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TRUEPOINT 6500
FACTORY ACCEPTANCE
TEST PROCEDURE
IMN-907006-
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Factory Acceptance Test
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ii AVIAT NETWORKS
Factory Acceptance Test Procedure
IMN-907006-E02 Rev 03 APRIL 2010
This manual incorporates features and functions provided with the TRuepoint6500 series radio equipment.
Copyright 2010 by Aviat Networks, Inc.
All rights reserved. No part of this publication may be reproduced, transmitted, transcribed, stored in a retrievalsystem, or translated into any language or computer language, in any form or by any means, electronic, magnetic,optical, chemical, manual or otherwise, without the prior written permission of Aviat Networks Inc. To requestpermission, contact [email protected].
Warranty
Aviat Networks makes no representation or warranties with respect to the contents hereof and specificallydisclaims any implied warranties or merchantability or fitness for any particular purpose. Further, Aviat Networksreserves the right to revise this publication and to make changes from time to time in the content hereof withoutobligation of Aviat Networks to notify any person of such revision or changes.
Safety Recommendations
The following safety recommendations must be considered to avoid injuries to persons and/or damage to theequipment:
1. Installation and Service Personnel: Installation and service must be carried out by authorized personnel whohave the technical training and experience necessary to be aware of any hazardous operations duringinstallation and service, and of measures to avoid any danger to themselves, to any other personnel, and to theequipment.
2. Access to the Equipment: Access to the equipment in use must be restricted to service personnel only.
3. Safety Norms: Local safety regulations must be used if mandatory. Safety instructions in this document shouldbe used in addition to the local safety regulations. In the case of conflict between safety instructions stated inthis manual and those indicated in local regulations, mandatory local norms will prevail.
4. Service Personnel Skill: Service personnel must have received adequate technical training ontelecommunications and in particular on the equipment this manual refers to.
Trademarks
All trademarks are the property of their respective owners.
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Contact Information
Sales and Sales Support:
For sales information, contact one of the Aviat Networks headquarters, or find your regional sales office at http://www.aviatnetworks.com/contact-us/sales/.
Customer Service:
For customer service, contact one of the regional Technical Help Desks listed below.
Or you can contact your local Aviat Networks office. Contact information is available on our website at:www.aviatnetworks.com/contact-us/locations-worldwide/.
Corporate HeadquartersNorth Carolina, USA
International HeadquartersSingapore
Aviat Networks, Inc.
Research Triangle Park
637 Davis Drive
Morrisville, North Carolina 27560
United States
Phone:+ 1 919-767-3230
Fax:+ 1 919-767-3233
Aviat Networks (S) Pte. Ltd.
17, Changi Business Park Central 1
Honeywell Building, #04-01
Singapore 486073
Phone:+65 6496 0900
Fax:+ 656496 0999
Americas Technical HelpDesk
EMEA Technical Help Desk Asia Pacific Technical HelpDesk
Phone:+1 210 561 7400Toll-free in Canada/US:
+1 800 227 8332Fax: +1 210 561 7399
Phone:+44 1698 714 073
Fax: +44 1698 717 204
Phone:+63 45 599 5192
Fax: +63 45 599 5196
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iv AVIAT NETWORKS
Product Compliance Notes
TRuepoint6500 is a Class A product. In a domestic environment this product may cause interference in whichcase the user may be required to take adequate measures. This equipment is intended to be used exclusively intelecommunications centers.
TRuepoint 6500 is a point-to-point SDH digital transmission system, intended for use intelecommunication networks.
For details of where the equipment is intended to be used, refer to the country matrix below. Itshould be noted that a licence to operate this apparatus is likely to be necessary and the
appropriate regulatory administration should be contacted.
Aviat Networks intends to market this equipment where a cross (X) is shown.
Note: The information contained in this document has been gathered from the relevant government authoritiesand relates only to European countries participating in the R&TTE Directive.
European Union WEEE Directive
In accordance with the WEEE Directive (2002/96/EC), TRuepoint 6500 is marked with the following symbol:
This symbol indicates that this equipment should be collected separately for the purposes of recovery and/orrecycling. For information about collection and recycling of Aviat Networks see www.aviatnetworks.com/products/compliance/weee/or contact your local Aviat Networks sales office. If you purchased yourproduct via a distributor please contact the distributor for information regarding collection and recovery/recycling.(WEEE is the acronym for Waste electrical and electronic equipment.)
European Union RoHS Directive
The RoHS Directive (2002/95/EC) was implemented on 1 July, 2006. TRuepoint 6500 meets the requirements of thisdirective.
Austria
Belgium
Bulgaria
Cyprus
CzechRepublic
Denmark
Estonia
Finland
France
Germany
Greece
Hungary
Iceland
Ireland
Italy
Latvia
Lithuania
Luxembourg
Malta
Netherlands
Norway
Poland
Portugal
Romania
SlovakRepublic
Slovenia
Spain
Sweden
Switzerland
UnitedKingdom
4GHz (3,600 - 4,000MHz) X X X X X X X X X X X X X X X X X X X X X X X
U4GHz (3,803.5 - 4,203.5MHz X X X X X X X X X X X X X X X X X X X X X X X X X5GHz (4,400 - 5,000MHz) XL6GHz ( 5,925 - 6,175MHz) X X X X X X X X X X X X X X X X X X X X X X X X X X X X X XU6GHz (6,430 - 7,100MHz) X X X X X X X X X X X X X X X X X X X X X X X X X X X X X7GHz (7,125 - 7,725MHz) X X X X X X X X X X X X X X X X X X X X X X X X X X X X8GHz (7,725 - 8,275MHz) X X X X X X X X X X X X X X X X X X X X11GHz (10,700 - 11,700MHz) X X X X X X X X X X X X X X X X X X X X X13GHz (12,750 - 13,250MHz) X X X X X X X X X X X X X X X X X X X X X X X X X X X X X X
http://www.harrisstratex.com/about/compliance/weee/http://www.harrisstratex.com/about/compliance/weee/http://www.harrisstratex.com/about/compliance/weee/http://www.harrisstratex.com/about/compliance/weee/7/21/2019 TRuepoint 6500 Factory Acceptance Test Procedure May 2010
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FACTORY ACCEPTANCE TEST PROCEDURE
RoHS Compliance: China
TRuepoint6500 is compliant with Chinas RoHS requirements and in compliance with legislation introduced inMarch 2007. All products display the date of manufacture.
Material Disclosure Table of Hazardous Substances or Element
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FACTORY ACCEPTANCE TEST PROCEDURE
Declaration of Conformity, R&TTE Directive, 1999/5/EC
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viii AVIAT NETWORKS
WARNING
Making adjustments and/or modifications to this equipment that are not inaccordance with the provisions of this instruction manual or othersupplementary documentation may result in personal injury or damage tothe equipment, and may void the equipment warranty.
AVERTISSEMENT
Tout rglage ou modification faits cet quipement hors du cadre dictpar ce guide dutilisation ou par toute autre documentation supplmentairepourraient causer des blessures ou endommager lquipement et peutentraner lannulation de sa garantie.
WARNUNG
Die an diesen Gerten gemachte Einstellungen und/oder nderungen,welche nicht gem dieser Bedienungsanleitung, oder gem anderenzustzlichen Anleitungen, ausgefhrt werden, knnen Verletzungen oderMaterialschden zur Folge haben und eventuell die Garantie ungltigmachen.
ATENCIN
Llevar a cabo ajustamientos y/o modificaciones a este equipo, sin seguirlas instrucciones provistas por este manual u otro documento adicional,podra resultar en lesiones a su persona o daos al equipo, y anular lagaranta de este ltimo.
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IMN-907006-E02 REV 03 APRIL 2010 ix
Table of Contents
FACTORYACCEPTANCETESTPROCEDURE 1Factory Acceptance Test Items .............................................................................................................1Related Manuals ...................................................................................................................................1Test Instruments ...................................................................................................................................2Factory Acceptance Test Procedure .....................................................................................................5
Transmitter Output Power Test ......................................................................................................5Transmitter Spurious ......................................................................................................................7Transmitter Local Frequency Test................................................................................................10IF-IF Characteristics......................................................................................................................22BER Characteristics Test ..............................................................................................................26Baseband output waveform...........................................................................................................28
Radio Protection Switching (RPS) Test .........................................................................................30Orderwire (OW) Transmission Test...............................................................................................32Housekeeping function test...........................................................................................................33Rack Alarm Bus Function..............................................................................................................36Visual inspection............................................................................................................................37Stability Test of STM-1 Signal .......................................................................................................38
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TABLE OF CONTENTS
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IMN-907006-E02 REV 03 APRIL 2010 1
Factory Acceptance TestProcedure
Factory Acceptance Test Items
1. Transmitter Output Power
2. Transmitter Spurious
3. Transmitter Local Frequency
4. IF-IF Characteristics
5. BER Characteristics
6. Baseband Output Waveform
7. Radio Protection Switching (RPS)
8. Orderwire (OW) Function
9. Housekeeping (HK) Function
10. Rack Alarm Bus Function
11. Visual Inspection
12. Stability test of STM-1 Signal
NOTE:
Unless otherwise specified, all specifications are defined by thelatest R&TTE requirement, Directive 1999/5/EC.
Related Manuals
TRuepoint6500 Instruction Manual, IMN-907002-Exx
TRuepoint6500 Installation & Maintenance Manual, IMN-907003-Exx
TRuepoint6500 User Interface Manual, IMN-907004-Exx
TRuepoint6500 Test Procedure, IMN-907005-Exx
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FACTORY ACCEPTANCE TEST PROCEDURE
6 PCMChannel
Analyzer
Anritsu MS371A1 64 Kbit/s &Continuity
Fa &OF
L, T
7 SDH STM-1analyzer
Anritsu MP1570A ITU-T G.703& G.957Interfaceand G.783FormatStandards
DigitalLightwaveor SunriseSDH
622M-A1B1orSSSDHC-STM16J w/SSTM-1-13IR&SSDHCJ-SC-SM
Fa &OF
C,L, T
8 Spectrumanalyzer
Agilent HP8565F Cover radiooperatingfrequency, 4- 13 GHz, asrequired for
TX OutputSpectrumverification
Agilent HP8563EC Fa &OF
L, T
9 Oscilloscope Lecroy Waverunner6100A
Dual Trace,2 GHz forDADE & XPIC
Agilent orTektronix
Fa &OF
L, T
10 DigitalMulti-meter
Fluke 175 DC Volts,100 VDC forPowerSupply, RSL/AntennaAlignment
Fa &Fd
C,L, T
11 Fixed
attenuator(30 dB)
SMA
connectors,30 dB, Coverradiooperatingfrequency, 4- 13 GHz, asrequired forRSL,ProtectionSwitching &ATPS Setup
Agilent 11708A Fa &
Fd
C,
L, T
12 Variable RFattenuator(0 to 80 dB)
SMAconnectors,30 dB, Coverradiooperatingfrequency, 4- 13 GHz, asrequired
Agilent G382A - 3,95-5.84GHz
J382A - 5.3
-8.2GHzH382A -7-10GHz
X382A - 8,2-12.4GHz
P382A - 12.4-18GHz
Fa &Fd
C,L, T
Item#
Descrip. Factory Selection Key Specs. Alternative Loc. App.
Manuft. Model # Manuft. Model #
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Factory Acceptance Test Procedure
Transmitter Output Power TestTest Type: Station test
Test Objective: To confirm that the output power of MSTU is within thelimit
Specifications:
TX output power: +29 dBm or +32 dBm0.5 dB (ATPC: HIGH), +19 dBmor +22 dBm0.5 dB (ATPC: LOW)(+29/+19 dBm: Standard power model, +32/+22 dBm: High power model)+ 29 dBm (ATPC: HIGH)/ +19 dBm (ATPC: LOW) for 11 GHz+27 dBm (ATPC: HIGH)/ +17 dBm (ATPC: LOW) for 13 GHzMeasured at TX port on MSTU with modulated power.
Test instruments required:Power meter with sensor (EPM-442A+8481A or equivalent)Fixed attenuator (30 dB) or equivalent.PC (for WebLT)
Test set-up: Set up the test circuit as shown in Figure 1-1
Figure 1-1. Transmitter Output Power Measurement
TX port: Transmi tter output
RX: port: Main RX input
SD port: S D RX input
TX RX SD
SMA Coaxial Connector
ADPT
RF
Attenuator
Power
Sensor
Power
Meter
MSTU Adaptor
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TX Output Power Measurement Procedure:
1. Turn off the circuit power breaker on MSTU.
2. Remove the TX OUT cable.
3. Connect power meter to the SMA connector marked with TX.If the maximum range of the power meter is less than the rated output power levelof MSTU, insert fixed and calibrated attenuator between the TX output and thepower meter.
4. Turn on the circuit power breaker on MSTU.
5. Set the TX output power to HIGH.
6. Read the power meter indication.
7. Set the TX output power to LOW.
8. Read the power meter indication.
NOTE:
TX output power is specified at the MSTU output port, and themeasured value at the MSTU Adapter should be converted by thefollowing equation.TX output power = Measured value + MSTU Adapter loss
Table 1-2. MSTU Adapter Loss for Calculation
Frequency Band (GHz) TX (dB) RX (dB) SD RX (dB)
4G Type 1 (4G) 0.4 0.55 0.6
4G Type 2 (U4G) 0.4 0.55 0.6
5G Type 1 (5G) 0.45 0.65 0.7
L6G Type 1 (L6G) 0.55 0.75 0.8
U6G Type 1 (U6G) 0.55 0.8 0.85
7G Type 1/2 (L7G) 0.6 0.85 0.9
7G Type 5/7 (U7G) 0.65 0.85 0.95
7G Type 4 (W7G) 0.65 0.85 0.9
7G Type 8 (M7G) 0.6 0.85 0.9
8G Type 1 (L8G) 0.7 0.9 0.95
8G Type 2 (K8G) 0.7 0.9 0.95
11G Type 1/2 (11G) 0.8 1 1.1
13G Type 1 (13G) 0.82 1.18 1.25
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Transmitter SpuriousTest Type: Station test
Test Objective: To confirm that the TX output spurious is within thelimit.
Specifications:
Test instruments Required:Spectrum analyzer (HP8565F or equivalent)Fixed attenuator (30 dB)PC (for WebLT)
Test set-up: Set up the test circuit as shown in Figure 1-2
Frequency Band Frequency Range Specification
Out of Band 30 MHz - 21.2 GHz -60 dBm
21.2 GHz - 40 GHz -30 dBm
In band1
1. ft +/- 100 MHz is not included. (ft is the MSTU transmission frequency.)
TX side half band -60 dBm
RX side half band -90 dBm2
2. This specification is described in the current TR6500 data format whilethis value is not specified in the latest R&TTE requirement. This value isnot measured in the actual TR6500 factory testing at present. However,this value is guaranteed at the design verification level.
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Test Procedure
1. Turn off all circuit power breakers on MSTU.
2. Connect the spectrum analyzer to the duplexer (DUP) output port through the30-dB high power fixed RF attenuator.
3. Turn on the circuit power breaker of MSTU to be measured.
4. Set the transmitter output signal to CW (Carrier Wave) to stop modulation withWebLT.
5. Set the RF level of the Reference Point A to 0dBm with the variable attenuator.
6. Set the 0dBm reference line to the upper part of the spectrum analyzer.
7. Check the level of spurious displayed on the screen of the spectrum analyzer.
8. Restore the connections.
Figure 1-3. Spectrum analyzer screen
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Test Procedure
1. Preparation for measurement
a. Warm up the frequency counter at least 30 minutes before measurement.
b. The BAND SELECT SW on the frequency counter shall be set to theappropriate RF frequency range.
2. Set up the test circuit as shown in Figure 1-4.
3. Record the Transmit Local frequency and calculate its tolerance using the followingformula.Tolerance (kHz) = (Measured frequency - Specified TX LO frequency)
4. Compare the results with the following tables.
Tolerable Frequency Deviation for Specified RF bands (64QAM)
Table 1-3. 4 GHz Type 1 (4G), 64QAM - 155.52 Mbps System
Table 1-4. 5 GHz Type 1 (5G), 64QAM - 155.52 Mbps System
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz1 3620 2776 27.76
2 3660 2816 28.16
3 3700 2856 28.56
4 3740 2896 28.96
5 3780 2936 29.36
6 3820 2976 29.76
7 3860 3016 30.16
1 3940 3096 30.96
2 3980 3136 31.36
3 4020 3176 31.76
4 4060 3216 32.16
5 4100 3256 32.56
6 4140 3896 32.96
7 4180 3336 33.36
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz1 4430 3586 35.86
2 4470 3626 36.26
3 4510 3666 36.66
4 4550 3706 37.06
5 4590 3746 37.46
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Table 1-5. U6 GHz Type 1 (U6G), 64QAM - 155.52 Mbps System
6 4630 3786 37.86
7 4670 3826 38.26
1 4730 3886 38.862 4770 3926 39.26
3 4810 3966 39.66
4 4850 4006 40.06
5 4890 4046 40.46
6 4930 4086 40.86
7 4970 4126 41.26
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 6460 5616 56.16
2 6500 5656 56.56
3 6540 5696 56.96
4 6580 5736 57.36
5 6620 5776 57.76
6 6660 5816 58.16
7 6700 5856 58.56
8 6740 5896 58.96
1 6800 5956 59.56
2 6840 5996 59.96
3 6880 6036 60.36
4 6920 6076 60.76
5 6960 6116 61.16
6 7000 6156 61.56
7 7040 6196 61.96
8 7080 6236 62.36
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
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Table 1-6. 11 GHz Type 1 (11G), 64QAM - 155.52 MbpsSystem(Recommends 1.1 Main pattern)
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 10,715 9871 98.71
2 10,755 9911 99.11
3 10,795 9951 99.51
4 10,835 9991 99.91
5 10,875 10,031 100.31
6 10,915 10,071 100.71
7 10,955 10,111 101.11
8 10,995 10,151 101.51
9 11,035 10,191 101.91
10 11,075 10,231 102.31
11 11,115 10,271 102.71
12 11,155 10,311 103.11
1 11,245 10,401 104.01
2 11,285 10,441 104.41
3 11,325 10,481 104.81
4 11,365 10,521 105.21
5 11,405 10,561 105.61
6 11,445 10,601 106.01
7 11,485 10,641 106.41
8 11,525 10,681 106.81
9 11,565 10,721 107.21
10 11,605 10,761 107.61
11 11,645 10,801 108.01
12 11,685 10,841 108.41
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Table 1-7. 11 GHz Type 2 (11G A2), 64QAM - 155.52 MbpsSystem(Recommends 1.2 Second option)
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 10,735 9891 98.91
2 10,775 9931 99.31
3 10,815 9971 99.71
4 10,855 10,011 100.11
5 10,895 10,051 100.51
6 10,935 10,091 100.91
7 10,975 10,131 101.31
8 11,015 10,171 101.71
9 11,055 10,211 102.11
10 11,095 10,251 102.51
11 11,135 10,291 102.91
12 11,155 10,331 103.31
1 11,225 10,421 104.21
2 11,265 10,461 104.61
3 11,305 10,501 105.01
4 11,345 10,541 105.41
5 11,385 10,581 105.81
6 11,425 10,621 106.21
7 11,465 10,661 106.61
8 11,505 10,701 107.01
9 11,545 10,741 107.41
10 11,585 10,781 107.81
11 11,625 10,821 108.21
12 11,665 10,861 108.61
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Tolerable Frequency Deviation for Specified RF bands (128QAM)
Table 1-8. 4 GHz Type 2 (U4G), 128QAM - 155.52 Mbps System
Table 1-9. L6 GHz Type 1 (L6G), 128QAM - 155.52 Mbps System
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 3824.5 2980.5 29.8052 3853.5 3009.5 30.095
3 3882.5 3038.5 30.385
4 3911.5 3067.5 30.675
5 3940.5 3096.5 30.965
6 3969.5 3125.5 31.255
1 4037.5 3193.5 31.935
2 4066.5 3222.5 32.225
3 4095.5 3251.5 32.5154 4124.5 3280.5 32.805
5 4153.5 3309.5 33.095
6 4182.5 3338.5 33.385
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 5945.20 5101.20 51.0120
2 5974.85 5130.85 51.3085
3 6004.50 5160.50 51.6050
4 6034.15 5190.15 51.9015
5 6063.80 5219.80 52.1980
6 6093.45 5249.45 52.4945
7 6123.10 5279.10 52.7910
8 6152.75 5308.75 53.0875
1 6197.24 5353.24 53.5324
2 6226.89 5382.89 53.8289
3 6256.54 5412.54 54.12544 6286.19 5442.19 54.4219
5 6315.84 5471.84 54.7184
6 6345.49 5501.49 55.0149
7 6375.14 5531.14 55.3114
8 6404.79 5560.79 55.6079
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Table 1-10. 7 GHz Type 1 (L7G), 128QAM - 155.52 Mbps System
Table 1-11. 7 GHz Type 2 (L7G), 128QAM - 155.52 Mbps System
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 7135 6291 62.91
2 7163 6319 63.193 7191 6347 63.47
4 7219 6375 63.75
5 7247 6403 64.03
1 7296 6452 64.52
2 7324 6480 64.80
3 7352 6508 65.08
4 7380 6536 65.36
5 7408 6564 65.64
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 7142 6298 62.98
2 7170 6326 63.26
3 7198 6354 63.54
4 7226 6382 63.82
5 7254 6410 64.10
1 7296 6452 64.522 7324 6480 64.80
3 7352 6508 65.08
4 7380 6536 65.36
5 7408 6564 65.64
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Table 1-12. 7 GHz Type 4 (W7G), 128QAM - 155.52 Mbps System
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1l 7121 6277 62.77
2l 7149 6305 63.053l 7177 6333 63.33
4l 7205 6361 63.61
5l 7233 6389 63.89
1l 7317 6473 64.73
2l 7345 6501 65.01
3l 7373 6529 65.29
4l 7401 6557 65.57
5l 7429 6585 65.85
1h 7457 6613 66.13
2h 7485 6641 66.41
3h 7513 6669 66.69
4h 7541 6697 66.97
5h 7569 6725 67.25
1h 7625 6781 67.81
2h 7653 6809 68.09
3h 7681 6837 68.37
4h 7709 6865 68.65
5h 7737 6893 68.93
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Table 1-13. 7 GHz Type 5 (U7G), 128QAM - 155.52 Mbps System
Table 1-14. 7 GHz Type 7, 128QAM - 155.52 MBPS System
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 7442 6598 65.98
2 7470 6626 66.263 7498 6654 66.54
4 7526 6682 66.82
5 7554 6710 67.10
1 7596 6752 67.52
2 7624 6780 67.80
3 7652 6808 68.08
4 7680 6836 68.36
5 7708 6864 68.64
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 7442 6598 65.98
2 7470 6626 66.26
3 7498 6654 66.54
4 7526 6682 66.82
5 7554 6710 67.10
1 7603 6759 67.592 7631 6787 67.87
3 7659 6815 68.15
4 7687 6843 68.43
5 7715 6871 68.71
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Table 1-15. 7 GHz Type 8 (M7G), 128QAM - 155.52 Mbps System
Table 1-16. 8 GHz Type 1 (L8G), 128QAM - 155.52 Mbps System
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 7267 6423 64.23
2 7295 6451 64.513 7323 6479 64.79
4 7351 6507 65.07
5 7379 6535 65.35
1 7428 6584 65.84
2 7456 6612 66.12
3 7484 6640 66.40
4 7512 6668 66.68
5 7540 6696 66.96
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 7747.70 6903.70 69.0370
2 7777.35 6933.35 69.3335
3 7807.00 6963.00 69.6300
4 7836.65 6992.65 69.9265
5 7866.30 7022.30 70.2230
6 7895.95 7051.95 70.51957 7925.60 7081.60 70.8160
8 7955.25 7111.23 71.1125
1 8059.02 7215.02 72.1502
2 8088.67 7244.67 72.4467
3 8118.32 7274.32 72.7432
4 8147.97 7303.97 73.0397
5 8177.62 7333.62 73.3362
6 8207.27 7363.27 73.6327
7 8236.92 7392.92 73.9292
8 8266.57 7422.57 74.2257
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Table 1-18. 13 GHz Type 1 (13G), 128QAM - 155.52 Mbps System
RF CH No. RF Frequency (MHz) LO Frequency (MHz) Tolerance (kHz
1 12,765 11,921 119.21
2 12,793 11,949 119.493 12,821 11,977 119.77
4 12,849 12,005 120.05
5 12,877 12,033 120.33
6 12,905 12,061 120.61
7 12,933 12,089 120.89
8 12,961 12,117 121.17
1 13,031 12,187 121.87
2 13,059 12,215 122.15
3 13,087 12,243 122.43
4 13,115 12,271 122.71
5 13,143 12,299 122.99
6 13,171 12,327 123.27
7 13,199 12,355 123.55
8 13,227 12,383 123.83
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IF-IF CharacteristicsTest Type: Hop test (Diagnostic only)
Test Objective: This test is intended to measure the IF-IF characteristicsof 64/128 QAM radio equipment.
Test Instruments Required:Microwave link analyzer (ME435KM or equivalent)
Variable RF attenuatorPC (for WebLT)
Specifications:
Test set-up: See Figure 1-5
IF-IF Amplitude/Group Delay Specifications
Equipment Amplitude Group Delay Frequency Range
4G T1/5G T1/U6 T1/11G T1or T2 64 QAM
< 2.0 dB < 15 ns 70 MHz +/- 14.0MHz
4G T2/L6 T1/7G T1 or T2/
7G T8/7G T5/8G T1 or T2/13G T1 128 QAM
< 2.0 dB < 15 ns 70 MHz +/- 12.0 MHz
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Figure 1-5. IF - IF Test set up
MicrowaveLink Analyzer
(R)
MicrowaveLink Analyzer(T)
70M IN
XPIC OUT
Near END Far END
Variable RF attenuator
ATT
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Test Procedure
If Space Diversity system is applied, this test should be done for both MN receiver andSD receiver independently.
1. Change the status of RSPI to IS-MT(In Service Maintenance state) by WebLT for
both the near-end and far-end station.
2. Remove the SD RX RF input cable.
3. Operate the FMSR(Frequency Measurement) command to the near-end station.
4. Set Microwave Link Analyzer for IF-IF test.
5. Connect OUTPUT of Microwave Link Analyzer to 70M INPUT port on MSTU of thefar-end station.
6. Connect XPIC OUT of MSTU to INPUT of Microwave link analyzer.
7. Set ITEM NO rotary switch on MSTU of near-end station to B.
8. Set RX RF GAIN to adjust MN 70M OUT level to 10 dBm +/-1 dB.
9. Set the RX IF GAIN to adjust XPIC OUT level to 10 dBm +/- 1 dB.10. Measure the amplitude response characteristics.
11. Measure the group delay characteristics in the same manner.
12. Replace the SD RX RF input cable and remove the MAIN RX RF cable.
13. Measure the amplitude response characteristics and group delay characteristics forthe SD receiver in the same manner.
14. Release the FMSR(Frequency Measurement).
15. Change the status of RSPI to IS(In Service) state by WebLT for both the near-endand far-end station.
16. Repeat item 1 through item 15 for all RF channels.
Table 1-19. Set up Data for IF-IF TestsLink Analyzer TX Settings TR6500 Settings
Baseband Frequency 250 kHz TX side ALCOFF1
1. These are set by FMSR command automatically.
Deviation 250 kHz RX side AGCOFF1
Sweep width 14.0 MHz EPSOFF1
IF Frequency 70.0 MHz
IF Level -10.0 dBm
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Figure 1-6. Amplitude and Group Delay Characteristics
Y2: DELAY: 2 ns/div
MarkerMarker
SLD MRK: 14.00 MHz
IF: 10 dBmFM: 250 kHz rms, BF: 250 kHz
Y1: IF AMPL: 0.5 dB/div
Y1
Y2
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BER Characteristics TestTest Type: Hop test
Test Objective: To measure the BER Characteristics of STM-1 workingchannels
Specifications: For 64 QAM:BER=10-3or better at RSL= -74.5dBmBER=10-6 or better at RSL= -70.5dBmNote: RSL is 1 dB higher for the 11 GHz band.
For 128 QAM:BER=10-3or better at RSL= -72.0dBmBER=10-6 or better at RSL= -68.0dBmNote: RSL is 0.5 dB higher for the 8 GHz (L8GHz/K8GHz) band and 2.5 dB higher forthe 13 GHz band.
Test instruments required:STM-1 analyzer (MP1570A or equivalent)Power Meter with sensor (EPM-442A+8481D or equivalent
PC (for Web LT)Test set-up: Shown in Figure 1-7
Test Procedure
1. Set up the test circuit as shown in Figure 1-7.
2. Provisioning: IS (In-Service) for all units
3. Calibrate the RF variable attenuator (considering loss of adapter) so as to set theRSL.
NOTE:
RX receiving power is specified at the MSTU input port, and themeasured value should be converted by the MSTU adaptor loss.Refer to Table 1-2for the MSTU adaptor loss.
4. Measure the BER and confirm that the measured BER is met to the specifications.
5. In the case of the measurement of the Protection channel, turn off all circuitbreakers on the Main channels MSTU in order to switch the STM-1 signal path tothe protection channel.
6. In the case of the measurement of the Main channel, turn off the circuit breaker onthe Protection channels MSTU in order to prevent an unexpected switchingoperation.
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Baseband output waveformTest Type: Hop test
Test Objective: To measure the baseband output waveform of STM-1working channels
Specifications: Within the masks mentioned in ITU-T G703.
Test instruments required:STM-1 analyzer (MP1570A or equivalent)Oscilloscope (WaveRunner 6100A or equivalent)
Variable RF attenuator
Test set-up: Shown in Figure 1-8
Test Procedure
1. Set up the test circuit as shown in Figure 1-8
2. Provisioning: IS (In-Service) for all units
3. Measure the baseband output waveform.
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Figure 1-8. Baseband output waveform test set-up
155M
WS OUT
SDH
Analyzer
CMI OUT
WS IN
WS OUT
WS IN
BSW(M6)
TCU1
BSW
155M
CMI IN
ERConnectors
NFB
BSW(M1)
BSW(M2)
BSW(M5)
BSW(M3)
BSW(M4)
HK1
HK2
TCU2
SV
ECU1
BSW(M7)
OCCINTF
OscilloscopeSTM-1 Analyzer
SD
RX
TX
BSW(M3)
BSW(M4)
TCUX
TCUY
BSW(M1)
DUP ADPT D UP
MSTU(M2)
MSTU(M3)
MSTU(PRT)
BPF
BPF
BPF
BPF
ADPT
SV
ECU1
ECU2
MSTU(M7)
MSTU(M6)
MSTU(M4)
BSW(M7)
OCCINTF
TERMConnectors
NFB
BSW(M2)
BPF
BPF
BPF
BSW(M5)
BSW(M6)
HK1
HK2
BPF
MSTU(M1)
BPF
BPF
BPF
MSTU(M5)
BPF SD
RX
TX
BSW(M3)
BSW(M4)
TCU
X
TCUY
BSW(M1)
DU P AD PT DUP
MSTU(M2)
MSTU(M3)
MSTU(PRT)
BPF
BPF
BPF
BPF
ADPT
SV
ECU1
ECU2
MSTU(M7)
MSTU(M6)
MSTU(M4)
BSW(M7)
OCCINTF
TERMConnectors
N FB
BSW(M2)
BPF
BPF
BPF
BSW(M5)
BSW(M6)
HK1
HK2
BPF
MSTU(M1)
BPF
BPF
BPF
MSTU(M5)
BPF
Variable RF attenuator
ATT
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Radio Protection Switching (RPS) TestTest Type: Hop test
Test Objective: To check for correct operation of the Radio ProtectionSwitch function
Specification: Ensure RPS operation for the corresponding condition asfollows:1) Automatic changeover and reversion2) Manual changeover and reversion
Test instruments required:STM-1 analyzer (MP1570A or equivalent)
Variable RF attenuator (ATT)PC (for WebLT)
Test set-up: Shown in Figure 1-9
Test Procedure
1. Remove the cables of RF IN for MN and SD RX.
2. Insert the variable RF attenuator (ATT) between RF INPUT of MN RX and RFOUTPUT of RX BPF for BRU.
3. Configure the test set-up as shown in Figure 1-9.
4. Prior to commencement of testing, confirm that the transmission path is error-freecondition. (5 minutes test).
5. Increase the attenuation of the ATT slowly and confirm with WebLT that the radioprotection switching by USW has been completed.
6. Confirm that there is not error in the data measured with SDH Analyzer.
7. Decrease the attenuation of the ATT slowly and confirm with WebLT that the radio
protection switching has been restored.8. Confirm that there is not error in the data measured with SDH Analyzer.
9. Repeat steps 3 thru 8 for the other Work channels (if fitted).
10. Through WebLT, perform a manual switching by USW for WORK 1.
11. Confirm that there is not error in the data measured with SDH Analyzer.
12. Release the manual switch.
13. Confirm the switch reversion and error free.
14. Repeat steps 10 thru 13 for all Work bearers (if fitted).
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Figure 1-9. Radio Protection Switching Test Set-Up
155M
WS OUT
SDH
Analyzer
CMI OUT
WS IN
WS OUT
WS IN
BSW(M6)
TCU1
BSW
155M
CMI IN
TERMConnectors
NFB
BSW(M1)
BSW(M2)
BSW(M5)
BSW(M3)
BSW(M4)
HK1
HK2
TCU2
SV
ECU1
BSW(M7)
OCCINTF
SD
RX
TX
BSW(M3)
BSW(M4)
TCUX
TCUY
BSW(M1)
DUP ADPT D UP
MSTU(M2)
MSTU(M3)
MSTU(PRT)
BPF
BPF
BPF
BPF
ADPT
SV
ECU1
ECU2
MSTU(M7)
MSTU(M6)
MSTU(M4)
BSW(M7)
OCCINTF
TERMConnectors
NFB
BSW(M2)
BPF
BPF
BPF
BSW(M5)
BSW(M6)
HK1
HK2
BPF
MSTU(M1)
BPF
BPF
BPF
MSTU(M5)
BPF SD
RX
TX
BSW(M3)
BSW(M4)
TCU
X
TCUY
BSW(M1)
DU P AD PT DUP
MSTU(M2)
MSTU(M3)
MSTU(PRT)
BPF
BPF
BPF
BPF
ADPT
SV
ECU1
ECU2
MSTU(M7)
MSTU(M6)
MSTU(M4)
BSW(M7)
OCCINTF
TERMConnectors
N FB
BSW(M2)
BPF
BPF
BPF
BSW(M5)
BSW(M6)
HK1
HK2
BPF
MSTU(M1)
BPF
BPF
BPF
MSTU(M5)
BPF
RF VariableAttenuator
STM-1Analyzer
STM-1Analyzer
Variable RF attenuator
ATT
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Orderwire (OW) Transmission TestTest Type: Section test
Test Objective: To check the functionality of the order wire (OW)operation
Specifications: The talking with order-wire is feasible by both E1 and E2independently
Test instruments required:Telephone set
Variable RF attenuatorPC (for WebLT)
Test set-up: Set up the test circuits as shown in Figure 1-10.
Figure 1-10. OW Function Test
STM-1 Analyzer
STM-1(CM1)
STM-1 CM1 IN
I
OU
M1
I
OU
M2
BSW unit
SCSU
I
OU
M1
I
OU
M2
BSW unit
SCSU
STM-1 Analyzer
STM-1(CM1)
STM-1 CM1 IN
V a r i a b le A T T
TELEPHONEset
Attenuator
TELEPHONEset
Variable RF attenuator
ATT
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Test Procedure
1. Set up the test circuit as shown in Figure 1-10.
2. Call the station by the pressing of the station number.To call an individual station, dial #1234 (1234: An example of the station number).
To call all stations in a group, dial #12**.(12: An example of the group number).
3. Confirm that the talking with order-wire is possible by both E1 and E2independently.
Housekeeping function testTest Type: Hop test
Test Objective: To check the functionality of the housekeeping function
Specifications: The monitoring and remote control is feasible throughWebLT
Test Instruments Required:
Multi-meter (FLUKE 175 or equivalent)PC (for WebLT)
Test set-up: Shown in Figure 1-11and Figure 1-12
Test procedure
1. DI (Data Input: the monitoring function)
a. Close the DI input port.
b. Confirm that this monitoring information can be monitored with WebLT.
2. DO (Data Output: the remote control function)
a. Select the remote control item and execute it with WebLT.b. Confirm that this DO port is closed.
Figure 1-11. Housekeeping Test (1/2)
WebLT
CN34
SV fo r GP1/GP2
HK 1
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Figure 1-12. Housekeeping Function Test (2/2)
Photocoupler
DI-1
DI
DI-2
DI-3
DI-8
HK 1 (CN34)
Photocoupler
Photocoupler
Photocoupler
DO-1C
DO
DO-1N
DO-2C
DO-2N
DO-3C
DO-3N
DO-4C
DO-4N
Mult -meter
Relay
Relay
Relay
Relay
Open/Close
HK common ground
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Table 1-20. Connector PIN assignment for HK 1 (CN34)
PINNo.
Description Remarks PinNo.
Description Remarks
19
37 18
36 17
35 16
34 15
33 14 DO-4C Housekeeping OUT-4C
32 DO-4N Housekeeping OUT-4N 13 DO-3C Housekeeping OUT-3C
31 DO-3N Housekeeping OUT-3N 12 DO-2C Housekeeping OUT-2C
30 DO-2N Housekeeping OUT-2N 11 DO-1C Housekeeping OUT-1C
29 DO-1N Housekeeping OUT-1N 10 HK-Common HK Common Ground
28 HK-Common HK Common Ground 9 SDA SG Signal Ground forMonitor
27 8 SD AGC SD AGC monitor (W1)
26 7 AGC SG Signal Ground forMonitor
25 6 AGC MON AGC monitor (W1)
24 5 DI-7 Housekeeping IN-7
23 DI-8 Housekeeping IN-8 4 DI-5 Housekeeping IN-5
22 DI-6 Housekeeping IN-6 3 DI-3 Housekeeping IN-3
21 DI-4 Housekeeping IN-4 2 DI-1 Housekeeping IN-1
20 DI-2 Housekeeping IN-2 1 FG Frame Ground
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Rack Alarm Bus FunctionTest Type: Station test
Test Objective: To check the functionality of the alarm informationoutput function
Specifications: The relay contact to output the alarm information shouldbe closed at the alarm condition.
Test Instruments Required:Multi-meter (FLUKE 175 or equivalent)PC (for WebLT)
Test procedure
1. Generate any alarm.(NE ALM/RCI LED on SV unit lights in red when generated any alarm.)
2. Confirm contact closure with the multi-meter.
3. Apply closure to the ACO (Alarm Cut Off) input and confirm the ACO activation.(ACO activation is that the alarm sound generated with the buzzer in the SV unit isstopped. Relay contact remains closed.)
Figure 1-13. Rack Alarm Bus Test
Equ ipme nt Type CN n umb er Re ma rk
N+1 CN31 -
SG
COMMON
Multi-meter
ACO IN
+
RL
V
PhotoCoupler
Frame Ground
NE ALM-N
NE ALM-C
TR6500 Radio Equipment
Rack Alarm Bus Output
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Table 1-21. Rack Alarm Bus Pin Assignments and Interface Logic
Visual inspectionTest Type: Station test
Test Objective: To check whether the required units and cables are beingimplemented or not.
To check whether the painting and finish are good or not
Test Procedure:
1. Confirm that units and interconnecting cable have been installed in accordancewith the contract documentation.
2. Confirm that the painting and finish are good.
Pin No. Item Description Alarm Status Power DownStatus
1 FG Frame Ground
2
3
4
5
6
7
8 Common Alarm common
9
10
11
12 NE ALM-C NE Alarm (C) CLOSE OPEN
13 NE ALM-N NE Alarm (N) CLOSE OPEN
14 ACO IN Alarm Cut Off In Cut off = CLOSE
15 ACO IN ACO Ground Cut off = CLOSE
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Stability Test of STM-1 SignalTest Type: Hop test
Test Objective: To confirm that the STM-1 Signal output of theTRuepoint6500 radio equipment is error-free.
Specifications: Error-free
Test Instrument Required:STM-1 analyzer (MP1570A or equivalent)
Variable RF attenuator
Test Procedure
1. Perform the set up as shown in Figure 1-14and Figure 1-15.
2. The data is measured for a continuous period of 12 hours.
Figure 1-14. Stability Test of STM-1 Signal
STM-1Analyzer
W-2 (GO)
W-3 (GO)
W-2 (RTN)
W-1 (RTN)
STM-1
STM-1
LOOP BACKLOOP BACK
W-1 (GO)
W-3 (RTN)
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Figure 1-15. Stability Test Set up
SDH Analyzer
-STM-1 (CMI)
-STM-1 (CMI)
SCSU
BSW
I I WW
I
OUT
OUT
OU
SCSU
BSW
II I
OUT
OUT
OUT
WW W3
SD
RX
TX BPF
MSTU(M1)
BPF
BSW(M2)
BPF
BPF
BPF
HK1
TERMConnectors
NFB
ADPT
SV
DUP ADPT DUP
MSTU(M2)
MSTU(M3)
MSTU(PRT)
BPF
BPF
BPF
BPF
BSW(M3)
TCUX
BSW
(M1)
SD
RX
TX BPF
MSTU(M1)
BPF
BSW(M2)
BPF
BPF
BPF
HK1
TERMConnectors
N FB
ADPT
SV
D UP ADPT D UP
MSTU(M2)
MSTU(M3)
MSTU(PRT)
BPF
BPF
BPF
BPF
BSW
(M3)
TCUX
BSW(M1)
SDHAnalyzer
Variable RF attenuator
ATT
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