87971GS Generator Resistance Tables Rev 7

March 23, 2018 | Author: Splinterbond | Category: Rectifier, Amplifier, Alternating Current, Direct Current, Voltage
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Page 1Portable Generator Rotor / Stator Resistance Tables Revision 7 General Information For Briggs & Stratton Discount Parts Call 606-678-9623 or 606-561-4983 Troubleshooting 07:56 AM Resistance Tables 3/8/2006 Wiring Diagram Index New Cover_0306.qxp www.mymowerparts.com New Cover_0306.qxp 3/8/2006 07:56 AM Page 2 Forward This Manual has been written and published by Briggs & Stratton to aid our dealers’ mechanics and company service personnel when servicing the products described herein. It is assumed that these personnel are familiar with the servicing procedures for these products, or like or similar products, manufactured and sold by Briggs & Stratton. It is also assumed that they have been trained in the recommended servicing procedures for these products, which includes the use of mechanics hand tools and any special tools that might be required. Proper service and repair is important to the safe, economical and reliable operation of all engine driven generators.The troubleshooting, testing, service and repair procedures recommended by Briggs & Stratton and described in this Manual are effective methods of performing such operations. Some of these operations or procedures may require the use of specialized equipment. Such equipment should be used when and as recommended. We could not possibly know of and advise the service trade of all conceivable procedures or methods by which a service might be performed, nor of any possible hazards and/or results of each procedure or method.We have not undertaken any such wide evaluation. Therefore, anyone who uses a procedure or method not recommended by the manufacturer must first satisfy himself that neither his safety, nor the products safety, will be endangered by the service or operating procedure selected. All information, illustrations, and specifications contained in this Manual are based on the latest production information available at the time of publication. However, Briggs & Stratton reserves the right to change, alter, or otherwise improve the product at any time without prior notice. Some components or assemblies of the product described in this Manual may not be considered repairable. Disassembly, repair and reassembly of such components may not be included in this Manual. Service and repair instructions for the engines used to power these products are not covered in this Manual. Engine service and repair instructions are furnished by the engine manufacturer. Copyright© 2001 Briggs & Stratton Milwaukee,Wisconsin All rights reserved 0_971_7_0306.qxp 3/6/2006 03:57 PM Page 1 Table Of Contents Table of Contents General Information ......................................................... 3 Rotor Removal . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Stator Schematics . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3 4 Troubleshooting . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Restoring Residual Magnetism: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Procedure: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Checking rotor resistance . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Checking stator windings: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Testing a single voltage type power winding: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Testing dual voltage type power windings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Testing the Excitation (DPE) Windings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 9 10 10 10 11 11 Battery Charge Windings . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . General: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Testing battery charge windings: . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Bypassing the Voltage Regulator or Bridge Rectifier Test . . . . . . . . . . . . . . . . . . . . . . . Test 1 - Check Winding Outputs . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Test 2 - Rotor Current Draw Test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Test Results . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Troubleshooting Generators with Two-Board Regulation For No AC Output . . . . . . Test 1 - Isolate the System Control Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Test 2 - Testing the Excitation Input . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Test 3 – Bypassing the Power Regulator Board . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12 12 12 13 13 14 14 14 14 15 15 1 0_971_7_0306.qxp 3/6/2006 03:57 PM Page 2 Table Of Contents 2 3/6/2006 04:01 PM Page 3 Section 1 GENERAL INFORMATION General Information Figure 1.2 — Kit 41079 Components This section provides general information about generator rotors and stators, including rotor removal and stator schematics. Rotor Removal A Rotor Removal Kit is available (part number 41079) that provides all the special hardware and tools needed to remove Generac® rotors from tapered engine shafts. Use the kit on units with tapered engine shafts having 5/16" - 24 or 1/4" - 20 internal threads. Using the kit instructions (repeated below), disassemble the generator to the point necessary for rotor removal (refer to applicable instructions).Then, remove the rotor as follows: 1. Remove the rotor bolt and its washer (Figure 1.1). Figure 1.1 — Rotor Assy. Cross-Section 2. 3 If rotor shaft internal diameter is not threaded, select a tap from the kit as follows: a. If rotor bolt diameter is 1/4 inch, use the 3/8”-24 tap (Figure 1.2, item 3) to cut internal threads at bearing end of rotor shaft, as shown in Figure 1.3. b. If rotor bolt diameter is 5/16 inch, use the 7/16"-20 tap (Figure 1.2, item 4) to cut internal threads at bearing end of rotor shaft. General Information 1_971_7_0306.qxp 1_971_7_0306.qxp 3/6/2006 04:01 PM Section 1 General Information 3. Page 4 General Information Stator Schematics Select a stud from the kit (Figure 1.2, items 5 to 12) of the correct length so that when threaded into the tapered engine shaft, its slotted end will be recessed about 1/4 to 1/2 inch into the rotor shaft inner diameter. See Figure 1.3. Illustrations in this section are schematic examples of typical stator windings, including (AC) power windings, DPE (Excitation) windings and battery charge windings. NOTE: Different type lead wires have been used over the years. Some were colored with no numbers while others were black with numbers. References to both types are made throughout this book but each stator will have one type or the other - not both. For your reference:Wire 11 is blue, wire 22 is red, wire 44 is grey, wire 6 is red and wire 2 is blue.When testing stator windings, always refer to the electrical schematic for the specific generator model being tested.An index to these drawings is found later in this publication. A “single voltage” stator power winding is shown in Figure 1.4. It usually consists of a single winding, capable of supplying 120VAC only to a panel outlet. Figure 1.3 — Rod Installed in Rotor Figure 1.4 — Single Voltage, Single Phase Stator Power Winding 4. With the stud threaded into the tapered engine shaft, insert a capscrew of appropriate thread pitch (Figure 1.2, item 1 or 2) into the threaded I.D. of the rotor shaft.Tighten the capscrew firmly against slotted end of the stud, then strike the head of the capscrew sharply with a hammer. 5. When stud loosens, tighten it again. Continue to tighten and strike with hammer until rotor is free of the tapered engine shaft. 6. Completely remove rotor from tapered engine shaft. 7. Remove capscrew from rotor shaft. 8. Remove stud from tapered engine shaft. 4 3/6/2006 04:01 PM Page 5 Section 1 Figure 1.5 represents a dual voltage stator (AC) power winding, made up of two windings, to supply a dual output voltage, such as 120 and/or 240VAC. General Information Only “XL” and “MC” Series units are equipped with DPE windings that interconnect with the Stator (AC) power windings.This is shown in Figure 1.7. Figure 1.5 — Dual Voltage, 1-Phase Stator Winding Figure 1.7 — AC Power and DPE Windings (Some XL & MC Series Stators) A typical DPE winding is shown schematically in Figure 1.6. (AC) output from this winding is rectified and delivered to the Rotor windings as direct current (DC). NOTE: During tests, this type of stator will show “continuity” between the AC power and DPE windings. Figure 1.6 — Excitation (DPE Winding) 5 General Information 1_971_7_0306.qxp 1_971_7_0306.qxp 3/6/2006 04:01 PM Page 6 Section 1 General Information General Information Some early production units were equipped with battery charge windings, as shown in Figure 1.8, consisting of a single winding and a single diode. Later battery charge windings are configured as shown in Figure 1.9.These units are equipped with dual stator windings and dual diodes, to provide “full-wave” rectification. Figure 1.8 — Battery Charge Windings (BCW) Figure 1.9 — Dual Starter Windings with Dual Diodes 10 AMP 6 1_971_7_0306.qxp 3/6/2006 04:02 PM Page 7 General Information General Information Section 1 As of this printing, battery charge windings are made up of four “multi-tap” windings, as shown in Figure 1.10. Leads 66 and 77 (brown) are used for 12VDC output to a charging receptacle on the unit panel. Leads 66A and 77A (yellow) are used when the winding output is delivered to the generator’s own battery. Figure 1.10 — “Multi-Tap Windings” + - 7 1_971_7_0306.qxp 3/6/2006 04:02 PM Section 1 Page 8 General Information General Information 8 2_971_7_0306.qxp 3/6/2006 03:21 PM Page 9 Section 2 Troubleshooting TROUBLESHOOTING 7. After about five seconds, disconnect the battery wires from the brushes. Restoring Residual Magnetism: 8. Shut the engine down, reinstall brush wires.Then restart the unit and check once again for proper (AC) output voltage. In normal generator operation, upon start-up, there is some “residual” magnetism in the rotor to get the generating process started. Residual magnetism is the magnetism left in the rotor after the unit is shut down.When residual magnetism is lost, the unit will have an output voltage that will remain at zero. If residual magnetism is lost it can usually be restored by “flashing the field” with a simple process involving a (DC) battery. If the unit is equipped with a brush/ bridge rectifier, refer to Figure 2.2 and proceed as follows: Troubleshooting Figure 2.2 — Brush & Rectifier Combination Procedure: If the unit is equipped with a voltage regulator or a bridge rectifier, flash the field as follows: 1. Obtain a 12VDC battery and get two jumper leads that can go from the battery terminals to the brushes.Wires with alligator clips work well. 2. Find the brush housing inside the alternator portion of the unit and remove brush wires. 3. Start the engine and get it up to running speed. 4. Connect the battery positive (+), to the positive brush, which will be the brush closest to the rotor bearing. Refer to Figure 2.1. Figure 2.1 — Restoring Residual Magnatism 5. Connect the battery negative (-), to the negative brush, which is the brush farthest away from the rotor bearing. 9 1. Locate the brush/rectifier inside the alternator portion of the unit. 2. Remove the DPE wires (2 & 6 or red and blue) from the rectifier terminals J1 and J2. 3. Start the engine and get it up to running speed. 4. Apply 12VDC across terminals J1 and J2. Polarity is not important. 5. After about five seconds, disconnect the 12VDC from the rectifier, and stop the engine. 6. Reconnect the DPE wires to the rectifier terminals. Wire number 2 (blue) connects to J1 and wire number 6 (red) connects to J2. 7. Restart engine and check for proper (AC). 2_971_7_0306.qxp 3/6/2006 03:21 PM Page 10 Section 2 Troubleshooting Checking Rotor Resistance: 1. Remove the brush assembly. 2. Set the volt-ohm-milliameter (VOM) to its RX1 scale. 3. Connect the test leads to the rotor slip rings, as shown in Figure 2.3. 7. A reading of “infinity” should be measured.A reading other than infinity indicates a rotor winding shorted to the rotor shaft. Checking Stator Windings: Determine if the stator is a single voltage type with only one winding, or a dual voltage type having two windings. For example: 120VAC only = one winding, 120/ 240VAC = two windings. Figure 2.3 — Checking Rotor Resistance Troubleshooting NOTE: Many resistance specifications are in fractions of an ohm. Unless you have a fractional ohm meter, the reading you measure may not be an accurate reading. Testing A Single Voltage Type Power Winding: 4. 1. Set VOM to the RX1 scale. 2. Connect the meter test leads across the AC power wires (wire #11 and 22 or blue and red wires), as seen in Figure 2.5. Measure the rotor resistance and compare it to the nominal resistance value found on the appropriate resistance table entry. Figure 2.5 — Checking Power Winding Resistance A reading of “infinity” or a very high resistance indicates an open circuit or a partially open condition in the rotor windings. A very low resistance indicates a shorted rotor. 5. Set the VOM to its highest ohm scale. 6. Connect one test lead to the rotor shaft and the other test lead to either rotor slip ring, as shown in Figure 2.4. Figure 2.4 — Checking Rotor Short to Ground 3. Compare the reading to the resistance value found in the appropriate resistance table entry. A reading of infinity or high resistance indicates an open in the stator winding. A low reading indicates a shorted stator winding. 4. 10 Set the VOM to its highest resistance scale. 3/6/2006 03:21 PM Page 11 Section 2 5. Connect one meter test lead to a good ground. Connect the other test lead to the stator power winding, as shown in Figure 2.6. Troubleshooting Testing The Excitation (DPE) Windings: Figure 2.6 — Testing For Short To Ground 1. NOTE:The excitation wires may be colored or numbered.The numbered wires are #2 and #6.The colored wires are blue and red. Be sure not to confuse the colored excitation wires with the colored power wires.The excitation wires are the wires connected to the bridge rectifier or voltage regulator. Set VOM to its RX1 scale. 2. Connect the test leads to the stator excitation wires. Measure the resistance and compare it to the nominal resistance value found in the appropriate resistance table.Analyze the results the same as in step 3 in testing single voltage type power windings, above. 3. Set VOM to its highest resistance scale. 4. Connect one test lead to a stator power wire. Connect the other test lead to one of the stator excitation wires, as shown in Figure 2.7. A reading of infinity should be measured. A reading other than infinity indicates a stator power winding shorted to ground (defective stator). Figure 2.7 — Testing For Short Between Windings Testing Dual Voltage Type Power Windings: 1. Set VOM to the RX1 scale. 2. Connect the test leads to the stator wire #11 and #22. Measure the resistance and compare it to the nominal resistance value found in the appropriate resistance table entry. 3. Connect the test leads to the stator wire #33 and #44. Measure the resistance and compare it to the nominal resistance value found in the appropriate resistance table entry.Analyze the results the same as in step 3, “Testing Single Voltage Stator Windings.” 4. NOTE: On some units, wire #22 and #33 may be interconnected to form the neutral connection (see Figure 1.7 on page 5).Thus, you will only have wire 22.Wire 33 will be hidden. Testing for a short to ground is the same as testing single voltage stator windings (step 4 through 6 in “Testing Single Voltage Type Power Winding.”) A reading of “infinity” should be measured.A reading other than infinity indicates a power winding shorted to an excitation winding. 11 Troubleshooting 2_971_7_0306.qxp 2_971_7_0306.qxp 3/6/2006 03:21 PM Section 2 5. Page 12 Troubleshooting Testing Battery Charge Windings: NOTE: On units that have two-board regulation, the stator power and excitation windings are connected internally. On these units, a reading of continuity would be a normal condition (see schematic in Figure 1.7 on page 5). Connect one test lead to an excitation wire. Connect the other test lead to a good ground. 1. Set VOM to RX1 scale. If a single winding is used, see Figure 1.8 on page 6. 2. A reading of “infinity” should be measured. Connect the meter test leads across wires No. 55 and 66. Compare the reading obtained with the resistance value found in the appropriate resistance table entry. If dual battery charge windings are used (Figure 1.9), take meter readings as follows: A reading other than infinity indicates a winding shorted to ground. a. Read across wires No. 55 (black) and 66 (brown). b. Read across wires No. 55 (black) and 77 (brown). Troubleshooting Battery Charge Windings (BCW): c. Compare the resistance readings obtained with the resistance value found in the appropriate resistance table entry. General: Some generators are equipped with stator battery charge windings.These windings deliver an AC output that is rectified, or converted, to DC. NOTE:The resistance table gives only two resistance values for multi-tap battery charge windings, even though there are four (4) windings. The difference in resistance between 55-66A and 5577A, and the 55-66 and 55-77 is minimal and probably undetectable. On some models, the DC battery charge current is available to a 12VDC receptacle on the unit panel.A battery charge cable can be plugged into that receptacle for charging 12VDC storage batteries. Some generator models are equipped with an electric start engine and require a 12VDC battery. On these units the rectified battery charge winding output is delivered to the unit battery during operation. NOTE: Some generator models may be equipped with stator battery charge windings even if their panel does not include a 12VDC receptacle or if the unit does not have electric start capability. If the stator must be replaced on such units, the 3 or 5 battery charge winding (BCW) leads must be tied down to prevent contact with the rotor. If necessary, the BCW wire ends must be insulated to prevent grounding and/or arcing. Any one of several types of battery charge windings may be used, as described on page 6. NOTE:The resistance tables show only two (2) values for multi-tap battery charge windings, because the meter reading differences are minimal, probably undetectable. 12 3/6/2006 03:21 PM Page 13 Section 2 Bypassing The Voltage Regulator Or Bridge Rectifier Test: Test 1: — Check Winding Outputs NOTE: Bypassing the bridge rectifier and voltage 1. 2. regulator are similar tests, in that six wires are unplugged from the voltage regulator and four are removed from the bridge rectifier. During the bridge rectifier test, you measure (AC) output at the stator power and excitation windings only - there are no sensing wires on a bridge rectifier system. Verify that field flash has taken place (voltage regulator types only).Watch the light on the voltage regulator (if so equipped). If it comes on at all, then field flash has occurred. Troubleshooting 3. Apply 12VDC to the brush wires, normally wires #4 (+), and #1 (-). 4. Isolate the remaining wires so they are not touching each other or the control panel etc. 5. Start the generator. Measure (AC) output across sensing wires #11, and #22 (voltage regulator types only). On bridge rectifier types measure (AC) output at the 120VAC receptacle. At least 60VAC should be measured (it can be higher). Measure (AC) output across excitation winding wires #2 and #6.At least 60VAC should be measured (it can be higher, see Figure 2.9.) Figure 2.9 — Testing Excitation Winding Output Disconnect all six wires from the voltage regulator and keep the voltage regulator completely isolated from circuit (See Figure 2.8). Figure 2.8 — Testing Power Winding Output WIRE #1 (-) WIRE #4 (+) 13 Troubleshooting 2_971_7_0306.qxp 2_971_7_0306.qxp 3/6/2006 03:22 PM Section 2 Page 14 Troubleshooting Test 2: — Rotor Current Draw Test 1. 2. Locate the brush wires, normally wires #4 (+) and #1 (-). Isolate the brushes from the bridge rectifier or voltage regulator. Connect a DC amp meter between the positive brush wire #4, and the positive post on a 12VDC battery, as shown in Figure 2.10. Figure 2.10 — Rotor Current Draw Test Test Results: Analyze the test results as follows: Troubleshooting 1. If any of the (AC) voltage readings are below 60VAC (it can be higher) and rotor current draw is within specification, the problem is in the stator windings. 2. If the rotor current draw is higher than specified, a flying short exists in the rotor. 3. If current draw is lower than specification, a flying open exists in the rotor. 4. If (AC) output and current draw are within specification, the rotor and stator are ok and the voltage regulator is defective. Troubleshooting Generators With Two-Board Regulation For No AC Output: This type regulation is found on “XL” and “MC SERIES,” “SEARS DELUXE®,” and some “DAYTON®” generators. Test One: — Isolate the System Control Board 3. Connect a jumper wire from the negative brush wire #1 to the negative battery post (positive brush is located closest to the rotor bearing). 4. Start the engine and monitor the amperage draw. It should not change while the unit is running or is static. The (DC) amp draw will be determined by the specified resistance of the rotor being tested. 1. Locate the power regulator circuit board inside the rear bearing carrier.This board is similar to the bridge rectifier on certain other models. 2. Disconnect the 3-prong white plastic plug, as shown in Figure 2.11.This is called the snubber feedback cable. Figure 2.11 — Disconnecting The Snubber Cable To find the desired amp draw: Voltage divided by resistance equals amperage. For example, 12VDC divided by a rotor resistance of 24 ohms equals an amp draw of 0.5 amp. NOTE:Actual amp draw may vary slightly due to exact battery voltage, rotor resistance, and meter calibration, etc. 14 2_971_7_0306.qxp 3/6/2006 03:22 PM Page 15 Section 2 3. Start the engine. 4. Measure the AC output voltage at the AC panel receptacle.Voltage should be between 130-150VAC. Troubleshooting Test Two: — Testing the Excitation Input NOTE:The excitation winding is connected to the stator power winding inside of the stator assembly.A phase relationship exists between the two windings, so the excitation leads must be installed in the correct position on the power regulator board. If the leads are not in the correct position as noted in Figure 2.13, install them correctly. If leads are installed correctly, go to Test Three. If voltage reading is less than 130VAC, go to Test Two. If voltage reading is between 130-150VAC; a. Connect a jumper wire across the two outside pins of the power regulator board (from where the snubber cable was disconnected), as shown in Figure 2.12. Troubleshooting Figure 2.13 — Power Regulator Board Connections Figure 2.12 — Installing The Jumper Cable Test Three: — Bypassing the Power Regulator 1. 5. 2. Start the engine. a. Measure the voltage at the 120VAC panel receptacle. It should read between: 2 and 10VAC. Board Remove the power regulator board and keep it totally isolated from the generator. Connect 12VDC to the brush leads, as shown in Figure 2.14. Figure 2.14 — Bypassing Power Regulator Board If voltage is less than 10VAC, the failure is in the system control board (located in the control panel). If voltage is still between 130-150VAC, replace the power regulator board. 15 2_971_7_0306.qxp 3/6/2006 03:22 PM Section 2 Page 16 Troubleshooting Connect the positive (+) 12VDC battery terminal to the positive (+) brush (nearest the rotor bearing). Connect the negative(-) 12VDC battery terminal to the negative (-) brush. 3. Start the engine. Measure the voltage at the excitation leads (red and blue or #2 and #6 wires).At least 60VAC should be measured. Measure the voltage at the 120VAC receptacle.At least 60VAC should be measured. Troubleshooting a. If voltage measured at the outlets and the excitation is 60VAC or greater, the rotor and stator windings are O.K. Replace the power regulator board. b. If voltage at both the excitation winding and AC outlets is low, there is a failure in the rotor and stator windings. See “Testing The Rotor And Stator” and “Checking The Rotor For Current Draw” section, earlier in this manual. c. If the voltage is below 60VAC at the outlets, but above 60VAC at the excitation leads, shut off the engine. Disconnect the stator power leads in the bearing carrier (wires #11, #22, and #44, or blue, red, and grey wires). 4. Start the engine. Measure the AC output across wires #11 and #22, or the blue and red wires. Measure the AC output across wires #44 and #22 or the grey and red wires. If voltage is above 60VAC at the stator power leads but not at the AC outlets, there is a failure in the control panel, such as wiring, circuit breakers, etc. If voltage is below 60VAC at the stator power leads, the failure is in the stator power windings. 16 3/6/2006 04:16 PM Page 17 Section 3 Resistance Tables GENERAC Rotor Resistance Model Unit 0413-0 0415-0 0416-0 0417-0 0421-0 0435-0 0455-0 0633-0 1006-0, 1 1010-0 1011-0 1013-0 1016-0 1017-0 1019-0,1,2,3 1021-0 1140-0 1140-1 1140-2 1193-0 1194-0 1263-0 1277-0 1305-0 1306-0 PP5000 SV-2400 SVT4200 SVP5000 SVP5000E SV4200 PP5000 4150XL MF6500 PP5000 PP5000 7500XL MF2500 7500XL 7500EXL 6500MF PP5000T PP5000 PP5000 M2500 3000 ET2500 BBPS 4200WATT 5000CLIGRD 3000LT SVP5000 3500LW 5500LW 7500ELW SE5000 9 Kw SE10000 5500LW SVP5000T 10000EXL 6KwMBPS 6KwMBPS 10Kw BPS 7000EXL 8Kw BPS 4Kw EXL G1000M 5500 INTEK 5Kw Half Tnk 4000EXL 5500 INTEK 8Kw B&S 4500 Honda 1311-0 1312-0 1313-0 1314-0 1315-0 1329-0 1338-0, 1 1339-0 1340-0 1356-0 1415-0 1448-0 1449-0 1461-0 1470-0, 1 1535-0 1529-0 1532-0 1642-0, 1, 2 1643-0 1645-0, 1 1646-0, 1 1647-0 1648-0 Part No. Stator Resistance Power DPE BCW 91844 91820 91836 91844 91844 91836 84141 84141 92679 91844 91844 B1342 99687 B1342 B1342 92679 74716 B2298 B4067A 99687 B2816 B2998 B1342 91844 74716 24.0-29.0 19.5-23.7 21.0-27.2 24.0-29.0 24.0-29.0 21.0-27.2 11.9-14.5 11.9-14.5 10.2-12.2 24.0-29.0 24.0-29.0 7.6-9.1 9.8-12.2 7.6-9.1 7.6-9.1 6.7-8.7 24.0-29.0 2.04-2.04 2.68/2.68 9.8-12.2 18.5-22.4 5.2 7.6-9.1 24.0-29.0 24.0-29.0 OHMs 91859 91824 91838 91859 91859 91838 83540 83540 92681 91859 91859 B1341 99688 B1341 B1897 92681 91859 B2926 B4070A 99688 B2817 B2926 B1897 91859 91859 Part No. .23-.29/.24-.34 .33-.42/ NA .33-.39/.33-.39 .23-.29/.24-.34 .23-.29/.24-.34 .33-.39/.33-.39 .38-.51/.42-.51 .38-.51/.42-.51 .22-.26/.22-.26 .23-.29/.24-.34 .23-.29/.24-.34 .20-.25/.20-.25 .62-.74/ NA .20-.25/.20-.25 .20-.25/.20-.25 .22-.26/.22-.26 .23-.29/.24-.34 .21 .33 .62-.74/ NA .25-.31/ NA .7 .20-.25/.20-.25 .23-.29/.24-.34 .23-.29/.24-.34 1.26-1.67 2.24-3.05 1.07-1.42 1.26-1.67 1.26-1.67 1.07-1.42 1.83-2.41 1.83-2.41 1.49-1.81 1.26-1.67 1.26-1.67 1.56-1.91 5.82-7.05 1.56-1.91 1.56-1.91 1.49-1.81 1.26-1.67 1.51 1.46 5.82-7.05 1.97-2.37 2.3 1.56-1.91 1.26-1.67 1.26-1.67 NA NA NA NA .07/.07 NA .12-.14/.12-.14 .12-.14/.12-.14 .07-.11/.07/.11 NA NA .05-.09/.06-.11 .12-.16/.12-.16 .05-.09/.06-.11 .05-.09/.07-.11 .07-.11/.07/.11 NA NA NA .12-.16/.12-.16 NA NA .05-.09/.07-.11 .07/.07 .07/.07 B2816 74716 84141 92678 B1342 91844 B4917 B4917 92678 B4067 B4917 92679 92679 B4917 B1342 B4917 84141 187378 187746 91844 18.5-22.4 24.0-29.0 11.9-14.5 9.3-12.0 7.6-9.1 24.0-29.0 2.95/2.95 2.95/2.95 9.3-12.0 2.68 2.95 10.2-12.2 10.2-12.2 2.95-2.95 7.6-9.1 2.95-2.95 11.9-14.5 4.06 23.4-30.5 24.0-29.0 B2817 91859 83540 92680 B1897 91859 B4910 B4910 92680 B4070 B4910 94981 94981 B4910 B1897 B4910 187105 187379 187745 91859 .25-.31/ NA .23-.29/.24-.34 .38-.51/.42-.51 .26-.32/.28-.35 .20-.25/.20-.25 .23-.29/.24-.34 .30/.30 .30/.30 .26-.32/.28-.35 .33 .30 .22-.26/.22-.26 .22-.26/.22-.26 .30-.30 .20-.25/.20-.25 .30-.30 .38-.46/.43-.51 1.01 .19-.23/.19-.23 0.23-0.23 1.97-2.37 1.26-1.67 1.83-2.41 2.26-2.80 1.56-1.91 1.26-1.67 1.1 1.1 2.26-2.80 1.46 1.1 1.49-1.81 1.49-1.89 1.1 1.56-1.91 1.1 2.04-2.41 3.9 1.26-1.5 1.26-1.67 NA .07/.07 .12-.14/.12-.14 .08-.12/.08-.12 .05-.09/.07-.11 NA 0.082 0.082 .08-.12/.08-.12 NA 0.082 .07-.11/.07-.11 .07-.11/.07-.11 0.082 .05-.09/.07-.011 0.082 .12-.14/.12-.14 0.2 NA NA 84141 187746 B4917 91844 11.9-14.5 23.4-30.5 2.95/2.95 24.0-29.0 187105 187745 B4910 189540 .38-.46/.43-.51 .19-.23/.19-.23 0.30/0.30 .23-.28/.28-.34 2.04-2.41 1.26-1.5 1.1 1.03-1.23 .12-.14/.12-.14 NA 0.082 .06-.10/.06-.10 17 GENERAC 3_971_7_0306.qxp 3_971_7_0306.qxp 3/6/2006 04:16 PM Section 3 Page 18 Resistance Tables GENERAC Rotor Resistance Model 1649-0 1650-0 1652-0 1654-0 1655-0 1656-0 1657-0 GENERAC 1658-0 5500-0 5501-0 5504-0 5505-0 5506-0 5507-0 5508-0 5509-0 5510-0 5511-0 5512-0 5513-0,1 5514-0 5516-0 5517-0 5518-0 5521-0 5522-0 5523-0 5524-0 5525-0 5526-0 5527-0 5528-0 5529-0 5530-0 5531-0 5532-0 5541-0 5541-1 5542-0 5542-1 5543-0 5544-0 5546-0 5547-0 5548-0 5549-0 5552-0 5553-0 5556-0 Unit 3250 INTEK 10Kw Honda 4200 Honda 5500 INTEK 5500 CSA 4Kw EXL CSA 7Kw EXL CSA 5Kw Hlf Tnk T2410 T2411 T4014 T4015 T4016 T4017 T4029 S2410 S2411 S4012 S4013 S4014 S4015 S4016 S4017 S4029 S4014F S4015F S4016F S4017F S4029F S5019F S5020F S5021F C2410 C2411 C2412 C2413 C4018 C4018 C4019 C4019 C4020 C4021 C4022 C4023 C4024 C4025 C4028 C4029 C4032 Part No. Stator Resistance OHMs Part No. Power DPE BCW 188075 B4917 91844 187746 187746 84141 20.3-25.3 2.95-2.95 24.0-29.0 23.4-30.5 23.4-30.5 11.9-14.5 91838 B4910 91859 187745 187745 187105 .17-.20/.33-.39 0.30/0.30 0.23-0.23 .19-.23/.19-.23 .19-.23/.19-.23 .38-.46/.43-.51 1.11-1.32 1.1 1.26-1.67 1.26-1.5 1.26-1.5 2.04-2.41 NA 0.082 NA NA NA .12-.14/.12-.14 B1342 7.6-9.1 B1897 .20-.25/.20-.25 1.56-1.91 .05-.09/.07-.011 B2298 75975 75975 75986 75986 75986 75986 75986 74713 74713 74715 74715 74715 74715 74715 74715 74715 74716 74716 74716 74716 74716 74716 74716 74716 74713 74713 74713 74713 74716 74716 74716 74716 74716 74716 74716 74716 74716 74716 74716 74716 74716 2.04-2.04 39.2 39.2 46.4 46.4 46.4 46.4 46.4 24.0 24.0 23.7 23.7 23.7 23.7 23.7 23.7 23.7 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0 24.0 24.0 24.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 189752 75970 75970 75985 75985 75985 75985 75985 77258 77258 77259 77259 77259 77259 77259 77259 77259 77257 77257 77257 77257 77257 77257 77257 77257 77258 77258 77258 77258 77257 79636 77257 79636 79636 79636 79636 79636 79636 79636 79636 79636 79636 0.93 / 0.93 0.40 0.40 .41 /.41 .41 /.41 .41 /.41 .41 /.41 .41/.41 0.34 0.34 .36/.36 .36/.36 .36/.36 .36/.36 .36/.36 .36/.36 .36/.36 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 0.34 0.34 0.34 0.34 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 .26/.26 1.9 2.37 2.27 2.45 2.45 2.45 2.45 2.45 2.46 2.46 1.53 1.53 1.53 1.53 1.53 1.53 1.53 1.81 1.81 1.81 1.81 1.81 1.81 1.81 1.81 2.46 2.46 2.46 2.46 1.81 1.81 1.81 1.81 1.81 1.81 1.81 1.81 1.81 1.81 1.81 1.81 1.81 NA NA NA NA NA NA NA NA 0.26 NA NA NA NA NA NA NA NA 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.26 0.26 0.26 0.26 0.19 0.11 /0.19 0.19 0.11 /0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 0.19 18 3/6/2006 04:16 PM Page 19 Section 3 Resistance Tables GENERAC Rotor Resistance Model 5557-0 5558-0 5559-0 5559-1 5560-0 5561-0 5561-1 5563-0,1,2 5564-0,2 5564-1 5565-0,1,2 5566-0,1,2 5567-0,1 5568-0 5569-0 5570-0 5571-0 5575-0 8479-0 8616-0 8749-0 8750-0,1, 2 8751- 0,1,2 8752- 0,1,2 8772-0 8773-0 8834-0 8835-0 8836-0 8837-0 8838-0 8839-0 8839-1 8840-0 8840-1 8865-0,1,2 8865-3,4,5 8865-6 8865-7 8865-8 8866-0,1 8866-2,3 8870-0 8870-1,2 8871-0,1 8872-0,1 8876-0,1 8877-0,1 8882-0 8895-0,1 Unit C4033 C4034 C5010 C5000 C5011 C5012 C5000 C8010 C8011 C8011 C8012 C8013 S4023 S4018F T4023 2.4Kw 4.0Kw C5000 G1450 328220 H1450 H2450 H4050 G4050 G1450 G2450 G1000 G1600 G2600 G4000 S1000 S1500 S1500 S2400 S2400 L4000 L4000 L4000 L4000 L4000 L4000E L4000E S4000 S4000 S4001 S5000 L5000 L5000E S3000T R4000 Part No. 74716 74716 68794 74716 68794 68794 74716 77308G 77308G 77308G 77308G 77308G 74715G 74716 75986 74713 74715 81870 61798 59625 61798 59600 59625 59625 61798 59600 65772 65786 65786A 65786E 67239 65786 65786 65786A 68784 68747 68748B 80025G 80026 74716 68748 68748B 68397 68397A 68397 68794 68794 68794 68753 68748 Stator Resistance OHMs 24.0-29.0 24.0-29.0 8.4 24.0-29.0 8.4 8.4 24.0-29.0 12.6 12.6 12.3 12.6 12.6 23.7 24.0-29.0 46.4 24.0 23.7 15.5 25.8 46.0 13.5 37.5 46.0 46.0 13.5 37.5 16.4 22.7 25.5 19.4 16.4 22.7 22.7 25.5 36.5 7.4 48.0 25.1 27.2 24.0-29.0 7.4 48.0 48.0 26.2 48.0 8.4 8.4 8.4 23.1 7.4 Part No. 79636 79636 79805 79636 79805 79805 79636 77260 77260 83224 77260 77260 77259 77257 75985 77258 82337 74716 61780 58627 61780 61765 61773 61773 61780 61765 65794 65784 66454 67205 67406 67115 67115 67116 68785 68749 68749D 72087 72087A 77257G 68749A 68749E 68703 66851 66851 68370 68749B 68749C 68754 68749 19 Power DPE BCW .26/.26 .26/.26 .28/.20 .26/.26 0.28/0.20 .28/.20 .26/.26 0.18/0.18 0.18/0.18 0.15/0.15 0.18/0.18 0.18/0.18 0.36/0.36 0.26/0.26 0.41 /0.41 0.34 0.36/0.36 0.26/0.26 0.47 .32/.32 0.47 0.40 0.6/1.2 0.6 /1.2 0.47 0.40 1.70 0.52 0.36 0.22 1.70 0.52 0.52 0.30 0.30 .25 / .56 0.2 / 0.6 0.29 0.16/0.31 0.26/0.26 0.26 / 0.56 0.25 / 0.56 0.32 0.32 0.32 0.28 0.20/0.28 0.20 / 0.28 0.2 / 0.6 0.25 / 0.56 1.81 1.81 1.88 1.80 1.88 1.88 1.8 1.13 1.13 1.72 1.13 1.13 1.53 1.81 2.45 2.46 1.53 1.8 1.50 1.95 1.50 2.50 3.00 3.00 1.50 2.50 6.40 3.20 3.75 3.70 6.40 3.20 3.20 2.90 2.90 2.4 1.95 1.50 1.72 1.81 2.00 2.00 2.20 2.20 2.20 1.75 2.60 2.60 0.80 2.40 0.19 0.19 0.22 0.1/0.1 0.22 0.14 0.1 /0.1 0.4/0.6 0.4/0.6 NA 0.4/0.6 0.4/0.6 NA 0.19 NA 0.26 NA 0.1 /0.1 0.10 NA NA NA NA NA 0.10 NA 0.28 0.19 0.16 0.10 NA NA NA NA NA NA NA NA NA 0.19 0.02 0.02 NA NA NA NA NA 0.20 0.02 NA GENERAC 3_971_7_0306.qxp 3_971_7_0306.qxp 3/6/2006 04:16 PM Section 3 Page 20 Resistance Tables GENERAC Rotor Resistance GENERAC Model Unit 8896-0 8905-0 8905-1 8906-0 8911-0,1 8911-2,3 8911-4 8915-0 8915-1 8915-2 8915-3 8953-0 8954-0 8967-0,1 8967-2 8968-0,1 8968-2 8969-0,1 8969-2 8970-0,1 8970-2,3 8971-0,1,2 8971-3,4 8972-0,1,2 8972-3,4 8973-0,1 8973-2,3 8983-0,1 8983-2,3 8983-4,5 8992-0 9014-0 9014-1 9023-0 9063-0 9063-1 9072-0 9073-0 9074-0 9075-0 9076-0 9078-0 9079-0 9091-0 9092-0,1 9093-0 9094-0 9099-0,1,2 9100-0,1,2 9101-0,1,2 9101-3 R5000 S4002 S4002 L2400 L4001 L4001 L4001 L4002 L4002 L4002 L4002 H2250 H4000 A1400 A1400 A2400 A2400 A4000 A4000 S2400 S2400 S4000 S4000 S4001 S4001 S4002 S4002 S5002 S5002 S5002 L7500E R4002D R4000 L4001 L4003 L4003 G3000 G950 G1700 G6000 G7000E 4.0 kW 5.0kW S4002 HD3000 HD6000 S2400 R6000 R8000 R8000 R8000 Part No. 68794 68397 68397A 68784 68748 81870 74714 68748B 80025G 80026 74716 71820 71821 80022 74712 80023 74713 81870 74714 80023 74713 80025 74715 80025 74715 80026 74716 73056 73056 74716 59795B 81870 74714 81870 80026 74716 74713 65772 65786 74716 68794 68748B 76251 80026 68784 74716 74713 77572 77321 77308G 77308G Stator Resistance OHMs 8.4 48.0 26.2 36.5 7.4 15.5 14.3 48.0 25.1 27.2 24.0-29.0 21.8 26.5 22.7 20.17 25.5 24.0 15.5 14.3 25.5 24.0 25.1 23.7 25.1 23.7 27.2 24.0-29.0 27.3 27.3 24.0-29.0 14.5 15.5 14.3 15.0 27.2 24.0-29.0 24.0 16.4 22.7 24.0-29.0 8.4 48.0 32.0 27.2 36.5 24.0-29.0 24.0 13.0 13.0 12.6 12.6 Part No. 68749B 69903A 69903A 68785 68749 72088 74707 68749D 72087 72087A 77257 71822 71823 72060 74705 72061 77258 72062 77284 70420G 74706 70421 74708 70421 74708 70422 77257 73057 74738 77257 68898 74102 77284 72088 72087A 77257 77258 65794 65784 77257 68749C 75487 76252 75484 74172 77257 77258 77571 77218 77260 77260 20 Power DPE BCW 0.20/0.28 0.20 / 0.60 0.20 / 0.60 0.40 0.25/0.56 0.22/0.43 0.22/0.43 0.20 / 0.60 0.29 0.16 0.26/0.26 0.40 0.32 0.52 0.76 0.30 0.34 0.43 0.23 0.30 0.34 0.29 0.36 0.29 0.36 0.15/0.32 0.26/0.26 0.21 0.21 0.26/0.26 0.16 0.22 0.23 0.22/0.43 0.16 0.26/0.26 0.34 1.70 0.52 0.26/0.26 0.2 /0.28 0.2 / 0.60 0.20/0.30 0.17/0.35 0.40 0.26/0.26 0.34 0.27 0.27 0.18/0.18 0.18/0.18 2.60 2.20 2.20 2.40 2.40 1.74 2.61 1.95 1.50 1.72 1.81 2.50 2.10 2.35 2.5 2.14 2.46 1.74 2.61 2.14 2.46 1.50 1.53 1.50 1.53 2.32 1.81 2.32 1.91 1.81 0.88 1.76 2.61 1.74 1.72 1.81 2.46 6.40 3.20 1.81 2.60 0.80 2.0 1.26 2.70 1.81 2.46 1.81 1.81 1.13 1.13 NA NA NA NA NA NA NA NA NA NA 0.19 0.12 0.08 0.19 0.52 0.14 0.26 0.10 0.11 NA NA NA NA NA NA NA 0.19 NA NA 0.19 0.15 NA NA NA NA 0.19 0.26 0.28 0.19 0.19 0.20 0.02 0.20 NA NA 0.19 0.26 0.18 0.18 0.4/0.6 0.4/0.6 3_971_7_0306.qxp 3/6/2006 04:16 PM Page 21 Section 3 Resistance Tables GENERAC Model Unit Part No. Stator Resistance OHMs 9102-0,1 6.0kW 77572 13.0 9103-0,1 8.0kW 77321 14.5 9108-0 T2500 75975 39.2 9109-0 T4000 75986 46.4 9111-0 T4001 75986 46.4 9157-0 L1400 77369 19.2 9158-0 L2400 77368 24.0 9159-0 L4004 77350 25.8 9173-0 S4001 74716 24.0-29.0 9184-0 4.0kW 68748 7.4 9185-0 T4000 75986 46.4 9186-0 T4000 75986 46.4 9214-0 4.0kW 68748 7.4 9215-0 5.0kW 68794 8.4 9216-1 5.0kW 81870 15.5 9216-2,3 5.0kW 86553 12.4 9217-0 2.4 kW 75975 39.2 9219-0 EC4000D 81870 15.5 9261-0,1,2 EC6401 77308G 12.6 9288-0,1,2 R8000 77308 12.6 9288-3 R8000 77308G 12.6 9298-0 T4000 75986 46.4 9325-0 3.0kW 74716 24.0-29.0 9331-0 M2400 74713G 23.8 9332-0 M4000 74715G 23.7 9333-0 M4000 74715G 23.7 9334-0 M750 65772 16.4 9335-0 4.0kW 74716 24.0-29.0 9386-0,1 C8011 77308G 12.3 9387-0 S3000 74713 24.0 9397-0 C5032 74716 24.0-29.0 9415-0, 1 S2435 74713 24.0 9419-0 S2410 74713 23.8 9420-0 S4014 74715 23.7 9421-0 C4019 74716 24.0-29.0 9423,30 1 C4019 74716 24.0-29.0 9429-0 C5000 68794 8.4 9429-1 C5000 81870 15.5 9430-0 C5036 74716 24.0-29.0 9441-1,4,5 3500XL 84141 11.9-14.5 9443-0 HD3000 74713 24.0 9450-0 S5038 74716 24.0-29.0 9456-0 S2410 80023 25.5 9458-0 S4014 81870 25.8 9459-0 S4014 80026 27.2 9460-0 S4014 80025G 23.49 9477-0 C5032 74716 24.0-29.0 9478-0,1 ET2100 80023G 23.8 9479-0,1 HB2100 80023G 23.8 9482-0 G1000 65772 16.4 Note 1: Three Phase Stator Assy. Power = .88/1.31x2 Part No. 77571 77218 75970 75985 75985 77383 77382 77354 77257 71757 75985 75985 68749A 68749C 83260 86552 75970 81871 80806 77260 83224 75985 77259 82338 82337 82337 82880 77257 83224 77258 79636 77258 82338 82337 79636 79636 79805A 83260 79636 83540 77258 84925 70420A 72062 70422A 70421A 79636 84292 84292 82880 21 Power DPE BCW 0.27/0.27 0.16/0.16 0.40 0.41 /0.41 0.41 /0.41 0.76 0.34 0.26 0.26/0.26 See Note 1 0.41 /0.41 0.41 /0.41 0.25/0.56 0.20/0.28 0.26/0.29 0.33/0.33 0.40 0.41 /0.52 0.24/0.24 0.18/0.18 0.18/0.18 0.41 /0.41 0.36/0.36 0.34 0.36/0.36 0.36/0.36 1.70 0.24/0.26 0.15/0.15 0.34 0.26/0.26 0.34 .34 0.36/0.36 0.26/0.26 0.26/0.26 0.20/0.28 0.26/0.26 0.26/0.26 .38-.51/.42-.51 0.34 0.24/0.30 .30 0.43 0.26/0.26 0.29 0.26/0.26 0.8/0.8 0.8/0.8 1.70 1.80 1.3 2.37 2.45 2.45 2.50 2.46 1.81 1.81 2.60 2.45 2.45 2.00 2.60 1.76 1.40 2.37 2.95 1.59 1.13 1.70 2.45 1.53 2.46 1.53 1.53 6.40 1.80 1.72 2.46 1.81 2.46 2.46 1.53 1.81 1.81 1.88 1.76 1.81 1.83-2.41 2.46 1.67 2.14 1.74 1.81 1.5 1.81 2.74 2.74 6.40 0.18 0.15 NA NA NA NA NA NA 0.19 0.20 NA NA 0.02 0.20 0.09 0.15 NA 0.15/0.15 1.0/1.2 0.4/0.6 NA NA NA 0.26 NA NA 0.28 0.19 NA 0.26 0.11 /0.19 0.26 .26 NA 0.11 /0.19 0.11 /0.19 0.14 0.09/0.09 0.11 /0.19 .12-.14/.12-.14 0.26 0.12/0.21 NA 0.11 /0.10 0.11 /0.19 NA 0.11 /0.19 NA NA 0.28 GENERAC Rotor Resistance 3_971_7_0306.qxp 3/6/2006 04:16 PM Section 3 Page 22 Resistance Tables GENERAC Rotor Resistance Model GENERAC 9486-0 9487-0 9493-0 9495-0 9528-0,1 9530-0 9538-0,1,2 9539-0,1 9547-0 9551-0 9663-0 9672-0 9676-0 9692-0 9699-0 9700-0 9704-0 9704-1,2,3 9716-0 9716-1,2 9717-2 9718-0 9718-1,2 9719-0 9719-1,2,3 9720-0 9720-1,2 9749-4 9753-0 9777-0,1,2,3 9778-0,1, 2,3,4,5,6 9779-0,1,2,3 9780-0,1 9781-0,1 9794-0,1, 2 9795-0,1 97970,1,2,3, 4 9798-0,1 9799-0,1 9800-0,1 98010,1,2,3,4 9801-5, 6, 7 9802-0,1 9803- 0,1,2 9805-0,1 9807- 0,1,2 9809-0,1 9816-0 Unit Part No. Stator Resistance Power DPE BCW C5030 C5031 ET2100 EC2100 EP5000 2.4kW 3000XL 3000XL 2500XL 2200XL 3500XL 2800XE S4023 3500XE 3500XLS EP4600 3500XL 3500XL SV2400 SV2400 SV4200 SVT4200 SVT4200 SVP5000 SVP5000 SVL5000 SVT5000 ET1500 4000XL 4000XL 5500XL 74716 74716 80023G 80023G 74716 74713 84141 84141 87117 88830G 84141 88830G 74715 84141 84141 74716 84141 84141 74713 91820 91836 74715 91836 74716 91844 74716 91844 B2998B 84141 84141 92678 24.0-29.0 24.0-29.0 23.8 23.8 24.0-29.0 24.0 11.9-14.5 11.9-14.5 23.8 23.8 11.9-14.5 23.8 23.7 11.9-14.5 11.9-14.5 24.0-29.0 11.9-14.5 11.9-14.5 24.0 19.5-23.7 21.0-27.2 23.7 21.0-27.2 24.0-29.0 24.0-29.0 24.0-29.0 24.0-29.0 3.9 11.9-14.5 11.9-14.5 9.3-12.0 OHMs 79636 79636 84292 84292 79636 77258 86757 88395 77258 89398 83540 89664 77259 89664 83540 90553 83540 83540 77258 91824 91838 77259 91838 79636 91859 84925 93585 B2926B 88395 83540 92680 Part No. 0.26/0.26 0.26/0.26 0.8 / 0.8 0.8/0.8 0.26/0.26 0.34 0.45 0.57 .48-.58/.55-.66 0.34 0.40 .38-.51/.42-.51 0.31 0.36/0.36 0.31 .38-.51/.42-.51 0.27/0.27 .38-.51/.42-.51 .38-.51/.42-.51 0.34 .33-.42/ NA .33-.39/.33-.39 0.36/0.36 .33-.39/.33-.39 0.26/0.26 .23-.29/.24-.34 0.24/0.30 .23-.29/.24-.34 2.1 .48-.58/.55-.66 .38-.51/.42-.51 .26-.32/.28-.35 1.81 1.81 2.74 2.74 1.80 2.46 3.66 2.05-3.44 2.46 2.74 1.83-2.41 2.00 1.53 2.00 1.83-2.41 1.35 1.83-2.41 1.83-2.41 2.46 2.24-3.05 1.07-1.42 1.53 1.07-1.42 1.80 1.26-1.67 1.67 1.26-1.53 4.9 2.05-3.44 1.83-2.41 2.26-2.80 0.11 /0.19 0.11 /0.19 NA NA 0.1 /0.1 0.26 0.17/0.17 .11-.16/.11-.16 0.26 0.28 / 0.28 .12-.14/.12-.14 NA NA NA .12-.14/.12-.14 NA .12-.14/.12-.14 .12-.14/.12-.14 0.26 NA NA NA NA 0.1/0.1 NA 0.12/0.20 NA NA .11-.16/.11-.16 .12-.14/.12-.14 .08-.12/.08-.12 6500XL 8000XL 10000XL 3250XP 5500XEP 5500EXL 92679 92553 92381 94997 95891 92678 10.2-12.2 8.6 14.8 20.8 17.7 9.3-12.0 92681 92350 92382 94996 95892 94980 .22-.26/.22-.26 0.18 / 0.18 0.13/0.13 0.36 0.15/0.15 .25-.32/.28-.35 1.49-1.81 2.36 1.70 1.20 1.00 1.93-2.37 .07-.11/.07/.11 0.05 / 0.05 1.75 NA NA .08-.12/.08-.12 6500EXL SVP5000E 8000EXL 10000EXL 92679 91844 92553 92381 10.2-12.2 24.0-29.0 8.6 14.8 94981 93437 94982 94983 .21-.26/.21-.26 .23-.29/.24-.34 0.20 / 0.20 0.148/0.148 1.49-1.81 1.02-1.53 1.48 1.70 .07-.11/.07-.11 .05-.10/.05-.10 0.04 / 0.03 .175 10000EXL 4000MC 5500MC 6500MC 8000MC 10000MC 4000XL B4917 84141 92678 92679 92553 92381 84141 2.95-2.95 11.9-14.5 9.3-12.0 10.2-12.2 8.6 14.8 11.9-14.5 B4910 83540 92680 92681 92350 92382 88395 .30-.30 .38-.51/.42-.51 .26-.32/.28-.35 .22-.26/.22-.26 0.18/0.18 0.13/0.13 .48-.58/.55-.66 1.1 1.83-2.41 2.26-2.80 1.49-1.81 1.48 1.70 2.05-3.44 0.082 .12-.14/.12-.14 .08-.12/.08-.12 .07-.11/.07/.11 0.05/0.05 1.75 .11-.16/.11-.16 22 3_971_7_0306.qxp 3/6/2006 04:16 PM Page 23 Section 3 Resistance Tables GENERAC Model 9816-0 9817-0 9827-0,1 9828-0 9829-0 9829-1 9830-0 9830-1 9831-0 9831-1 F09836-0 9836-0,1 9855-0,1 9856-0 9870-0 9878-0, 1 9879-0 9880-0,1,2 9882-0 9883-0 9884-0 9885-0,1,2,3 9886-0,1,2 9903-0,1 9904-0,1 Unit 4000XL 4000XL 4Kw (Troy) 6Kw (Troy) 2.4Kw 2.4Kw 4.2Kw 4.2Kw 5.0Kw 5.0Kw 3600XP 3500XEP 1850W PP5000 SVP5000 4000XL 1.5Kw 3250XE SV2400 SVP4200 SVP5000 5500XL 8000XL 6500XL 10000XL Part No. 84141 84141 84141 92679 74713 91820 74715 91836 74716 91844 B5231 95876 93705 91844 91844 84141 93705 94997 91820 91836 91844 92678 92553 92679 92381 Stator Resistance OHMs 11.9-14.5 11.9-14.5 11.9-14.5 10.2-12.2 23.83 19.5-23.7 22.15 21.0-27.2 24.0-29.0 24.0-29.0 2.36 20.3-25.3 19.2-24.8 24.0-29.0 24.0-29.0 11.9-14.5 19.2-24.8 20.8 19.5-23.7 21.0-27.2 24.0-29.0 9.3-12.0 8.6 10.2-12.2 14.8 Part No. 88395 88395 83540 92681 77258 91824 77259 91838 84925 93585 B5232 95871 93706 91859 91859 83540 93706 94996 96389 96381 91859 92680 92350 92681 92382 23 Power DPE BCW .48-.58/.55-.66 .48-.58/.55-.66 .38-.51/.42-.51 .22-.26/.22-.26 0.33 .33-.42/ NA 0.36 .33-.39/.33-.39 0.24/0.30 .23-.29/.24-.34 0.50/0.50 0.34/0.34 .78-.93/ NA .23-.29/.24-.34 .23-.29/.24-.34 .38-.51/.42-.51 .78-.93/ NA 0.36 / 0.36 .32-.39/ NA .33-.39/.33-.39 .23-.29/.24-.34 .26-.32/.28-.35 0.18 / 0.18 .22-.26/.22-.26 0.13/0.13 2.05-3.44 2.05-3.44 1.83-2.41 1.49-1.81 2.59 2.24-3.05 1.53 1.07-1.42 1.67 1.26-1.53 2.34 1.60 2.09-3.54 1.26-1.67 1.26-1.67 1.83-2.41 2.09-3.54 1.20 2.24-2.71 1.07-1.32 1.26-1.67 2.26-2.80 1.89 1.49-1.81 1.70 .11-.16/.11-.16 .12-.14/.12-.14 .14-.19/.16-.21 .07-.11/.07-.11 0.27 NA NA NA NA NA NA 0.20/0.20 .19-.40/.19-.40 NA NA .12-.14/.12-.14 .19-.40/.19-.40 1.20 NA NA NA .08-.12/.08-.12 0.05 / 0.05 .07-.11/.07/.11 1.75 GENERAC Rotor Resistance 3_971_7_0306.qxp 3/6/2006 04:16 PM Section 3 Page 24 Resistance Tables Rotor Resistance Sears CRAFTSMAN 32670 32672 32674 32676 32678 32678 32682 32839 326970 326971 326980 326990 327020 327030 327031 327040 327050 327051 327052 327053 327054 327060 327070 327070 327071 327071 327071 327072 327073 327075 327100 327101 327112 327120 327130 327140 327150 327151 327152 327160 327161 327181 327183 327190 327200 327201 327230 327240 Generac Part # 9174-0 0451-0 0452-0 0453-0 9855-0, 1 9718-0 9718-1, 2 9801-0, 1 9785-0, 1 9446-0 9446-1 9447-0 1033-0 9450-0 9083-0 9083-1 9084-0 9085-0 9085-1 9085-2 9085-3 9085-4 9086-0 9162-0 9289-0 9162-1 9289-1 9784-0, 1 9162-2 9289-2 9289-3 9218-0 9218-1 1149-0 1187-0 1188-0 1189-0 9296-0 9296-1 1150-0 1190-0 9450-1 1020-0 9067-3 10KW NG 10KW NG 1191-0 20KW NG 20KW NG 74716 91820 84141 84141 93705 74715 91836 92381 92553 74713 74713 74715 74716 74716 61798 61798 74713 68397A 68397A 74714 74714 74716 68397A 77321 77308G 77321 77308G 92553G 78389 77308G 77308G 78995 74715 91844 91820 84141 84141 75975 74713 74716 92678 74716 B1342 73163 76051 76051A 92381 75574A 75574 Stator Resistance OHMs 24.0-29.0 19.5-23.7 11.9-14.5 11.9-14.5 19.2-24.8 23.7 21.0-27.2 14.8 8.6 24.0 24.0 22.2 24.0-29.0 24.0-29.0 13.5 13.5 24.0 26.2 26.2 14.3 14.3 24.0-29.0 26.2 12.6 12.6 12.6 12.6 8.6 14.5 12.6 12.6 26.5 23.7 24.0-29.0 19.5-23.7 11.9-14.5 11.9-14.5 39.2 24.0 24.0-29.0 9.3-12.0 24.0-29.0 7.6-9.1 12.6 9.4 9.4 14.8 8.4 8.4 Part # 77257 91824 91838 83540 93706 77259 91838 94983 94982 77258 77258 84454 91859 84925 63128 63128 77258 75948 75948 77284 82875 79636 76256 77218 77260 77218 83224 92350 77218 77260 77260 78996 77259 93585 B2413 91838 83540 75970 77258 93537 92680 84925 B1897 73167 76052 76062 94983 75575 75575 24 Power DPE BCW 0.26/0.26 .33-.42/ NA .33-.39/.33-.39 .38-.51/.42-.51 .78-.93/ NA 0.36/0.36 .33-.39/.33-.39 .148/.148 0.20/0.20 0.34 0.34 0.34/0.34 .23-.29/.24-.34 0.24/0.30 0.47 0.47 0.34 0.20/0.60 0.20/0.60 0.23/0.47 0.23/0.47 0.26/0.26 0.32/0.32 0.16/0.16 0.18/0.18 0.16/0.16 0.18/0.18 0.18/0.18 0.16/0.16 0.18/0.18 0.18/0.18 0.32/0.32 0.36/0.36 .23-.29/.24-.34 .32-.39/ NA .33-.39/.33-.39 .38-.51/.42-.51 0.40 0.34 .24-.28/.24-.28 .26-.32/.28-.35 0.24/0.30 .20-.25/.20-.25 0.16/0.16 0.14/0.14 0.14/0.14 .148/.148 0.05/0.05 0.05/0.05 1.80 2.24-3.05 1.07-1.42 1.83-2.41 2.09-3.54 1.53 1.07-1.42 1.70 1.48 2.46 2.46 1.61 1.26-1.67 1.67 1.50 1.50 2.46 2.11 2.11 2.61 2.61 1.81 2.11 1.33 1.13 1.33 1.70 1.89 1.30 1.13 1.13 2.10 1.53 1.26-1.53 2.20-2.71 1.07-1.42 1.83-2.41 2.37 2.46 1.00-1.22 2.26-2.80 1.67 1.56-1.91 1.09 0.73 0.73 1.7 0.50 0.50 0.19 N/A N/A .12-.14/.12-.14 .19-.40/.19-.40 N/A N/A .17/.15 0.03/0.04 0.26 0.26 N/A N/A 0.12/0.21 0.10 0.10 0.26 0.14 0.14 0.11/0.19 0.11/0.19 0.11/0.19 N/A 0.15 0.4/0.6 0.15 N/A 0.05/0.05 0.15 0.4/0.6 0.4/0.6 N/A N/A N/A .18-.22/.18-.24 N/A .12-.14/.12-.14 N/A 0.26 .07/.07 .08-.12/.08-.12 0.12/0.21 .05-.09/.07-.11 0.06 N/A N/A .17/.15 N/A N/A 3/6/2006 04:16 PM Page 25 Section 3 Rotor Resistance Part # Resistance Tables Stator Resistance Sears Generac OHMs 327250,1,2,3 327270 327280,1,2,3,4, 5 327290,1 327700 327750 328160 328170 328171 328180 328181 328182 328182 328183 328190,1,2 328210 328220 328231 328240 328250 328251 328260 328300 328310 328320 328321 328330 328331 328331 328332 328340 328341 328341 328342 328350 328350 328351 328360 328390,1,2 328390,1 (1995) 328450 328451 328452 328910 328920 9514-0,1,2,3 0630-0 97820,1,2,3,4 9783-0,1 0647-0 1170-0 8759-0 8760-0 8760-1,2 8761-0 8747-0 8746-0 8746-1 8761-1 8762-0,1,2 8615-0 8916-0 8647-0,1 8648-0 8649-0 8649-1 8650-0 1335-0,1 8844-0 8845-0 8964-1 8846-0 8965-0 8965-1 8965-2 8847-0 8966-0 8966-1 8966-2 8892-0 9451-0 8892-1 8893-0 9374-0,1,2 9785-0,1 84141 91820 92678 11.9-14.5 19.5-23.7 9.3-12.0 92679 99687 91820 63016 61798 59600 59600 59600 59600 59600 59600 59625 59600 59625 44391J 44391K 44391S 44391S 59795 B4917 65772 65786 80022 65786A 80023 80023 74713 65786E 80024 81870 74714 68794 81870 68794 59795A 77308G 92553 9024-0 9024-1 9024-2 8495-0 8496-0 73056 80026 74716 56139 B57473 Part # Power DPE BCW 83540 91824 92680 .38-.51/.42-.51 .33-.42/ NA .26-.32/.28-.35 1.83-2.41 2.24-3.05 2.26-2.80 .12-.14/.12-.14 N/A .08-.12/.08-.12 10.2-12.2 9.8-12.2 19.5-23.7 16.0 13.5 37.5 37.5 37.5 37.5 37.5 37.5 46.0 37.5 46.0 16.3 17.9 21.4 21.4 19.4 2.95 16.2 22.7 22.7 25. 25.5 25.5 24.0 19.4 15.0 15.5 14.3 8.4 15.5 8.4 14.5 12.6 8.6 92681 99688 B2413 63017 63128 63114 63114 63114 59602 63114 63114 63120 59602 59627 44961U 44961V 44961W 44961W 50922 B4910 65794 65784 72060 2061 72061 72061 77258 67205 72062 72062 77284 68749 83260 68749 68898 77260 94982 .22-.26/.22-.26 .62-.74/ NA .32-.39/ NA 1.10 0.47 0.40 0.40 0.40 0.40 0.40 0.40 0.32/0.32 0.40 0.32/0.32 0.50/0.50 0.40/0.40 0.28/0.28 0.28/0.28 .33/.33 .03 1.70 0.52 0.52 0.30 0.30 0.30 0.34 0.22/0.43 0.22/0.43 0.22/0.43 0.23/0.47 0.28/0.20 0.26/0.26 0.20/0.28 0.16/0.16 0.18/0.18 0.20/0.20 1.49-1.81 5.82-7.05 2.20-2.71 1.32 1.50 2.50 2.50 2.50 2.50 2.50 2.50 1.95 2.50 1.95 1.80 1.30 1.20 1.20 1.20 1.1 6.40 3.20 2.35 2.14 2.14 2.14 2.46 3.68 1.76 1.76 2.61 1.88 1.76 2.6 0.88 1.13 1.48 .07-.11/.07-.11 .12-.16/.12-.16 .18-.22/.18-.24 0.22 0.10 0.12 0.12 0.12 N/A 0.12 0.12 0.08 N/A N/A 0.08 0.10 0.08 0.08 0.07 0.082 0.28 0.19 0.19 0.14 0.14 0.14 0.26 0.10 0.13 0.13 0.11 0.20 0.09/0.09 0.20 0.15 0.4/0.6 0.04/0.03 27.3 27.2 24.0-29.0 17.9 4.6 74738 74738 77257 56140 58313 0.21/0.21 0.21/0.21 0.26/0.26 0.40/0.40 0.27/0.27 1.91 1.91 1.81 1.30 1.87 N/A N/A 0.19 0.10 N/A 25 CRAFTSMAN 3_971_7_0306.qxp 3_971_7_0306.qxp 3/6/2006 04:16 PM Section 3 Page 26 Resistance Tables Rotor Resistance Sears 328930 329100 329120 329130 329140 329160 329180 329210 329610 329620 329630 329640 329650 675010 675011 675020 675030 675031 676420,1 676551 678200 678241 678420 Generac 8497-0 1533-0 1523-0 1524-0 1525-0 1526-0 1527-0 8205-0 8259-0 8260-0 8261-0 8262-0 8263-0 9114-0 9114-1 9115-0 9116-0 9116-1 0566-0, 1 0567-0,1 1133-0 1134-0 1135-0, 1 Part # B57473 187378 B2816 95876 84141 92679 B1342 44391T 44391B 44391D 44391D 44391D 44391E 61798 61798 74713 68397A 69397A 91836 92678 99687J 91820 84141 Stator Resistance OHMs 4.6 4.06 18.5-22.4 20.3-25.3 11.9-14.5 10.2-12.2 7.6-9.1 44.8 15.4 17.9 17.9 17.9 21.4 13.5 13.5 24.0 26.2 26.2 22.15 9.3-12.0 9.8-12.2 19.5-23.7 11.9-14.5 Part # 57836 187379 186953 187151 187105 92681 B1897 44961 44961T 44961V 44961V 44961V 44961W 63128 63128 74706 75948 75948 96381 92680 99688 96389 83540 CRAFTSMAN 26 Power DPE BCW 0.11/0.11 1.01 .25-.30 .33-.39/.33-.39 .38-.46/.43-.51 .22-.26/.22-.26 .20-.25-.20-.25 0.40/0.40 0.47 0.40/0.40 0.40/0.40 0.40/0.40 0.28/0.28 0.47 0.47 0.34 0.20 0.20 .33-.39/.33-.39 .26-.32/.28-.35 .62-.74/ NA .32-.39/ NA .38-.51/.42-.51 1.00 3.9 2.0-2.37 1.11-1.32 2.04-2.41 1.49-1.81 1.56-1.86 1.30 2.60 1.30 1.30 1.30 1.20 1.50 1.50 2.46 2.11 2.11 1.07-1.32 2.26-2.80 5.82-7.05 2.24-2.71 1.83-2.41 N/A 0.2 .18-.20/.14-.18 N/A .12-.14/.12-.14 .07-.11/.07-.11 .05-.09/.07-.11 0.10 0.10 0.10 0.10 0.10 0.08 0.10 0.10 0.26 0.14 0.14 N/A .08-.12/.08-.12 .12-.16/.12-.16 N/A .12-.14/.12-.14 3/6/2006 04:16 PM Page 27 Section 3 Resistance Tables Dayton Rotor Resistance Generac 8916-0 8917-0 8918-0 8919-0, 1 8920-0, 1 8921-0 8922-0 8923-0 8924-0, 1 8925-0 8926-0 8927-0 8928-0 8928-1 9160-0 9160-1 9160-2 9160-3 9163-0, 1 9163-2 9175-0 9307-0 9307-1 9308-0 9308-1 9320-0,1 9320-2 9321-0, 1 9322-0 9325-0 9396-0 9404-1 9431-0 9432-0 9433-0 9434-0 9435-0 9436-0 9437-0 9438-0 9439-0 9520-2 9540-0 9540-1, 2 9569-2 9570-2 9578-0 Dayton 5W260 5W261 5W262 4W108/A 4W109/A 5W263 4W110 4W112 4W113 4W111 4W114 4W116 4W115 4W115A 4W115A 4W115B 4W115C 4W113D 4W113A 4W113D 4W556 5W963 5W963A 5W964 5W964A 3ZC11 3ZC11B 3ZC12/A 3ZC13 3ZC14 3ZC39 3ZC4OA 3W793 3W794 3W795 3W796 3W741 3W742 4W110 4W112 3W740 3ZC11B 3W953 3W953A,B 3ZC12D 3ZC13C 3W795 Stator Resistance Part No. OHMs Part No. Power DPE BCW 67404 71745 71746 71747 68794 68784 68748 68794 59795B 68748 68748 68794 80024 74714 81870 81870 86554 86553 77308 77308G 74716 89582G 94939G 89798G 94940G 74713 91820 74715 74716 74715 74716 77308G 74712G 74713G 74715 74716 74715G 74716 74714 81870 65786 91820 84141 84141 91836 91844 74715 15.4 19.5 22.0 26.5 8.4 36.5 7.4 8.4 14.5 7.4 7.4 8.4 15.0 14.3 15.5 15.5 12.4 12.4 12.6 12.6 24.0-29.0 23.8 23.8 22.1 22.1 24.0 19.5-23.7 23.7 24.0-29.0 23.7 24.0-29.0 12.6 20.2 23.8 23.7 24.0-29.0 22.2 24.0-29.0 13.7 15.5 22.7 19.5-23.7 11.9-14.5 11.9-14.5 21.0-27.2 24.0-29.0 23.7 67406 70712 70717 70720 70726 68785A 68749A 68749C 68898 71757 68749 68749B 74102 77284 77243 83260 86552 86552 77260 77260 77257 89835 94941 77259 94938 77258 91824 77259 77257 77259 79636 77260 83992 83993 84272 79636 84272 79636 84589 83260 65784 91824 83540 83540 91838 93585 84272 1.70 0.46 0.39 0.32 0.28 0.40 0.25/0.56 0.20/0.28 0.16/0.16 0.50/1.3 0.25/0.56 0.20/0.28 0.43 .23/.47 0.22/0.43 0.26/0.26 0.33/0.33 0.33/0.33 0.18/0.18 0.18/0.18 0.26/0.26 0.33 0.33 0.36/0.36 0.34/0.34 0.34 .33-.42/ NA 0.36/0.36 0.26/0.26 0.36/0.36 0.26/0.26 0.18/0.18 0.76 0.31 0.34/0.34 0.26/0.26 0.34/0.34 0.26/0.26 0.23/0.47 0.26/0.26 .52 .33-.42/ NA .38-.51/.42-.51 .38-.51/.42-.51 .33-.39/.33-.39 .23-.29/.24-.34 0.34/0.34 6.40 1.55 1.83 2.10 1.75 2.40 2.00 21.60 0.88 2.60 2.40 2.60 1.74 2.61 1.76 1.76 1.40 1.40 1.13 1.13 1.81 2.60 2.60 1.53 1.35 2.46 2.24-3.05 1.53 1.81 1.53 1.81 1.13 2.50 2.59 1.61 1.81 1.61 1.81 2.61 1.76 3.20 2.24-3.05 1.83-2.41 1.83-2.41 1.07-1.42 1.26-1.53 1.60 N/A 0.26 0.18 0.12 0.14 N/A 0.20 0.20 0.15 0.20 N/A N/A 0.10 0.11 0.09 .09/.09 0.15 0.15 0.4/0.6 0.4/0.6 0.19 N/A N/A N/A N/A 0.26 N/A N/A 0.19 N/A 0.11/0.19 0.4/0.6 0.52 0.27/0.27 0.14/0.24 0.11 /0.19 0.14/0.24 0.11/0.19 0.11/0.19 0.09/0.09 .19 N/A .12-.14/.12-.14 .12-.14/.12-.14 N/A N/A 0.1/0.1 27 Dayton 3_971_7_0306.qxp 3_971_7_0306.qxp 3/6/2006 04:16 PM Section 3 Page 28 Resistance Tables Dayton Rotor Resistance Generac 9578-1 9579-0 9579-1 9580-0 9580-1 9651-0 9651-1 9860-0, 1 9861-0, 1 9862-0, 1 9863-0 9864-0 9868-0 Dayton 3W795B 3W796 3W796B 3W741 3W741B 5W965 5W965A 1N166 1N167 1N168 1N169 1N170 1N171 Stator Resistance Part No. OHMs 91836 74716 91844 74715G 91836 89810G 94853 92678 92679 92553 92381 93705 86553 21.0-27.2 24.0-29.0 25.6-33.3 23.7 21.0-27.2 12.3 12.3 9.3-12.0 10.2-12.2 8.6 14.8 19.2-24.8 12.4 Part No. 95343 79636 95342 84272 96658 90106 90106 94984 94985 94986 94987 93706 86552 Dayton 28 Power DPE BCW .33-.39/.33-.39 0.26/0.26 .24-.31/.24-.31 0.34/0.34 .33-.39 0.18/0.18 0.18/0.18 .27/.27 .19/.19 .20/.20 .14/.14 .78-.93/ NA 0.33/0.33 1.07-1.32 1.80 1.58-2.05 1.60 1.41-1.68 1.70 1.70 2.34 1.54 1.48 1.70 2.09-3.54 1.40 .17-.21/.15-.19 0.1/0.1 .08-.11/.10-.14 0.1/0.1 .12-.16/.09-.13 N/A N/A .07/.07 .06/.05 .03/.03 .15/.15 .19-.40/.19-.40 0.15 3/6/2006 04:16 PM Page 29 Section 3 Resistance Tables Notes 3_971_7_0306.qxp 29 3_971_7_0306.qxp 3/6/2006 04:16 PM Section 3 Page 30 Resistance Tables Notes 30 3/6/2006 03:31 PM Page 31 Section 4 Schematics & Wiring Diagrams Generac Wiring Index Model 0413-0 0415-0 0416-0 0417-0 0421-0 0435-0 0455-0 0633-0 0810-0 1006-0,1 1010-0 1011-0 1013-0 1016-0 1017-0 1019-0 1019-1,2,3 1021-0 1140-0 1140-1,2 1193-0 1194-0 1198-0 1199-0 1263-0 1277-0 1278-0 1305-0 1306-0 1311-0 1312-0 1313-0 1314-0 1315-0 1329-0 1339-0 1356-0 1470-0, 1 1642-0,1,2 1643-0 1645-0,1 1646-0,1 1647-0 1648-0 1649-0 1650-0 1652-0 Generac Unit Dayton Unit PP5000 SV2400 SVT4200 SVP5000 SVP5000E SV4200 PP5000CSA 4150XL SVP5000E MF6500 PP5000 PP5000 7500XL MF2500 MC7500 7500EXL 7500EXL 6500MF PP5000T PP5000 M2500 3000 3500XL 4000XL ET2500 BBPS SVP4800 4200 PP5000T 3000LT SVP5000 3500LW 5500LW 7500ELW SE5000 SE10000 SVP5000T 7000EXL 5500INTEK 5Kw Half Tank 4000EXL 5500INTEK 8Kw B&S 4500 HONDA 3250INTEK 10Kw HONDA 4200 HONDA Drawing # 93441 93438 93439 93441 93442 93439 96605 84249 93442 92709 93441 93441 B1412 99697 B2176 B4475 B1896 B1476 93441 J2011 99697 B2830 84249 84249 B2830 B4549 93441 93441 93441 B2830 93441 84249 92670 B4475 93441 B4486 J2011 189348 189035 93441 189188 188978 189075 189271 189171 189424 Not Shown 31 Wiring Diagram Index 4_971_7_0306.qxp 4_971_7_0306.qxp 3/6/2006 03:31 PM Section 4 Page 32 Schematics & Wiring Diagrams Generac Wiring Index Model Wiring Diagram Index 1654-0 1655-0 1656-0 1657-0 1658-0 5513-0,1 5517-0 5521-0 5526-0 5527-0 5528-0 5541-0,1 5567-0,1 8971-0,1,2,3,4 9160-0 9320-0,1,2 9321-0,1 9322-0 9325-0 9397-0 9441-1,2,3,4,5 9459-0 9460-0 9486-0 9528-0,1 9551-0 9569-0 9569-2 9570-0,1,2 9700-0 9704-0,1,2,3 9716-0,1,2 9717-0 9717-1,2 9718-0,1 9718-2 9719-0,1,2,3 9720-1,2 9777-0,1,2,3 9778-0,1,2,3 9778-4,5,6,7 9779-0,1,2,3,4 9780-0,1 9781-0,1 9785-0,1,2 9794-0,1,2 9797-0,1,2,3,4 Generac Unit Dayton Unit 5500INTEK 5500CSA 4Kw EXL CSA 7Kw EXL CSA 5Kw Half Tank S4014 S4017 S4014F S5019F S5020F S5021F C4018 S4023 S4000 4W115A 3ZC11,A,B 3ZC12A 3ZC13 3ZC14 3.0 kW C5032 3500XL S4014 S4014 C5030 EP5000 2200XL 3ZC12B,C 3ZC12D 3ZC13,B,C EP4600 3500XL SV2400 SV4200 SV4200 SVT4200 4200 SVP5000 SVT5000 4000XL 5500XL 5500XL 6500XL 8000XL 10000XL 8000 3250XP 5500EXL 32 Drawing # Not Shown Not Shown 189188 189348 189646 74122 74122 74122 74122 74122 74122 93441 74122 74122 74122 74122 74122 74122 74122 93441 84249 74122 74122 93441 93441 74122 74122 74122 74122 74122 84249 93438 91376 93439 91376 93439 93441 93439 84249 92670 92670 92670 92511 92511 95918 93439 96077 3/6/2006 03:31 PM Page 33 Section 4 Schematics & Wiring Diagrams Generac Wiring Index Model 9798-0,1,2 9799-0,1 9800-0,1 9801-0,1,2,3 9801-4,5,6,7 9801-5,6 9802-0,1 9803-0,1,2,3 9805-0,1 9807-0,1,2,3 9809-0,1,2 9829-0,1 9831-0,1 9855-0 9856-0 9864-0 9870-0 9878-0,1 9885-0,1,2,3 9886-0,1,2 9903-0,1,2 9904-0,1 Generac Unit Dayton Unit 6500EXL SVP5000E 8000EXL 10000EXL 10000EXL 10000EXL MC4000 MC5500 MC6500 MC8000 MC10000 2.4 kW 5.0 kW 1850W PP5000 1N170 SVP5000 4000XL CSA 5500XL 8000XL CSA 6500XL CSA 10000XL Drawing # 96077 93442 95918 95918 B4429 186091 93224 92709 92709 95938 95938 93438 93439 94199 93441 94199 93441 84249 96191 96230 96191 96230 Sears Wiring Index Model 32670 326740,1 326761 326782 326990 327100 327110 327120 327130 327140 327150 327160 327180 327200 327250,1,2,3 327270 328390,1,2 329120 329130 329140 329160 329180 676350,1 678200 678420 741700 Generac Unit Drawing # 0451-0 0453-0,1 9855-1 9718-2 9480-0 9218-0,1 1149-0 1187-0 1188-0 1189-0 1150-0 1190-0 1020-0 1191-0,1 9514-0,1,2,3,4 0630-0 9785-0,1,2 1523-0 1524-0 1525-0 1526-0 1527-0 0562-0,1 1133-0 1135-0 9618-0 93438 84249 94199 93439 93441 74122 94998 B2420 94998 84249 B3112 92670 B1896 B3067 84249 93438 95918 186957 187146 187006 92670 B4475 84249 99697 84249 84249 33 Wiring Diagram Index 4_971_7_0306.qxp 4_971_7_0306.qxp 3/6/2006 03:31 PM Section 4 Page 34 Schematics & Wiring Diagrams DRAWING # 74122 74122 34 Page 35 Section 4 Schematics & Wiring Diagrams DRAWING #74122 BLK WHT 2 6 11 44 74122 03:31 PM 22 3/6/2006 44 22 4_971_7_0306.qxp 35 4_971_7_0306.qxp 3/6/2006 03:31 PM Section 4 Page 36 Schematics & Wiring Diagrams DRAWING # 84249 84249 36 3/6/2006 03:32 PM Page 37 Section 4 Schematics & Wiring Diagrams DRAWING # 84249 84249 4_971_7_0306.qxp 37 4_971_7_0306.qxp 3/6/2006 03:32 PM Section 4 Page 38 Schematics & Wiring Diagrams DRAWING # 91376 91376 38 3/6/2006 03:32 PM Page 39 Section 4 Schematics & Wiring Diagrams DRAWING # 91376 91376 4_971_7_0306.qxp 39 4_971_7_0306.qxp 3/6/2006 03:32 PM Section 4 Page 40 Schematics & Wiring Diagrams DRAWING # 92511 92511 40 3/6/2006 03:32 PM Page 41 Section 4 Schematics & Wiring Diagrams DRAWING # 92511 92511 4_971_7_0306.qxp 41 4_971_7_0306.qxp 3/6/2006 03:32 PM Section 4 Page 42 Schematics & Wiring Diagrams DRAWING # 92670 92670 42 3/6/2006 03:32 PM Page 43 Section 4 Schematics & Wiring Diagrams DRAWING # 92670 92670 4_971_7_0306.qxp 43 4_971_7_0306.qxp 3/6/2006 03:33 PM Section 4 Page 44 Schematics & Wiring Diagrams DRAWING # 92709 92709 44 3/6/2006 03:33 PM Page 45 Section 4 Schematics & Wiring Diagrams DRAWING # 92709 92709 4_971_7_0306.qxp 45 4_971_7_0306.qxp 3/6/2006 03:33 PM Section 4 Page 46 Schematics & Wiring Diagrams DRAWING # 93224 93224 46 3/6/2006 03:33 PM Page 47 Section 4 Schematics & Wiring Diagrams DRAWING # 93224 93224 4_971_7_0306.qxp 47 4_971_7_0306.qxp 3/6/2006 03:33 PM Section 4 Page 48 Schematics & Wiring Diagrams DRAWING # 93438 93438 48 3/6/2006 03:34 PM Page 49 Section 4 Schematics & Wiring Diagrams DRAWING # 93439 93439 4_971_7_0306.qxp 49 4_971_7_0306.qxp 3/6/2006 03:34 PM Section 4 Page 50 Schematics & Wiring Diagrams DRAWING # 93441 93441 50 3/6/2006 03:34 PM Page 51 Section 4 Schematics & Wiring Diagrams DRAWING # 93442 93442 4_971_7_0306.qxp 51 4_971_7_0306.qxp 3/6/2006 03:34 PM Section 4 Page 52 Schematics & Wiring Diagrams DRAWING # 94199 94199 52 3/6/2006 03:34 PM Page 53 Section 4 Schematics & Wiring Diagrams DRAWING # 94199 94199 4_971_7_0306.qxp 53 4_971_7_0306.qxp 3/6/2006 03:34 PM Section 4 Page 54 Schematics & Wiring Diagrams DRAWING # 94998 94998 54 3/6/2006 03:35 PM Page 55 Section 4 Schematics & Wiring Diagrams DRAWING # 94998 94998 4_971_7_0306.qxp 55 4_971_7_0306.qxp 3/6/2006 03:35 PM Section 4 Page 56 Schematics & Wiring Diagrams DRAWING # 95918 95918 56 3/6/2006 03:35 PM Page 57 Section 4 Schematics & Wiring Diagrams DRAWING # 95918 95918 4_971_7_0306.qxp 57 4_971_7_0306.qxp 3/6/2006 03:35 PM Section 4 Page 58 Schematics & Wiring Diagrams DRAWING # 95938 95938 58 3/6/2006 03:36 PM Page 59 Section 4 Schematics & Wiring Diagrams DRAWING # 95938 95938 4_971_7_0306.qxp 59 4_971_7_0306.qxp 3/6/2006 03:36 PM Section 4 Page 60 Schematics & Wiring Diagrams DRAWING # 96077 96077 60 3/6/2006 03:36 PM Page 61 Section 4 Schematics & Wiring Diagrams DRAWING # 96077 96077 4_971_7_0306.qxp 61 4_971_7_0306.qxp 3/6/2006 03:36 PM Section 4 Page 62 Schematics & Wiring Diagrams DRAWING # 96191 96191 62 3/6/2006 03:36 PM Page 63 Section 4 Schematics & Wiring Diagrams DRAWING # 96191 96191 4_971_7_0306.qxp 63 4_971_7_0306.qxp 3/6/2006 03:37 PM Section 4 Page 64 Schematics & Wiring Diagrams DRAWING # 96230 96230 64 3/6/2006 03:37 PM Page 65 Section 4 Schematics & Wiring Diagrams DRAWING # 96230 96230 4_971_7_0306.qxp 65 4_971_7_0306.qxp 3/6/2006 03:37 PM Section 4 Page 66 Schematics & Wiring Diagrams DRAWING # 96605 (4) (1) 96605 66 3/6/2006 03:37 PM Page 67 Section 4 Schematics & Wiring Diagrams DRAWING # 96605 96605 4_971_7_0306.qxp 67 4_971_7_0306.qxp 3/6/2006 03:37 PM Section 4 Page 68 Schematics & Wiring Diagrams DRAWING # 99697 99697 68 3/6/2006 03:37 PM Page 69 Section 4 Schematics & Wiring Diagrams DRAWING # 99697 99697 4_971_7_0306.qxp 69 4_971_7_0306.qxp 3/6/2006 03:37 PM Section 4 Page 70 Schematics & Wiring Diagrams DRAWING # 186029 186029 70 3/6/2006 03:38 PM Page 71 Section 4 Schematics & Wiring Diagrams DRAWING # 186029 186029 4_971_7_0306.qxp 71 4_971_7_0306.qxp 3/6/2006 03:38 PM Section 4 Page 72 Schematics & Wiring Diagrams DRAWING #186091 186091 72 3/6/2006 03:38 PM Page 73 Section 4 Schematics & Wiring Diagrams DRAWING #186091 186091 4_971_7_0306.qxp 73 4_971_7_0306.qxp 3/6/2006 03:38 PM Section 4 Page 74 Schematics & Wiring Diagrams DRAWING # 186957 186957 74 3/6/2006 03:38 PM Page 75 Section 4 Schematics & Wiring Diagrams DRAWING # 186957 186957 4_971_7_0306.qxp 75 4_971_7_0306.qxp 3/6/2006 03:38 PM Section 4 Page 76 Schematics & Wiring Diagrams DRAWING # 187006 187006 76 3/6/2006 03:39 PM Page 77 Section 4 Schematics & Wiring Diagrams DRAWING # 187006 187006 4_971_7_0306.qxp 77 4_971_7_0306.qxp 3/6/2006 03:39 PM Section 4 Page 78 Schematics & Wiring Diagrams DRAWING # 187146 187146 78 3/6/2006 03:39 PM Page 79 Section 4 Schematics & Wiring Diagrams DRAWING # 187146 187146 4_971_7_0306.qxp 79 4_971_7_0306.qxp 3/6/2006 03:39 PM Section 4 Page 80 Schematics & Wiring Diagrams DRAWING # 187359 187359 80 3/6/2006 03:40 PM Page 81 Section 4 Schematics & Wiring Diagrams DRAWING # 187359 187359 4_971_7_0306.qxp 81 4_971_7_0306.qxp 3/6/2006 03:40 PM Section 4 Page 82 Schematics & Wiring Diagrams DRAWING # 188978 188978 82 3/6/2006 03:40 PM Page 83 Section 4 Schematics & Wiring Diagrams DRAWING # 189035 189035 4_971_7_0306.qxp 83 4_971_7_0306.qxp 3/6/2006 03:40 PM Section 4 Page 84 Schematics & Wiring Diagrams DRAWING # 189075 189075 84 3/6/2006 03:40 PM Page 85 Section 4 Schematics & Wiring Diagrams DRAWING # 189075 189075 4_971_7_0306.qxp 85 4_971_7_0306.qxp 3/6/2006 03:40 PM Section 4 Page 86 Schematics & Wiring Diagrams DRAWING # 189171 189171 86 3/6/2006 03:40 PM Page 87 Section 4 Schematics & Wiring Diagrams DRAWING # 189171 189171 4_971_7_0306.qxp 87 4_971_7_0306.qxp 3/6/2006 03:40 PM Section 4 Page 88 Schematics & Wiring Diagrams DRAWING # 189188 189188 88 3/6/2006 03:41 PM Page 89 Section 4 Schematics & Wiring Diagrams DRAWING # 189188 189188 4_971_7_0306.qxp 89 4_971_7_0306.qxp 3/6/2006 03:41 PM Section 4 Page 90 Schematics & Wiring Diagrams DRAWING # 189271 189271 90 3/6/2006 03:41 PM Page 91 Section 4 Schematics & Wiring Diagrams DRAWING # 189271 189271 4_971_7_0306.qxp 91 4_971_7_0306.qxp 3/6/2006 03:41 PM Section 4 Page 92 Schematics & Wiring Diagrams DRAWING # 189348 189348 92 3/6/2006 03:41 PM Page 93 Section 4 Schematics & Wiring Diagrams DRAWING # 189348 189348 4_971_7_0306.qxp 93 4_971_7_0306.qxp 3/6/2006 03:41 PM Section 4 Page 94 Schematics & Wiring Diagrams DRAWING # 189424 189424 94 3/6/2006 03:41 PM Page 95 Section 4 Schematics & Wiring Diagrams DRAWING # 189424 189424 4_971_7_0306.qxp 95 4_971_7_0306.qxp 3/6/2006 03:41 PM Section 4 Page 96 Schematics & Wiring Diagrams DRAWING # 189646 189646 96 3/6/2006 03:42 PM Page 97 Section 4 Schematics & Wiring Diagrams DRAWING # 189646 189646 4_971_7_0306.qxp 97 4_971_7_0306.qxp 3/6/2006 03:42 PM Section 4 Page 98 Schematics & Wiring Diagrams DRAWING # B1412 B1412 98 3/6/2006 03:42 PM Page 99 Section 4 Schematics & Wiring Diagrams DRAWING # B1412 B1412 4_971_7_0306.qxp 99 4_971_7_0306.qxp 3/6/2006 03:42 PM Section 4 Page 100 Schematics & Wiring Diagrams DRAWING # B1476 B1476 100 3/6/2006 03:42 PM Page 101 Section 4 Schematics & Wiring Diagrams DRAWING # B1476 B1476 4_971_7_0306.qxp 101 4_971_7_0306.qxp 3/6/2006 03:42 PM Section 4 Page 102 Schematics & Wiring Diagrams DRAWING # B1896 B1896 102 3/6/2006 03:42 PM Page 103 Section 4 Schematics & Wiring Diagrams DRAWING # B1896 B1896 4_971_7_0306.qxp 103 4_971_7_0306.qxp 3/6/2006 03:42 PM Section 4 Page 104 Schematics & Wiring Diagrams DRAWING # B2176 B2176 104 3/6/2006 03:42 PM Page 105 Section 4 Schematics & Wiring Diagrams DRAWING # B2176 B2176 4_971_7_0306.qxp 105 4_971_7_0306.qxp 3/6/2006 03:42 PM Section 4 Page 106 Schematics & Wiring Diagrams DRAWING # B2420 B2420 106 3/6/2006 03:43 PM Page 107 Section 4 Schematics & Wiring Diagrams DRAWING # B2420 B2420 4_971_7_0306.qxp 107 4_971_7_0306.qxp 3/6/2006 03:43 PM Section 4 Page 108 Schematics & Wiring Diagrams DRAWING # B2830 B2830 108 3/6/2006 03:43 PM Page 109 Section 4 Schematics & Wiring Diagrams DRAWING # B2830 B2830 4_971_7_0306.qxp 109 4_971_7_0306.qxp 3/6/2006 03:43 PM Section 4 Page 110 Schematics & Wiring Diagrams DRAWING # B3067 B3067 110 3/6/2006 03:43 PM Page 111 Section 4 Schematics & Wiring Diagrams DRAWING # B3067 B3067 4_971_7_0306.qxp 111 4_971_7_0306.qxp 3/6/2006 03:43 PM Section 4 Page 112 Schematics & Wiring Diagrams DRAWING # B3112 B3112 112 3/6/2006 03:43 PM Page 113 Section 4 Schematics & Wiring Diagrams DRAWING # B3112 B3112 4_971_7_0306.qxp 113 4_971_7_0306.qxp 3/6/2006 03:43 PM Section 4 Page 114 Schematics & Wiring Diagrams DRAWING # B4429 B4229 114 3/6/2006 03:43 PM Page 115 Section 4 Schematics & Wiring Diagrams DRAWING # B4429 B4429 4_971_7_0306.qxp 115 4_971_7_0306.qxp 3/6/2006 03:44 PM Section 4 Page 116 Schematics & Wiring Diagrams DRAWING # B4475 B4475 116 3/6/2006 03:44 PM Page 117 Section 4 Schematics & Wiring Diagrams DRAWING # B4475 B4475 4_971_7_0306.qxp 117 4_971_7_0306.qxp 3/6/2006 03:44 PM Section 4 Page 118 Schematics & Wiring Diagrams DRAWING # B4486 B4486 118 3/6/2006 03:44 PM Page 119 Section 4 Schematics & Wiring Diagrams DRAWING # B4486 B4486 4_971_7_0306.qxp 119 4_971_7_0306.qxp 3/6/2006 03:44 PM Section 4 Page 120 Schematics & Wiring Diagrams DRAWING # B4549 B4549 120 3/6/2006 03:44 PM Page 121 Section 4 Schematics & Wiring Diagrams DRAWING # B4549 B4549 4_971_7_0306.qxp 121 4_971_7_0306.qxp 3/6/2006 03:44 PM Section 4 Page 122 Schematics & Wiring Diagrams DRAWING # B5773 B5773 122 3/6/2006 03:44 PM Page 123 Section 4 Schematics & Wiring Diagrams DRAWING # B5773 B5773 4_971_7_0306.qxp 123 4_971_7_0306.qxp 3/6/2006 03:45 PM Section 4 Page 124 Schematics & Wiring Diagrams DRAWING # J2011 J2011 124 3/6/2006 03:45 PM Page 125 Section 4 Schematics & Wiring Diagrams DRAWING # J2011 J2011 4_971_7_0306.qxp 125 4_971_7_0306.qxp 3/6/2006 03:45 PM Section 4 Page 126 Schematics & Wiring Diagrams Notes 126 PRINTED IN THE USA PUBLICATION #87971 REV 7 September 2001 VISIT US AT: www.briggsandstratton.com Portable Generator Rotor / Stator Resistance Tables Revision 7 General Information Page 1 Troubleshooting 07:56 AM Resistance Tables 3/8/2006 We Support Technician Certification Wiring Diagram Index New Cover_0306.qxp
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