FOX515-FAT Test Procedures E(0)-CONTOH.pdf

March 19, 2018 | Author: Indra Utama Ichsan | Category: Power Supply, Telephone Exchange, Electronics, Telecommunications, Electrical Engineering
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Equipment / Test ReportEquipment No: FOX 515/512 Equipment Test Instruction & Factory Acceptance Test (FAT) . RIV Page ABB Saudi Arabia Ltd E 1 Equipment / Test Report Equipment No: A. Introduction A.1 Scope This test instruction covers the FOX 515/512 family of PDH/SDH multiplexers. Testing instructions are common for the whole product family. A.2 General Safety Guidelines Warning notices are provided to alert the reader to potentially hazardous situations, which may arise if the proper precautions are ignored. Caution notices are provided to alert the reader to situations where damage to equipment or interruption of service may occur if the proper precautions are ignored. To avoid risk of injury or damage to equipment, follow all of the warnings and caution notices provided in this document and on the FOX 515/512 equipment, as well as the general safety procedures established by your company. For more details on general safety guidelines, see also the following equipment handbook: FOX Technical Descriptions & User Guides Precautions and Safety. A.2.1 Optical Safety aspects The optical transmitters of the units TUPON, SYNIF, SYNIO and SYNOT comply with the requirements for a CLASS 1 LASER PRODUCT as detailed in specification EN60825-1: 1994 under both normal and single fault conditions. NEBRA, NEBRO, NEBRE, SWITE, OPTIF, SYNUF and SYN4E provide cages for SFP (Small Form factor Pluggable) modules. The compliance with the requirements for LASER CLASSES depends on the SFP brand and is specified for the SFP module. ABB recommends and re-sells only SFP modules which comply with the requirements for CLASS 1 LASER PRODUCTS as detailed in specification EN60825-1: 1994 under both normal and single fault conditions. A.2.1.1 Identification As all units with optical interfaces comply with the requirements for a CLASS 1 LASER PRODUCT, EN60825 has no requirement for warning labels to be displayed on this equipment. Fore more powerful lasers, both the laser radiation and a warning label are required to be displayed on the equipment. The following yellow explanatory label may be fixed to the equipment to define the laser classification: Doc. no. RIV Page ABB Saudi Arabia Ltd E 2 Equipment / Test Report Equipment No: A.2.2 Optical connector / fibre handling CAUTION Optical connectors Clean all optical connectors by an approved method before making any optical connection. When making an optical connection, do not rotate the optical connector unnecessarily. When not connected, fit all optical plugs and couplings with captive caps. CAUTION Damage to optical fibres When dressing fibres, take care not to exceed the minimum bend radius (typically 35 mm) and do not overtighten tyraps used for dressing as damage may result. WARNING Danger from glass chips If there is any suspicion of a glass chip in the eye, seek medical attention at once. WARNING Optical safety - automatic laser shutdown (ALS) mechanism The optical units contain link options for disabling the automatic laser shutdown mechanism for test purposes. In normal operation, ensure that the laser shutdown mechanism is enabled. A.2.3 Electrical Safety WARNING Energy hazard The 48 V d.c. supply or any voltage converter can deliver high currents. Thr DC supply can deliver high currents. Remove all rings, watches and other metal jewellery before removing cover. Do not bridge connections with tools, etc. A.2.4 Mechanical Installation WARNING Risk of personal injury Cabinets or equipments, which are not secured, may tip forwards when Doc. no. RIV Page ABB Saudi Arabia Ltd E 3 Equipment / Test Report Equipment No: handled. Do not open the hinged frame or racks without precautions. Due to the weight of the subrack, the mounting of the subrack in the rack requires two installers for safe working. A.3 Test Environment The equipment test is done in a room qualified for handling with electronic equipment. The room temperature should be within the range of 20...35°C. The ESD pr otection rules have to be obeyed. Designations and abbreviations used: Designation UCST PC W&G HP NE Element Manager Control Unit DUT Meaning Universal Configuration Software Tool Personal Computer Wandel and Goltermann, Acterna, JDSU Hewlett-Packard, Agilent Network Element, i.e. FOX 515/512 PC running UCST COBUX/COBUV Device under test A.4 Testing Equipment and Accessories Basic Test Equipment PC suitable for running UCST Version, defined in the project documentation UCST Version, as defined in the project documentation, installed on the PC Optical power level meter, 1300 nm / 1550 nm with FC, LC and E2000 plug adapter Single-Mode auxiliary optical fiber cable (launch fiber) or a short length of optical cable with integrated cladding mode stripper with an FC and E2000 plug Digital communications analyzer Data tester Analogue level generator (600Ω) and level meter Digital multimeter Adjustable DC power supply 0 V to 250 V, 1 A TEBIT Testset Testbox MK11 LAN Analyzer COBUX/COBUV cable PC-F-interface (5 m) COBUX/COBUV cable Modem-F-interface (5 m) Cable PC-COBUx: - 10BaseT (RJ45) (10 m) Cable HUB-COBUx: - 10BaseT (RJ45) (10 m) SDH Access Tester Doc. no. W&G PFA-35 or equivalent W&G DT-10 or equivalent W&G SPM-32 / PS-33 or equivalent ABB Metrawatt M2012 or equivalent Ordering # 1KHL016400R0001 Ordering # HENF468695P0001 Ordering # TSRBU 302 206/5000 Ordering # TSRBU 302 207/5000 Ordering # TSRBU 302 006/10000 Ordering # TSRBU 302 005/10000 W&G ANT-5 or equivalent RIV Page ABB Saudi Arabia Ltd E 4 no. A. Switch over on failure of one path • Synchronization • Final tests. For electrical transit connections at the 2 Mbit/s level. the corresponding configuration has been downloaded to the control unit with UCST.5 Test Preparations Before starting the equipment test. the signaling function is checked. or respectively fed into. configurations and interworking.9 Equipment Test Report A detailed equipment test report is delivered with the equipment.7 Test Depth The FOX 515/512 modules have been tested at the manufacturer’s factory. If there is no remote station available for an optical interconnection.8 Scope of Test Basically.6 Signal Terminals. Doc. the test equipment is connected to the NE modules. A. a local loop must be done. With 2-wire operation end-to-end measurements have to be done. As far as possible the test signals are looped back at the remote end of the communication channel so that the measurement can be carried out in both directions at the same time. A. Channels of tributary cards are tested in the channel list. whereby the following tests will be carried out: • Verification of the power supply • Communication Channels • Management Channel (ECC) • 1 + 1 Operation. The equipment test’s purpose is to check setup. all external interfaces are checked according to the specifications given in this instruction. Channel verification by means of a remote loop initiated by UCST is only permitted if a passive loop-back on the interface is not possible. Network islands are built up and tested separately. For the setup of the PC and UCST please refer to the FOX 512 / 512 User’s Manual. level measurements are taken and in the case of telephony channels.94 Analyzer Equipment No: W&G ANT-20 or equivalent Sunrise MTT or equivalent A. The Cross-Connect operation is checked with the end to end communication channel tests. RIV Page ABB Saudi Arabia Ltd E 5 . make sure the software required by the configuration has been delivered to the control unit • Make sure that for all NE involved in the equipment test. The Cross-Connect-function for data channels that leave the system over a 2 Mbit/s port is checked by carrying out a frame analysis of the departing / arriving 2 Mbit/s signals. A. External Cables Usually during the equipment test. the signal is checked at. Network islands may be tested individually. the associated time slot. Report respectively Certificate (FAT) In the equipment test the NE’s are connected to each other and tested as an entire network wherever possible. which is part of the project specific documentation and of the test report.Equipment / Test Report SDH Analyzer IEEE C37. For AF-channels. the following preparations have to be performed: • Build up the FOX 515/512 network according to the project documentation. • Inspect the grounding connections (chassis to cabinet frame) • Check the external power supply polarity (-48 V toward ground) • For all FOX515/512 NEs. Check: Equipment Alarm OK On/Off Doc.1 First Supply Switch off and on again the first supply. no.6 Direct 48 VDC Check: Output voltage 48 VDC ± 10 % B.g. B. external power supply unit (e.4 DC-DC Converter 24/48 VDC Feed-in: Check: Nominal input voltage Output voltage 24 VDC 48 VDC ± 10 % B.General It may be necessary to feed a FOX 515/512 equipment with a supplementary. External POWER Supplies B . The test report respectively the test certificate is written in English.7.7 Test of redundant external Power Supplies Switch off one of the redundant power supplies at a time and check alarms. RIV Page ABB Saudi Arabia Ltd E 6 .3 DC-DC Converter 48 VDC Feed-in: Check: Nominal input voltage Output voltage 48 VDC 48 VDC ± 10 % B.2 115 VAC Supply Unit Feed-in: Check: Nominal input voltage Output voltage 115 VAC 48 VDC ± 10 % B.Equipment / Test Report Equipment No: Minor configuration changes may be made during the equipment test. B.1 230 VAC Supply Unit Feed-in: Check: Nominal input voltage Output voltage 230 VAC 48 VDC ± 10 % B. AC mains supply or galvanically isolated supply) Proper operation of the primary and the external supply units must be checked.5 DC-DC Converter 125/48 VDC Feed-in: Check: Nominal input voltage Output voltage 125 VDC 48 VDC ± 10 % B. B. 1 Test of redundant Power Supplies This test can be only performed in case of a redundant configuration of the power supply. no. Basic Equipment C.1 Dual Power Feeder DUPI4 This test can be only performed if a Dual Power Feeder DUPI4 is installed. Remove one of the redundant power supplies at a time.2 Second Supply Switch off and on again the second supply. Switch off and on again the first supply.3. Check: Equipment Alarm LEDs on COBUx / Alarm text Switch off and on again the second supply. Check: Alarm LEDs COBUx On Doc.Equipment / Test Report Equipment No: B.3 Power Supply Note the power supplies installed and check with the documentation. C. Disconnect and reconnect the FANU5 power cable. RIV Page ABB Saudi Arabia Ltd E 7 .7.1 Internal Power Supply Before switching on the NE: • Check the input to the internal power supply Check: . Check: Equipment Alarm OK On/Off C.1. Check: Fan Unit Alarm LEDs on COBUx / Alarm text On On/Off C.48 V towards chassis C.2 Fan Unit FANU5 This test can be only performed if a Fan Unit FANU5 is installed. Check: Equipment Alarm LEDs on COBUx / Alarm text OK On/Off OK On/Off C. • Click on the ‘Switch Master <-> Slave’ button • After the switchover check the redundant COBUx status and the alarms list.2 Alarm Create urgent (UA) and non-urgent (NA) alarm conditions.2 / C. • Click on the ‘Switch Master <-> Slave’ button again. that means successful login. RIV Page ABB Saudi Arabia Ltd E 8 . * Partial download successful.2 Check: Ext. * Partial download fail. Alarm On C. • Select the control unit status/maintenance mask in UCST and click on the ‘Update Redundant COBUx’ button if Slave Control Unit database is not synchronized to the Master Control Unit database.4 COBUX/COBUV C.4.4.4. the following checks have to be performed: • Establish the connection to the NE with the corresponding configuration file loaded in UCST.1 Access to Multiplexer: 1) Connect the RS-232 cable with the F-interface of the COBUx and the other end directly to the serial interface of the PC running the UCST. no.5 Control Unit Redundancy For NEs configured with a redundant control unit.1.Equipment / Test Report Equipment No: C. Check: Alarm Relay Alarm LED’s COBUx On On C. • After the switchover check the redundant COBUx status and the alarms list. Doc. 4) After the login go to File and select partial download. 2) Open the UCST installed on the PC.3 External Alarm Activate the external alarm inputs if not used for DUPI4/FANU5 alarms and already tested in C. 3) Select the user class and put password for the selected uses class. C. that means fail login. 4 Ethernet Communication Channel • Perform a communication channel connectivity check according to F.Equipment / Test Report Equipment No: D.1 Optical Transmission Power D.2 Optical Transmission Power.1. Transmission Modules D.2. D.2. Doc.2.1.1.2. RIV Page ABB Saudi Arabia Ltd E 9 . Provisionally enabled 2 Mbit/s port (for later extension of a link) also have to be checked.3. no. D.2 Optical Receiver Sensitivity D.5 Alarms cause of SYN4E card Check the alarm indication according to the programming and the handling given in the equipment test report.2. test report.Electrical 2 Mbit/s Port Module D.1.1 SYNUF . D.2.1.2.1.2.3 Alarms cause of SYNUF card Check the alarm indication according to the programming and the handling given in the equipment test report.1.1.1. Therefore. Test results are mentioned in the channel list which is part of the test report. D.2.1.Optical 155 Mbit/s Port Module D. page 20 or F.2 Electrical Port Modules D.2.1 General The correct operation of the transmission channels is checked with the access interfaces.1.g.3 Optical Receiver Sensitivity D. for the optical transmission modules only functional checks are performed. 2 Mbit/s termination of a PAX or through connection to a non-FOX 515/512/FOX-U link.4.1. D.1 LOMIF . page 21.1.2.1 General If the port is used as a tributary interface the communication channel check can be made at 2 Mbit/s level for through connections or for individual 64 kbit/s channels: e. • Test According to F.Optical 155/622 Mbit/s Port Module D. 10/100BaseT/100-FX/GbE D.1.2 SYN4E .1 Installed SFP Transceivers Note the Installed SFP Transceivers in the table given in the equipment test report. 3 xDSL Modules D. E.1. RIV Page ABB Saudi Arabia Ltd E 10 .Voice Interface Module E.1.1.1 STIC1/2 – SHDSL Unit Because the STIC1/2 has no front access.2. A.2.1.3.1. D.1. the correct operation of the SHDSL signal transmission and processing is tested with the respective access interface traffic.2 Alarms cause of STIC1/2 card Check the alarm indication according to the programming and the handling given in the equipment test report.2.1 page 14 D.1 Communication Channel & Level • According to F.1.1.Electrical 2 Mbit/s Port Module D.2.2.2 LOMI4 .1.1.3 Alarms cause of LOMI4 card According toA. Tributary Modules General The operation check has only to be carried out on enabled subunits according to the project documentation.2 2 Electrical 2 Mbit/s According to 9 D.1 D.Equipment / Test Report Equipment No: D.3.2.1.1 Analog Units E.2. no.1. Only functional checks are performed.1. transported through STIC1/2.1 NEMCA / NEMSG .2. the correct operation of the transmission channels is checked with the access interfaces.2. Doc.2page 10 D. D.1 Configuration Note the configuration of the local port and information of the remote station if available.3.2 2 Electrical 2 Mbit/s If the port is used as aggregate interface. E.1 Alarm cause of LOMIF card Check the alarm indication according to the programming and the handling given in the equipment test report.1 General According to D. D.1.1.2. 1. dedicated signaling test equipment may be used.3. • Set up the connection on the channel.2 Operation with SUBHAx of the remote station • Connect the telephone exchange (EXLAN) and the subscriber set SUBHAx to the corresponding interface units. as in the case of data or protection channels. E. It is allowed to carry out a signaling function test by establishing a loop at the remote interface end.1. Check: Outputs SZ11/SZ12 (E/E') connected to GND Instead of performing the simple end to end test of the signaling channels.1.1. Check: Outputs SZ11/SZ12 (E/E') -48 V • Connect the inputs SZ21/SZ22 (M/M') of the signaling channel at the far end to GND • Check the outputs SZ11/SZ12 (E/E') at the DUT.1.2.2 Signaling Channel • Leave the inputs SZ21/SZ22 (M/M') of the signaling channel at the far end “open” • Check the outputs SZ11/SZ12 (E/E') at the DUT.1. page 15.2 Operation with EXLAN of the remotestation • Connect the telephone exchange (EXLAN/EXLA6 side) and the subscriber set (SUBLA/SUBL6 side) to the corresponding interface units. • Set up the connection on the channel. no.1.2 EXLAN . Doc. E.1.1.2.1. Check: Connection set up OK Appropriate test equipment can be used to perform this operation check instead of the telephone exchange and the subscriber set. E. E.3 SUBHx Subscriber Module with Ringing Generator E.Equipment / Test Report Equipment No: E.1.Exchange Module E. RIV Page ABB Saudi Arabia Ltd E 11 .1.1 Communication Channel & Level • According to F.1.1 Communication Channel & Level • According to F.3.1. Check: Connection set up OK Appropriate test equipment can be used to perform this operation check instead of the telephone exchange and the subscriber set. 11 channel • F. for V.1 GECOD .94 standard or ABB proprietary FOX6plus multiplexer frame (ABB TPE).1.2.2.2 Mode of operation / Configuration Note the Mode of operation.1. E. for 10/100BaseT/100-FX/GbE E.Universal Data Access Module E.1.24/V.1.1.2 DATAx .10 s.3.2.2..3.4.24/V.1 Communication Channel • Perform a communication channel connectivity check according to: F. E. E.2.1.2 Point to Multipoint Operation • Perform a communication channel connectivity check according to: • F.3 LAWA 4 E.28 channel • F.2.2 Data Units E.1.1 Communication Channel • Perform a communication channel connectivity check according to F.2.10. for each enabled subunit. E. Remark: If the test set and the NE are not synchronized from the same clock source (plesiochronous operation). for X.1.2.3. Doc.4. an octet slip will occur every 5.4 Alarms cause of LAWA 4 card Check the alarm indication according to the programming and the handling given in the equipment test report.4. With asynchronous data channels take care of the right data format.35 channel • F. no.3. E.1. This is acceptable and does not constitute a fault.2.1.1 OPTIF .2.2. for Ethernet channel (only applicable for subunit 4 with template Release 2 or higher) for each enabled subunit. E.Optical Teleprotection Module OPTIF is designed for optical remote connection to up to 4 teleprotection terminals based either on IEEE C37.3 IP Address setting Note the IP configuration of the Ethernet Port.6. for each point to multipoint channel. The correct signal transmission is tested with the operation check at the terminal level.6. for V.2.Data Interface Module E. RIV Page ABB Saudi Arabia Ltd E 12 .2.1 Communication Channel • Perform a communication channel connectivity check according to: • F.3.1..2.1.2.Equipment / Test Report Equipment No: E. Correct trip transmission for all protection applications according to project documentation Correct trip acknowledges signal output according to project documentation Check: Check: • Interrupt the trip transmission path and observe the reaction of the ‘Command Alarm Signal’ output on Protection Signal Simulator or on the Binary Signal Simulator depending on the configuration. then the correct operation of these signals has to be checked.1 Trip Applications The different trip applications (Point-to-Point.Teleprotection Binary Unit Teleprotection 1.3. Inverse T-Operation) and connections of the trip commands according to the project documentation are checked by means of the Protection Signal Simulator provided with the ‘TEBIT Testset’ (Ordering # 1KHL016400R0001). the Receive Level shall be measured using the remote equipment or the specific Sunrise MTT measuring equipment. E. command or binary signal output.4Ethernet Communication Channel • Perform a communication channel connectivity check according to F.94.3Receive Level SFP Transceivers • According to F.1.1.3. T-Operation. E.94.3.1. E. too. If according to the project documentation any trip application includes ‘Command Alarm Signals’ or ’Command Acknowledge Signals’ that are configured to an auxiliary relay.3.1.2.1.2.1 TEBIT .2Output Power SFP Transceivers • According to F.2.1. for 10/100BaseT/100-FX/GbE E. Doc.1.5Alarms cause of OPTIF card Check the alarm indication according to the programming and the handling given in the equipment test report.1. Remark: For interfaces configured as IEEE C37. the Output Power shall be measured using the specific Sunrise MTT measuring equipment. Remark: For interfaces configured as IEEE C37. . • Set and reset the commands on the Protection Signal Simulator for every protection application and observe the reaction on the other Protection Signal Simulators involved. RIV Page ABB Saudi Arabia Ltd E 13 .Equipment / Test Report Equipment No: E.4. Every enabled teleprotection command of the project has to be checked for its source and destination. no.1.1.. Important: When checking the operation of protection applications that have the ‘Cmd Duration Monitoring’ parameter enabled in the ‘Teleprotection Commands: Input Settings’. • Connect one Protection Signal Simulator to every TEBIT involved in the application that is checked • Connect one Binary Signal Simulator to every TEBIT that has ‘Command Alarm Signals’ or ’Command Acknowledge Signals’ configured to a binary signal output • Set the TEBIT parameter ‘Nominal Input Voltage’ in the ‘Teleprotection Commands: Input Settings’ to 24 V for every command involved. pay attention that all commands set for more than 5 seconds will be cut off.4.3. 3 Channel Addressing Since wrong address configuration would result in commands not being transmitted.1. 1 The given trip transfer time refers to a single NE TEBIT <-> TEBIT point to point connection. • Connect the ‘Testbox MK11’ to both ends of the teleprotection channel.1. • Select the TEBIT traffic parameter mask in UCST and check the addresses in ‘Teleprotection Command Parameters’.1. E. Every enabled binary signal of the project has to be checked for its source and destination. Every enabled teleprotection command of the project has to be checked.5 ms per through connection (TEBIT command cross connect) RIV Page Speed optimized: Security optimized: Doc.1. 48.9 1.5 ms per through connection (TEBIT command cross connect) about 2.1.1. ABB Saudi Arabia Ltd E 14 .1. 125 V for ‘Nominal Input Voltage’ 220.Equipment / Test Report Equipment No: Check: Correct command alarm output signal for all protection applications according to project documentation • Reset the TEBIT parameter ‘Nominal Input Voltage’ in the ‘Teleprotection Commands: Input Settings’ to the voltage specified by the project documentation for all the commands involved. 250 V ≤ 5 ms (speed optimized) 1 Trip transfer time ≤ 8 ms (security optimized) Check: Trip extension according to project documentation See annex M.2 Trip Transfer and Trip Extension Measurement The trip transfer and trip extension time is checked to correspond to the project specifications by means of the ‘Testbox MK11’ (Ordering # HENF468695P0001).4. no. Alternatively. the following voltages of the ‘Testbox MK11’ can be used: • • • Check: 48 V 100 V 220 V for ‘Nominal Input Voltage’ 24. Important: The ‘Testbox MK11’ does not provide all voltages for the configurable ‘Nominal Input Voltage’ parameter in the ‘Teleprotection Commands: Input Settings’. • Establish the connection to the NE with the corresponding configuration file loaded in UCST. the check for correct channel addressing is reduced to verification if addressing has been configured in UCST.2Binary Signal Transmission The different binary signal applications and connections according to the project documentation are checked by means of the Binary Signal Simulator provided with the ‘TEBIT Testset’. 1. • Connect one Binary Signal Simulator to every TEBIT involved in the application that is checked • Set and reset the binary signals on the Binary Signal Simulator for every application and observe the reaction on the other Binary Signal Simulators involved. 60 V for ‘Nominal Input Voltage’ 110. If the trip command travels through intermediate NEs the following additional propagation delay time must be added: about 1. 1 2 & 4 wire a. no.1.Equipment / Test Report Equipment No: Check: Correct signal transmission for all applications according to project documentation E.1 Interface Modules F. Cp = 115 nF real/complex according the project documentation • Apply an analogue signal with f = 1020 Hz and level according to the specification in the project documentation to the far end of the communication channel • Connect an appropriate level meter at the DUT side of the communication channel Check: Output level according to project documentation ± 1 dB F.1. RIV Page ABB Saudi Arabia Ltd E 15 .2 Test Setup DUT FOX51x DUT FOX51x dB dB Level Generator R=600 Ohm Level Meter R=600 Ohm Figure 1 Setup 4W a. F. b Applies for: EXLAN.b – NEMCA / NEMSG Doc.3 Alarms cause of TEBIT card Check the alarm indication according to the programming and the handling given in the equipment test report.1 Point-to-Point Communication Channels F. NEMCA / NEMSG and SUBHx • If applicable (see also E).1. Rp = 820 Ω.1. Communication Channels Test Specification F. connect the appropriate source and load impedance to the communication channel interface • EXLAN • SUBHx complex Rs = 220 Ω.1.1.4. 1.g. b 144 kbit/s 2B1Q & 4B3T (ISDN) Applies for: EXLIC. no. SULIS. Check: Doc. ISBUQ & EXBAT.1. F. F.1.Equipment / Test Report Equipment No: Figure 2 Setup 2W a.b – EXLAN.3 2 wire a. • Connect the 64 kbit/s port to codirectional 64 kbit/s G.703 Applies for: GECOD • Loop back the 64 kbit/s channel at the far end. SUBHx For a detailed instruction of the 2-wire Coupling Circuit configuration refer to document 1KHD626831.1.4 64 kbit/s G. Bit errors Test duration: none 30 seconds RIV Page ABB Saudi Arabia Ltd E 16 . SUBAT • Connect the ISDN telephone exchange and the ISDN telephone subscriber set to the corresponding interface unit. • Establish a call.703 PCM bit error-measuring equipment (e. • Apply a pseudo-random test pattern (211-1) to the DUT-port. W&G PFA-35). Check: Connection OK Appropriate test equipment can be used to perform this operation check instead of the telephone exchange and the subscriber set. 28 bit error measuring equipment (e.11 (X. Check: Bit errors Test duration: Doc.11) Applies for: DATAS.24/V.24/V.1.1.. W&G PFA-35).1.24/V.1.24/V. DATAR • Loop back the V. This is normal and does not constitute a fault.24/V.24/V.28 channel at the far end.11 bit error measuring equipment (e. DATA5. • Apply a pseudo-random test pattern (211-1) to the DUT-port: set the bitrate of the measuring equipment according to the configuration of the channel.1. none 30 seconds RIV Page ABB Saudi Arabia Ltd E 17 .1. an octet slip will occur every 5.24/V. • Apply a pseudo-random test pattern (211-1) to the DUT-port: set the bitrate of the measuring equipment according to the configuration of the channel.11 port to an X. DATAT • Loop back the X. DATA5.1.21/V.7 Test Setup See Figure 3 Setup BER Test F.28 port to a V..5 Test Setup DUT FOX51x DUT FOX51x loop BER Data Tester Figure 3 Setup BER Test F.1.10 s. DATA1.g.11 channel at the far end. F.28 (RS232) Applies for: DATAS. no. • Connect the X.g.8 V. Check: Bit errors Test duration: none 30 seconds F.6 X. W&G PFA-35).24/V. DATA4. • Connect the V.Equipment / Test Report Remark: Equipment No: As the test set and the NE are not synchronized from the same clock source (plesiochronous operation). 3 Voice Conference Connection The conference function has to be checked at all stations taking part. SWITE. • Apply a pseudo-random test pattern (211-1) to the DUT-port: set the bitrate of the measuring equipment according to the configuration of the channel.2 Point-to-Multipoint & Partylines F.Equipment / Test Report Equipment No: F.DATAT. SYN4E.35 bit error measuring equipment (e. either with the aid of a level measurement or by using the installed subscriber sets.35 Applies for: DATAS.1. no.2 Test Setup See Figure 3 Setup BER Test F.g.1.1.35 channel at the far end.11 Test Setup See Figure 3 Setup BER Test F. • Connect the V.35 port to a V.1. OTERM and OPTIF Doc. Check: Bit errors Test duration: none 30 s F. SYNIF.1.1. loop back the communication channel at the far end of each subsequent station.1) to the main station. NEBRA. SYNOT. NEBRO.DATAV.1.1.10 V.1 Optical Transmission Applies for: SYNIO. SYNUF.1. DATA5. F.DATAS For point to multipoint operation with several stations the correct operation has to be tested as follows: • Apply a pseudo random test pattern according to the corresponding interface in the point-to-point checks (see F.2.1. Check: Bit errors Test duration: none 30 seconds F. TUPON. NEBRE. DATAV • Loop back the V.1.2.2 Transmission Modules F.2. • Step by step. RIV Page ABB Saudi Arabia Ltd E 18 . W&G PFA-35).9 Test Setup See Figure 3 Setup BER Test F. DATA3.1 Point to Multipoint operation Applies for: DATAR. Figure 6 Test Setup Receiver Sensitivity Check 2 Check: Receive level According to the value in the test report Doc. Test is passed if the signal LED on DUT extinguishes. Figure 5 Test Setup Receiver Sensitivity Check 1 • Increase the attenuation until the output power is the min. level expected according to the value in the test report.3 Optical Receiver Sensitivity Check • Connect a variable attenuator to the optical transmitter of the remote station and measure the transmission power.2. no.Equipment / Test Report Equipment No: F.2. RIV Page ABB Saudi Arabia Ltd E 19 .1.2 Test Setup Figure 4 Transmission Power Check F. Figure 4 Transmission Power Check (Measured value plus the attenuation of the cable gives transmission power.) Check: Transmit Level According to the value in the test report F.2.1.1 Optical Transmission Power Check • Connect an optical power level meter to the optical output "OTX" via the auxiliary optical cable or mode stripping cable and measure the transmission power. Figure 5 Test Setup Receiver Sensitivity Check 1 • Connect the output of the optical attenuator to the “ORX” of the DUT.1. 2 2 Mbit/s G. • Apply a framed 2 Mbit/s signal with a 30x64 kbit/s pseudo-random test pattern (215-1) to the DUT-port.704 Applies for:. • Connect the 2 Mbit/s port to a 2 Mbit/s G.2.703/G.Equipment / Test Report Equipment No: F.1. no.2.4 Test Setup Figure 5 Test Setup Receiver Sensitivity Check 1 Figure 6 Test Setup Receiver Sensitivity Check 2 F. RIV Page ABB Saudi Arabia Ltd E 20 . LOMIF. LOMI4. Check: Bit error Test duration none 30 seconds F.704 PCM bit error-measuring equipment (e.2. W&G PFA-35).2.g.703/G.1 Test Setup See Figure 3 Setup BER Test Doc. TUPON • Loop back the 2 Mbit/s channel at the far end. Check the correct operation after the system reboot.3 2 Mbit/s G. • Apply an unframed 2 Mbit/s signal with pseudo-random test pattern (215-1) to the DUT-port.2. LEMU 6.1 Test Setup See Figure 3 Setup BER Test F.2. Switch off and on the power of minimum tow stations. Management Channel G.1 General For these tests.3. Alarms Check alarm status.703 PCM bit error-measuring equipment (e. Check the correct operation after the system reboot. W&G PFA-35). NEBRO. NEBRA.4 10/100BaseT/100-FX/GbE Applies for LAWA 4.703 Unframed (Transparent Transmission) Applies for: LOMIF. G. • Upload the NE configuration and check the alarm condition of the NE. SWITE and OPTIF Test the connection and the link capacity with an appropriate LAN analyzer. NEBRE. • Establish a connection to each station on the ECC network in turns. • Connect the 2 Mbit/s port to a 2 Mbit/s G.2 ECC • Connect the PC to the master station via F or via Qx interface. No additional Alarms should be active (except "real time lost" Alarm). RIV Page ABB Saudi Arabia Ltd E 21 . • In case of redundant ECC paths.Final Checks Boot procedure for a single station: for a network: Switch off and on the power. Depending upon the condition of the installation of the FOX 515/512 network and the attached terminal equipment. No additional Alarms should be active (except "real time lost" Alarm). G. J. TUPON • Loop back the 2 Mbit/s channel at the far end. it is possible that interface modules show alarms if no DTEs are connected.g. SYNAM. check that all paths work correctly by interrupting the others. These alarms are allowed because they will disappear on site once the DTEs will be Doc. no. LOMI4. the entire network must be connected and configured.Equipment / Test Report Equipment No: F. Check: Bit error Test duration none 30 seconds F.2. • Check the IP routing tables in the connection setup of UCST. Inventory Data Collect the Inventory data and store it into the project database.Equipment / Test Report Equipment No: connected. Naming of the configuration files shall be according to ABB standard naming conventions. UCST Configuration Save configuration files to the project drive. There may also be synchronization alarms on the control unit in the absence of external clock sources. RIV Page ABB Saudi Arabia Ltd E 22 . H. no. Customer acceptance form is part of the test report. Customer Acceptance The acceptance form is completed by ABB and the customer representative once the system test detailed in this document has been performed successfully. Doc. …………………………………………. IP Address : F UCST SW : …………………………………………. …………………………………………. Qx Doc. no. RIV Page ABB Saudi Arabia Ltd E 23 . ………………………………………….Equipment / Test Report Equipment No: FAT (Factory Acceptance Test) FOX/515 Project : ABB order N° : Station : Cubicle N° : Equipment N° : Equip. …………………………………………. follow all of the warnings and caution notices provided in this document and on the FOX 515/512 equipment. SYNUF and SYN4E provide cages for SFP (Small Form factor Pluggable) modules. NEBRE. RIV Page ABB Saudi Arabia Ltd E 24 . Caution notices are provided to alert the reader to situations where damage to equipment or interruption of service may occur if the proper precautions are ignored.1. see also the following equipment handbook: FOX Technical Descriptions & User Guides Precautions and Safety. For more details on general safety guidelines. which may arise if the proper precautions are ignored. To avoid risk of injury or damage to equipment. SWITE. NEBRO. NEBRA.1.1 General Safety Guidelines Warning notices are provided to alert the reader to potentially hazardous situations. ABB recommends and re-sells only SFP modules which comply with the requirements for CLASS 1 LASER PRODUCTS as detailed in specification EN60825-1: 1994 under both normal and single fault conditions. no. OPTIF. SYNIF. Doc.Equipment / Test Report Equipment No: A. SYNIO and SYNOT comply with the requirements for a CLASS 1 LASER PRODUCT as detailed in specification EN60825-1: 1994 under both normal and single fault conditions.2 Optical Safety aspects The optical transmitters of the units TUPON. A. as well as the general safety procedures established by your company. The compliance with the requirements for LASER CLASSES depends on the SFP brand and is specified for the SFP module. ................. ................off“ ..........4 B...............................off“ B.................. .....ok“ ...........................3 B.................7..............6 Main Supply 230 VAC Main Supply 115 VAC DC-DC Converter 48 VDC DC-DC Converter 24/48 VDC DC-DC Converter 125 VDC Direct DC 48 VDC Output Voltage Output Voltage Output Voltage Output Voltage Output Voltage Output Voltage 48 VDC 48 VDC 48 VDC 48 VDC 48 VDC 48 VDC + 10% + 10% + 10% + 10% + 10% + 10% B....1 B....ok“ ...........................5 B..........7..........7 Test of redundant external Power Supplies (Equipment is running correct on both Supplies) Switch first Supply off Switch first Supply on Equipment Alarm Alarm Equipment Alarm Alarm .......................................................................on“ ...............................................................2 Switch second Supply off Switch second Supply on Notes: ............................................................Equipment / Test Report Equipment No: B EXTERNAL POWER SUPPLIES External power supply(ies) with converter(s) B.................................................on“ ............1 B.............. REV Page ABB Saudi Arabia Ltd E 25 ...2 B......................... 5 Alarm COBUX / COBUV UA Relay Contacts on V9VK NA Relay Contacts on V9VK C.2 Fan unit FANU5 (if available) FANU5 C.1 Test of redundant Power Supplies (only if load with both Supplies < 50%) Remove Supply Alarm Remove Supply Alarm POSUM 1 COBUX/V POSUM 2 COBUX/V C.3.4 Access to Multiplexer Successful Fail C.6 Control Unit Redundancy COBUX / COBUV Redundancy switching Notes: ………………………………………………………………………………………………………………………………… ………………………………………………………………………………………………………………………………… REV Page ABB Saudi Arabia Ltd E 26 .5.48 VDC +10% C.1 Dual Power Feeder DUPI4 (if available and used) Supply 1 Supply 2 OFF OFF Alarm Alarm C.1 Alarm External Alarm ALARM_IN1 ALARM_IN2 ALARM_IN3 ALARM_IN4 C.3 Power Supply POSUM 1 POSUM 2 Slot : ….1 Internal Power Supply towards chassis .1. Normal operation C. Slot : ….Equipment / Test Report C BASIC EQUIPMENT Input Equipment No: C. .....................1 D..........................1 DSL Module DSL Port Module STIC1/2 Notes: .....................................1.............................................1..............2 Optical Port Modules Optical 155 Mbit/s Port SFP-Module Optical 155/622 Mbit/s Port Module SYNUF SYN4E D................................2 D..3........ ..2 Electrical Port Modules Electrical 8x2 Mbit/s Port Module Electrical 4x2 Mbit/s Port Module LOMIF LOMI4 D..2.....2..........................Equipment / Test Report Equipment No: D TRANSMISSION MODULES Depending on equipment assembling refer to the following test points/sheets: D.......... REV Page ABB Saudi Arabia Ltd E 27 .1 D..........................................1 D........................................3 D...................... ....................................... ........................3 Alarm functions Result No Card Alarms................... dBm .. Ok Notes expected -28 dBm -34 dBm -34 dBm -36 dBm .........1. ..........1 Optical output power Level Type of SFP module expected S-1......…..........2 (λ=1550nm) CWDM-LH CWDM-ELH -15...….............dBm ……........ Lev.......................RDI Notes: ............. 5 dBm …….1(λ=1310nm) L-1....1 (λ=1310nm) L-1........…......-8 dBm -5......................1....... Rx path cut D... ……............ REV Page ABB Saudi Arabia Ltd E 28 .................2 (λ=1550nm) X-1.2 Optical receiver sensitivity Min........….......1...... 0 dBm 0..... ...............1.. no NE-Faults Card Alarm LED active SYNUF OS .................................. Tx path cut Card Alarm LED active SYNUF MS ................….......................................... Normal operation 2.................. ..............dBm Ok D........ 0 dBm -5.. dBm ………………….... Action 1..........Equipment / Test Report D.......RDI SYNUF AU4 / VC4 .......................................…………..........………..1...............1.........Loss of Signal Check Card LED NE-Faults 3.........1 SYNUF :____ Equipment No: Slot : ____ D. ...........1(λ=1310nm) L-4..……….........................1 (λ=1310nm) -5..1.......... -28 dBm .......2 (λ=1550nm) -5.............RDI Notes: ..............dBm STM-1 CWDM-LH …....................…………........ Ok Notes expected -28 dBm …………………........ -28 dBm ....dBm …................. 0 dBm L-1........-8 dBm L-1..............1 L-4.2 X-1.. …….......….dBm ......RDI SYN4E VC4 .………...........................1......….....………..............2.........….......2. ....... ........ -28 dBm ........1.....1 L-4..2 D.........Equipment / Test Report D.............. .......-8 dBm -3..……....…...........................….2 (λ=1550nm) 0..........1... Normal operation 2.5 Alarm functions Result No Card Alarms...........2......….......2 Optical output power Level Type of SFP module expected S-1......3 Optical receiver sensitivity Min......... REV Page ABB Saudi Arabia Ltd E 29 ..........dBm ……..………. 5 dBm .........………….........................dBm Ok D............. Tx path cut P1 / P2 / P3 / P4 Card Alarm LED active SYN4E MS .......................…....4 Ethernet Communication Channel Configuration and functionality according to the project specification n..dBm ..2 / Port 1 2 3 4 CWDM -LH CWDM -ELH electrical STM-1 S-4........1(λ=1310nm) -15....……dBm …………………........ ....................2 (λ=1550nm) STM-4 CWDM-LH STM-4 CWDM-ELH -15............................2..............1 Installed SFP Transceivers Cage S-1......…….....2....dBm STM-1 CWDM-ELH S-4....... ................... -34 dBm ………………….Loss of Signal 3....... 2 dBm …..1.….............................. ...................................……….. -34 dBm ……..................1 L-1...................... Lev.. no NE-Faults P1 / P2 / P3 / P4 Check Card LED NE-Faults Card Alarm LED active SYN4E / PS . .......dBm D..…….................….....1 (λ=1310nm) L-4..........................................……............1 L-1.......... -36 dBm ……........... …...….......….....2 X-4.......2 SYN4E :____ Equipment No: Slot : ____ D..1.........……... 2 dBm -3..... a.................................…....... Rx path cut D....... 0 dBm X-1...........dBm ...........…...................... checked Action 1......…………...........2 (λ=1550nm) X-4. ..2 Electrical 2 Mbit/s Port Notes Station Name Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 Remote Station HE Nr...................................................1 LOMIF : ____ Equipment No: Slot : ____ Used as Tributary Interface Used as Aggregate Interface (Fill in this table if is used as Aggregate Interface) D..... Rx path cut D................ ..............2.............. REV Page ABB Saudi Arabia Ltd E 30 ............................2.... ............................................................ Normal operation 2................1.........................1..................................................................................Loss of Signal 3.............2.... .................. Slot Port Action 1........... no NE-Faults P1 / P5 / P2 / P6 / P3 / P7 / P4 P8 Check Card LED NE-Faults Card Alarm LED active LOMIF .............................. Tx path cut P1 / P5 / P2 / P6 / P3 / P7 / P4 P8 Card Alarm LED active LOMIF RDI LOMIF Remote Los of CAS MF LOMIF Remote non CRC4 Interworking Notes............................Equipment / Test Report D.................................................3 Alarm functions Result No Card Alarms................................................................... .............................................................Loss of Signal 3....................2.....................................2.2 LOMI4 : ____ Equipment No: Slot : ____ Used as Tributary Interface Used as Aggregate Interface (Fill in this table if is used as Aggregate Interface) D.......................... .... Normal operation 2................. no NE-Faults P1 / P2 / P3 / P4 Check Card LED NE-Faults Card Alarm LED active LOMI4 ..2 Electrical 2 Mbit/s Port Notes Station Name Port 1 Port 2 Port 3 Port 4 Remote Station HE Nr.....................................................................3 Alarm functions Result No Card Alarms....................... Tx path cut P1 / P2 / P3 / P4 Card Alarm LED active LOMI4 RDI LOMI4 Remote Los of CAS MF LOMI4 Remote non CRC4 Interworking Notes : ..................2.....Equipment / Test Report D.............................................................................................2........................... Rx path cut D............................ .. Slot Port Action 1........2...................... REV Page ABB Saudi Arabia Ltd E 31 .......................................................................... ................ secondary path interrupted End to End test on the secondary path.................... REV Page ABB Saudi Arabia Ltd E 32 .... main path interrupted 1+1 protection switching OK: YES NO REMARKS Notes: .......................................................................................................................................................................................................................................................................................Equipment / Test Report Equipment No: Automatic Switching of working and Protective for Test E1: PDH/SDH Netwoke 1+1 Operation at the E1 ( if applicable ) Check: End to End test on the main path......................................................................................... .......................................................................................................... ........... .......................................................................................1 STIC1/2 : ____ None Power Feeding Wetting Current Slot : ____ Power Mode: Port DSL 1 DSL 2 DSL 3 DSL 4 DSL 5 DSL 6 DSL 7 DSL 8 D.......3................... ............................3............................. Check Link Ok Action 1..................................LOSW Failure Notes: .......................... Normal operation 2....................................................................1 Configuration Line Rate DSL Pairs Terminal Type [kbit/s] Trunk LT/NT 2 Pairs CPE Trunk LT/NT CPE Trunk LT/NT 2 Pairs CPE Trunk LT/NT CPE Trunk LT/NT 2 Pairs CPE Trunk LT/NT CPE Trunk LT/NT 2 Pairs CPE Trunk LT/NT CPE Remote Terminal Station Name HE Nr..........................1............. .................................... no NE-Faults 1/ 5/ 2/ 6/ 3/ 7/ 4 8 Check Card LED NE-Faults Card Alarm LED active STIC1/2..2 Alarm functions Result No Card Alarms........................ DSL-x Line interrupt D...................Equipment / Test Report Equipment No: D...................1..............................3......... REV Page ABB Saudi Arabia Ltd E 33 ............................................................ ....... ....................................4 Special Units E...............3 Voice Interface Module Exchange Module Subscriber Module with Ringing Generator NEMCA / NEMSG EXLAN SUBH1/3 E...........2 E...............................................................................................3 Data Interface Module Data Interface Card PDH L2 Switch / L3 Router Module GECOD DATAx LAWA4 E......................2......4.......2 E....................1 Analog Units E.........1 E.........................................2......................1 E........... .................1 Optical Teleprotection Module N4BE OPTIF E.....1..........1 Teleportation Binary Unit TEBIT Notes: ...................1................2 Data Units E..1...................3 Optical Units E.................................................... REV Page ABB Saudi Arabia Ltd E 34 ...................................2...................3......................................Equipment / Test Report Equipment No: E TRIBUTARY MODULES Depending on equipment assembling refer to the following test points/sheets: E......... ............................................................................................... ........... E/E’ at DUT GND) Output level (expected ± 1 dB) Input level …………… dBm Frequency …………… Hz Notes: .........................................1 NEMCA/NEMSG Type: E..................................................................................................................................................... REV Page ABB Saudi Arabia Ltd E 35 .......................1........................................1. ............................................................................................................... E/E’ at DUT -48V) Channel levels Signalling Channel (M/M’ far end GND......Equipment / Test Report Equipment No: E..................................1 Communication channel & levels Configuration Relative Wires used Output level 2 2 2 2 2 2 2 2 / 4 / 4 / 4 / 4 / 4 / 4 / 4 / 4 Inc Inc Inc Inc Inc Inc Inc Inc Slot: Port used Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 CAS used Relative Input level Operation mode / Outg / Outg / Outg / Outg / Outg / Outg / Outg / Outg / Transp / Transp / Transp / Transp / Transp / Transp / Transp / Transp Port used Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 Signalling Channel (M/M’ far end open.................1.. ..............1...............................................2................Equipment / Test Report Equipment No: E..1.......................1 Communication channel & level Configuration Relative Output level Testing Output level (expected ± 1 dB) Slot: Port used Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 Port 9 Port 10 Port 11 Port 12 Relative Input level Parameters Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Metering Pulse Polarity Reversal Connection E............................2 EXLAN Type: E.......................................... .................................. Notes: ..................................................................... REV Page ABB Saudi Arabia Ltd E 36 ....2.....1................................................................................................................................... ...................................................................................................................2 Operation with SUBHx of the partner station Check according the channel list.. .3.........3 Ringing Voltage Expected Voltage 66 – 70 VAC (25Hz) Measured Voltage …………..................3...... E...............................3 SUBH<X> Type: E.1...1...............................................2 Operation with EXLAN / EXLA6 of the partner station Check according the channel list.................... ........ ................................ REV Page ABB Saudi Arabia Ltd E 37 .................................Equipment / Test Report Equipment No: E................................................................3...........................1..................................................................................................V Notes: .................................................................1.......................................................................1 Communication channel & level Configuration Relative Output level Testing Output level (expected ± 1 dB) Slot: Port used Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 Port 9 Port 10 Relative Input level Mode of Operation Connection E... ............................................................ (25Hz ± 3Hz) Notes: .............................................................................................Equipment / Test Report Point –to-Point (EOW) Telephone Test: Equipment No: PDH/SDH Netwoke Station (A) Station (B) Set up a Point-to-Point connection Off hook the Phone handset at location A and Check: Ringing voltage at the subscriber interface at station (B) Ringing Frequency 65................................................................................................................75 VAC ………….................................................................................................................................................................................................. ....................................................................... REV Page ABB Saudi Arabia Ltd E 38 ....... .... ......... Normal operation 2...................... .....................................2..... REV Page ABB Saudi Arabia Ltd E 39 ..................... slips can occur) Slot: E..........................................................................................................................................................1 GECOD Type: E........ ............................................1..............2..............................2 Data Units E........... no NE-Faults Electrical port Card Alarm (LED active) GECOD / Interface ................................. Data path cut Notes: ..............Equipment / Test Report Equipment No: E................................2 Alarms for GECOD Alarm functions Action Result No Card Alarms............................2...................................Loss of Signal Check Card LED NE-Faults 1.........1.............1 Communication channels Configuration Port used Port 1 Port 2 Port 3 Port 4 Port 5 Port 6 Port 7 Port 8 CAS used Parameters Input octet timing monitored Output octet timing removed Input octet timing monitored Output octet timing removed Input octet timing monitored Output octet timing removed Input octet timing monitored Output octet timing removed Input octet timing monitored Output octet timing removed Input octet timing monitored Output octet timing removed Input octet timing monitored Output octet timing removed Input octet timing monitored Output octet timing removed Testing Connection (no bit errors.................. ............................................................................................. ........3 Alarms for DATAx Alarm functions Action 1.....2.......... Data path cut Result No Card Alarms...... .............Loss of Data Signal T (Depending on configuration) Check Card LED NE-Faults Notes: ......2................................................2..............................................2....Equipment / Test Report Equipment No: E.................... no NE-Faults Electrical Interface Card Alarm (LED active) DATAx / Interface ................... E.................2 DATAx Type: F................................................................................2.....................................2...............................................................2.................1 Communication channel settings & test Configuration Mode User Data Rate Testing Connection Slot: Interface used Interface 1 Interface 2 Interface 3 Interface 4 Type Signaling E.......2 Point to multipoint operation Check the channels according the channel list......... Normal operation 2.................... REV Page ABB Saudi Arabia Ltd E 40 ........... ........................2 IP Address setting IP Address Mask E.............3 Functionality Check Connect all test equipment to LAWA4 cards over 10BaseT plugs in all stations............... Test the link to the connected test equipment sending ping commands or generating traffic flow............ Interrupt traffic Notes:......................... no NE-Faults Card Alarm (lower LED active) Protocol Down Check Card LED NE-Faults 1...............................4 Alarm functions Result No Card Alarms.... Slot Connected Stations Board IP Test Equipment Address IP Address Mask Ok Action E.........................2...Equipment / Test Report Equipment No: E................................................... ............................2..............................................................................................2.........3.................................2........................... ............. Test Equipment Local Station Remote Station Station HE Nr...........3......... REV Page ABB Saudi Arabia Ltd E 41 ....... Normal operation 2.....2...................3....3 LAWA4 : ____ Slot : ____ E....................................... ........1 Mode of operation / Configuration Basic Functions Bridging IP Routing Frame Relay Unit Mode 10BaseT Front access Backplane access Unit Options IP OSPF V2 Routing IP Quality of Service E..........................3........ ........3..-13 dBm without optical attenuator: -9...........3 Optical receiver sensitivity Min..………...... ...........3..............1.... REV Page ABB Saudi Arabia Ltd E 42 ........ Interrupt traffic X5......... no NE-Faults X1 / X2 / X3 / X4 n.3..........................................Loss of Signal 3........ ............................….....5... Ok Notes expected -24 dBm ……………………………......... …………………………….... Ok ABB TPE (λ=1310nm) …………………………… ……….1 / X5.............................4 Ethernet Communication Channel Configuration and functionality according to the project specification E....………..........94 (λ=850nm) N = ___ (1…12) Terminated or Transparent with 10dB optical attenuator: -19................. checked Action 1. a.................-3 dBm -15......3... ……………………………... E.......…… …………..............………………………...... 2Mb/s 850nm MM 2km (for IEEE C37..........5 Alarm functions Result No Card Alarms............................................... ....... -8 dBm -34 dBm …………..... Tx path cut X1 / X2 / X3 / X4 Card Alarm (right LED active) OPTIF / Interface – Remote Defect Indication 4..... Rx path cut Check Card LED NE-Faults Card Alarm (right LED active) OPTIF / Interface ..........................................................Equipment / Test Report Equipment No: E. Lev......1... .........5......1.....1 Installed SFP Transceivers Cage / Port 1 2 3 4 5 E............ ……………………………...…............…....2 Optical output power Level Type of SFP module expected IEEE C37.………… E.........1 OPTIF : 806 Type : N4BE Slot : ____ E......3....94) 2Mb/s 1310nm SM 30km (for FOX6plus compatible ABB TPE) ……………………………… ……………………………… ………………………………........1.....1.....2 Card Alarm (right LED active) OPTIF / Ethernet – Link Down Notes: ..3... Normal operation 2........... ........................4....................... Relays Function (V9UK) Aux-1 Aux-2 REV Page ABB Saudi Arabia Ltd E 43 .................... ...........................................................Equipment / Test Report E...........................................................................................................1 TEBIT : 805 Type : N4BD Slot : ____ Equipment No: Cmd Input 1 2 3 4 SbU E...4.............. ..........3 Alarm functions Result No Card Alarms.............. Loop Test Command 1 passed Command 2 passed Command 3 passed Command 4 passed 3..........................4....... Traffic path cut Card Alarm LED active Loss of Transmission Block Error Rate > 1E-2 Loop Test Command 1 failed Loop Test Command 2 failed Loop Test Command 3 failed Loop Test Command 4 failed 4.....................................1..............1........1................................................ no NE-Faults Configuration SbU Teleprotection-1 SbU Teleprotection-2 SbU Binary Signals-1 SbU Binary Signals-2 Check Card LED NE-Faults 2...... .......1 Teleprotection Command Parameters Trans.....4.......... Normal operation E....... Trip Voltage[VDC] [ms] Time[ms] Notes Cmd Input 1 2 3 4 5 6 7 8 SbU Test E............ Action 1. Time Prolong...............................2 Binary Signals Notes .......... ..................................................................................... ......Equipment / Test Report F................. REV Page ABB Saudi Arabia Ltd E 44 ...................................................................................................................................................................................................................................................................... MANAGEMENT CHANNE Equipment No: IP address ………………………… ECC-Function Remote ECC Connected via Access F-Interface Qx Router Interface Notes: .......... ................................................................................................................................................ ............Equipment / Test Report Equipment No: G................................ The test results are shown either there or in the channel list................. G...................... Communication Channels Test Specification G................................................................................ J FINAL CHECK Boot procedure Check the single station boot procedure Check the network boot procedure (switch off the power of one station) (switch off the power of minimum two stations) Notes: ......Access Modules..................................................... REV Page ABB Saudi Arabia Ltd E 45 ....................... ............2 Transmission Modules The items of this section describe the tests mentioned in section D – Transmission Modules....... The test results are shown either there or in the channel list................................................................................. 1 Interface Modules The items of this section describe the tests mentioned in section E ............ .… ____________________________ REV Page ABB Saudi Arabia Ltd E 46 ..….. …………………. Testfield Department Date: Test Engineer: Supervisor: ABB SAUDI ARABIA Ltd PSN ……………… _____________________________ _____________________________ FAT Witnessed Date: _____________________________ Engineer: _____________________________ …………………………………………….… _____________________________ …………………….….…… Date: ......……….CUSTOMER ACCEPTANCE Equipment No: The acceptance form is completed by ABB and the customer representative once all equipment tests detailed in this document have been performed successfully.Equipment / Test Report L ....… Date: .… _____________________________ _____________________________ ………………….………..… Date: .……….….… _____________________________ ……………………...….… _____________________________ …………………….…… Date: .………..…. Customer acceptance form is part of the test report.… Date: .………...
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