUMP .) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT.WITH 1 STG EMHT 1 STG AUX HEAT HEATPUMP R Y C O W2 ROOM THERMOSTAT E W2 O C IF NEEDED R G Y CONDENSER R YCON COM HEATPUMP O W2 ED HUMIDISTAT (OPTIONAL) SEE NOTE 5 THERMOSTATS E\W1 W/W2 O OTC OT1 OT2 C R Y1 G Y/Y2 HUMIDISTAT HUM NOTES: 1.) E AND W2 ENABLE HI SPD FAN HEATING 3. STAT OPENS ON HUMIDITY RISE. 5.) E ENABLES LO SPD FAN HEATING W2 ENABLES HI SPD FAN HEATING 3. DISCONNECT THE POWER BEFORE SERVICING. HEAT PUMP WITH SINGLE OR TWO-STAGE HEATING (OPTIONS FOR EMERGENCY HEAT) ROOM THERMOSTAT E W2 O C IF NEEDED R G Y CONDENSER R YCON COM HEATPUMP O W2 ED HUMIDISTAT (OPTIONAL) SEE NOTE 5 E\W1 W/W2 O THERMOSTATS OTC OT1 OT2 C R Y1 G HUMIDISTAT Y/Y2 HUM NOTES: 1. STAT OPENS ON HUMIDITY RISE.) Y ENABLES HI SPD FAN COOLING CONDENSER OUTDOOR HEATPUMP O W2 ED Y1 2.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. STAT OPENS ON HUMIDITY RISE.2 STG EMHT 2 STG AUX .1 OUTDOOR T'STAT OT1 OT2 HEATPUMP R Y C O W2 ROOM THERMOSTAT E W2 O C IF NEEDED R G Y CONDENSER R YCON COM HEATPUMP O W2 ED OTC OT1 OT2 HUMIDISTAT (OPTIONAL) OUTDOOR SEE NOTE 5 THERMOSTATS E\W1 W/W2 O OTC OT1 OT2 C R Y1 G Y/Y2 HUMIDISTAT HUM NOTES: 1.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT.) OT1 PJ4 AND 0T2 PJ2 MUST BE CUT FOR THIS CONFIGURATION 4. STAT OPENS ON HUMIDITY RISE.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. 5.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. DISCONNECT THE POWER BEFORE SERVICING.) E ENABLES LO SPD FAN HEATING W2 AND OT1 CLOSED ENABLES LO SPD FAN HEATING W2 AND OT2 CLOSED ENABLES HI SPD FAN HEATING W1 W2 W1 W2 HEATER OT1 OT2 HUM SWITCH C R 24 VAC 3. PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH(CFM) CONFIGURATION. OR DEATH.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. PERSONAL INJURY. OUTDOOR THERMOSTAT ROOM THERMOSTAT E W2 O C IF NEEDED R G Y CONDENSER HEATPUMP O W2 ED R YCON COM HUMIDISTAT (OPTIONAL) SEE NOTE 5 THERMOSTATS E\W1 W/W2 O OTC OT1 OT2 C R Y1 G Y/Y2 HUMIDISTAT HUM NOTES: 1.) 0T2 PJ2 MUST BE CUT FOR THIS CONFIGURATION OT1 CONDENSER OUTDOOR R YCON COM HEATPUMP O W2 ED Y1 REMOVE PRODUCTION WIRE Y1 .) Y ENABLES HI SPD FAN COOLING 2.) Y ENABLES HI SPD FAN COOLING R OUTDOOR CONDENSER YCON COM HEATPUMP O W2 ED Y1 REMOVE PRODUCTION WIRE Y1 . PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH(CFM) CONFIGURATION.O 2.2 STG EMHT 2 STG AUX .O W1 W2 HEATER W1 OT2 HUM W2 SWITCH C R 24 VAC 4.) E ENABLES LO SPD FAN HEATING W2 ENABLES LO SPD FAN HEATING W2 AND OT2 CLOSED ENABLES HI SPD FAN HEATING 3.2 OUTDOOR T'STATS 180 . DIP OFF ON 2nd STAGE HEATER 1st STAGE HEATER NO AUX HEAT IN HEATPUMP MODE UNTIL OUTDOOR T'STAT CLOSES HEATPUMP . 5. DIP OFF ON 2nd STAGE HEATER 1st STAGE HEATER 1st STAGE AUX HEAT ENABLED BY ROOM T'STAT 2ND STAGE AUX ENABLED BY ROOM T'STAT AND OUTDOOR T'STAT HEATPUMP .AER / AEPT ! WARNING HEATPUMP R Y C O W2 TO AVOID POSSIBLE ELECTRICAL SHOCK. They are simple to service and forgiving to operate.O 2.) E ENABLES LO SPD FAN HEATING W2 AND OT2 CLOSED ENABLES HI SPD FAN HEATING 3. Our designs virtually eliminate the most frequent causes of product failure. W1 OT1 OT2 HUM PLEASE REFER TO MANUAL FOR PROPER DIP SWITCH (CFM) CONFIGURATION.) CUT HUM PJ6 JUMPER IF USING HUMIDISTAT. We use the highest quality materials and components available because if a part fails then the unit fails.1 OUTDOOR T'STAT Quality Makes the Difference! All of our systems are designed and manufactured with the same high quality standards regardless of size of efficiency.) DIP SWITCH #4 MUST BE IN THE "ON" POSITION. Visit our website • • • • • • at www.goodmanmfg.com for information on: Goodman products Warranties Customer Services Parts Contractor Programs and Training Financing Options 181 . OR DEATH.. PERSONAL INJURY.) Y ENABLES HI SPD FAN COOLING R OUTDOOR CONDENSER HEATPUMP O W2 ED Y1 YCON COM REMOVE PRODUCTION WIRE Y1 .) OT1 PJ4 AND 0T2 PJ2 MUST BE CUT FOR THIS CONFIGURATION 4. That’s why we know.AER / AEPT ! WARNING HEATPUMP R Y C O W2 TO AVOID POSSIBLE ELECTRICAL SHOCK. There’s No Better Quality.. every unit is run tested before it leaves the factory. OUTDOOR THERMOSTAT ROOM THERMOSTAT E W2 O C IF NEEDED R G Y CONDENSER HEATPUMP O W2 ED R YCON COM HUMIDISTAT (OPTIONAL) SEE NOTE 5 THERMOSTATS E\W1 W/W2 O OTC OT1 OT2 C R Y1 G Y/Y2 HUMIDISTAT HUM NOTES: 1. Finally.2 STG EMHT 1 STG AUX . STAT OPENS ON HUMIDITY RISE. DISCONNECT THE POWER BEFORE SERVICING. W2 W1 W2 HEATER SWITCH C R 24 VAC DIP OFF ON 2nd STAGE HEATER 1st STAGE HEATER NO AUX HEAT IN HEATPUMP MODE UNTIL OUTDOOR T'STAT CLOSES HEATPUMP . 5.