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Alcatel-Lucent 9500MICROWAVE PACKET RADIO for ANSI | RELEASE 4.2.0Indoor: MSS-8/MSS-4/MSS-1/MPT-HL
Outdoor: ODU300/MPT-HC/MPT-XP/9558HC
Alcatel-Lucent ProprietaryThis document contains proprietary information of Alcatel-Lucent and is not to be disclosedor used except in accordance with applicable agreements.Copyright 2013 Alcatel-Lucent. All rights reserved.
Main Documentation
Turn-up
Turn-up
3EM23955AMAA Edition 01
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Alcatel-Lucent assumes no responsibility for the accuracy of the information presented, which is subject to change
without notice.
Alcatel, Lucent, Alcatel-Lucent and the Alcatel-Lucent logo are trademarks of Alcatel-Lucent. All other trademarksare the property of their respective owners.
Copyright 2013 Alcatel-Lucent.
All rights reserved.
Disclaimers
Alcatel-Lucent products are intended for commercial uses. Without the appropriate network design engineering,
they must not be sold, licensed or otherwise distributed for use in any hazardous environments requiring fail-safe
performance, such as in the operation of nuclear facilities, aircraft navigation or communication systems, air traffic
control, direct life-support machines, or weapons systems, in which the failure of products could lead directly to
death, personal injury, or severe physical or environmental damage. The customer hereby agrees that the use, sale,
license or other distribution of the products for any such application without the prior written consent of Alcatel-
Lucent, shall be at the customer's sole risk. The customer hereby agrees to defend and hold Alcatel-Lucent harmless
from any claims for loss, cost, damage, expense or liability that may arise out of or in connection with the use, sale,
license or other distribution of the products in such applications.
This document may contain information regarding the use and installation of non-Alcatel-Lucent products. Please
note that this information is provided as a courtesy to assist you. While Alcatel-Lucent tries to ensure that this
information accurately reflects information provided by the supplier, please refer to the materials provided with any
non-Alcatel-Lucent product and contact the supplier for confirmation. Alcatel-Lucent assumes no responsibility or
liability for incorrect or incomplete information provided about non-Alcatel-Lucent products.
However, this does not constitute a representation or warranty. The warranties provided for Alcatel-Lucent products,if any, are set forth in contractual documentation entered into by Alcatel-Lucent and its customers.
This document was originally written in English. If there is any conflict or inconsistency between the English
version and any other version of a document, the English version shall prevail.
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!Alcatel-Lucent 2013 - All Rights ReservedPrinted in U.S.A.
THIS PRODUCT COMPLIES WITH D.H.H.S. RADIATION PERFORMANCE STANDARDS 21
CFR, 1040.10, FOR A CLASS 1 LASER PRODUCT.
DANGER
Invisible laser radiation is present when the optic connector is open. AVOID DIRECT
EXPOSURE TO BEAM.
WARNING
This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant
to Part 15 of the FCC Rules. These limits are designed to provide reasonable protection against harmful
interference when the equipment is operated in a commercial environment. This equipment generates,
uses, and can radiate radio frequency energy and, if not installed and used in accordance with the
instruction manual, may cause harmful interference to radio communications. Operation of this equipment
in a residential area is likely to cause harmful interference in which case users will be required to correct the
interference at their own expense.
NOTICE
This manual applies to 9500 MPR-A R4.2.0 software. Release notes describing revisions to this software
may impact operations described in this manual.
This transfer of commodities, technology, or software, if from the United States, is an export in accordance
with the U.S. Export Administration Regulations. Diversion contrary to U.S. law is prohibited. The export or
re-export (further transfer) of such commodities, technology, software or products made from such
technology is prohibited without proper authorization(s) from the U.S. Department of Commerce or other
appropriate U.S. government agencies.
All rights reserved. No part of this manual may be reproduced, translated, stored in a retrieval system, or
transmitted or distributed by any means, electronic or mechanical, by photocopying, recording, or otherwise,
without the written permission of Alcatel-Lucent. Preparing derivative works or providing instruction basedon the material is prohibited unless agreed to in writing by Alcatel-Lucent.
The product specification and/or performance levels contained in this document are for information
purposes only and are subject to change without notice. They do not represent any obligation on the part of
Alcatel-Lucent. Such obligations will only be committed to in a written sales agreement signed by
Alcatel-Lucent.
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!Alcatel-Lucent USA 2013 - All Rights ReservedPrinted in U.S.A.
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3EM23955AMIssue 01, February 2013
Alcatel-Lucent 2013 - All Rights Reserved i
ALCATEL-LUCENT PRACTICEStandard
Table of Contents
FCC part 15 subpart B
1. 9500 MPR-A unlicensed radio. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
FCC Class B compliance statement. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
FCC Class B requirements. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
Introduction
1. Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Writing conventions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Admonishments. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Related documentation. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-1
Document types. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-2
2. Safety awareness. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
Safety EMC-EMF-ESD norms and equipment labeling . . . . . . . . . . . . . . . . 1-5
Safety rules. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
General rules . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-5
Labels indicating danger, forbiddance, command . . . . . . . . . . . . . . . . . . . . 1-6
Electromagnetic compatibility (EMC norms). . . . . . . . . . . . . . . . . . . . . . . . 1-12
Equipment protection against electrostatic discharges . . . . . . . . . . . . . . . 1-14
Cautions to avoid equipment damage . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-14
Fan, equipment rack, and equipment cabinet precautions . . . . . . . . . . . . . 1-15
Electrical precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-16Laser precautions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-17
3. Electrostatic-sensitive devices . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-19
Electrostatic-sensitivity . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-19
Handling cards. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-20
4. Product support information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-21
Telephone support. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-21
Product documentation and training. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-21
Technical support center. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-23
Repair and return services . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-24
Spare parts and replacement cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-24
Service center. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-25
Installation and maintenance services. . . . . . . . . . . . . . . . . . . . . . . . . . . . 1-26
DLP-100 Task index list . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-1
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Table of Contentsii
DLP-101 Obtain support information. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2-3
Non-trouble Procedures (NTPs)
NTP-100 Perform system verification and system turn-up . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3-1
Detailed Level Procedures (DLPs)
DLP-100 Site-specific information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-1
DLP-101 Verify test equipment availability . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-3
DLP-102 Antenna installation verification. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-5
DLP-103 ODU300 installation verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-9
DLP-104 Antenna polarization verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-11
DLP-105 Flex section installation verification. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-15
DLP-106 LMR400 transmission line installation verification. . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-19
DLP-107 Radio and radio rack visual inspection. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-25
DLP-108 DC power installation verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-29
DLP-109 Tributary cable installation verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-31
DLP-110 Install plug-in cards . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-45
DLP-111 Load system and craft terminal software on PC . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-47
DLP-112 Provision MSS-1/MSS-4/MSS-8 shelf. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-51
DLP-113 Tributary functionality test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-67
DLP-114 Tx output power and RSL tests. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-75
DLP-115 Hop stability test . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-77
DLP-116 Radio interference and fade margin test - ODU300/MPT ODU . . . . . . . . . . . . . . . . . . 4-81
DLP-117 Radio interference and fade margin test - MPT-HL . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-85
DLP-118 Disconnect test equipment and test cables. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-93
DLP-119 Provision cross-connections . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-95
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DLP-120 Provision verification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-97
DLP-121 Perform database backup . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-99
DLP-122 Verify alarm-free system . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-101
DLP-123 Complete system turn-up activities and obtain customer acceptancecertification . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4-103
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Table of Contentsiv
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List of Figures v
List of FiguresFigure 2-1. Compliance boundaries for 9500 MPR-A transceivers with 1ft (30 cm)
antenna.................................................................................................................... 1-12
Figure 2-2. Anti static protection device kit ................................................................................1-15
Figure 3-1. Electrostatic-sensitive sign ......................................................................................1-19Figure 3-2. ESD Wrist strap and cord ........................................................................................ 1-20
Figure 106-1. Typical tower coaxial cable detail............................................................................ 4-20
Figure 106-2. Typical radio coaxial cable grounding outside building ...........................................4-21
Figure 106-3. Radio coaxial cable grounding, surge suppressor inside building........................... 4-21
Figure 113-1. Core-E card ethernet BER test setup......................................................................4-73
Figure 115-1. DS1 line BER test setup .......................................................................................... 4-80
Figure 117-1. Far end Tx fade margin test setup...........................................................................4-88
Figure 117-2. Near end Rx fade margin test setup........................................................................4-90
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List of Tables vii
List of TablesTable 100-A. Task Index List .......................................................................................................... 2-1
Table 101-A. Identifying documentation for installation support ..................................................... 2-3
Table 105-A. Flex twist hardware and gasket specifications ........................................................4-15
Table 105-B. Flex twist bend radius specifications .......................................................................4-15Table 106-A. LMR400 transmission line sweep guidelines...........................................................4-24
Table 109-A. 37 Pin D-sub pinout .................................................................................................4-32
Table 109-B. DS1 RJ-45 patch panel cable pinout TIA/EIA T568B compliant..............................4-33
Table 109-C. DS1 RJ-45 patch panel cable pinout TIA/EIA T568A compliant..............................4-33
Table 109-D. DS1 RJ-45 patch panel cable pinout for 3EM15052AA-BD Cat5e.......................... 4-33
Table 109-E. 68 pin SCSI cable output, MSS-4/MSS-8 shelf, P32E1DS1 and MSS-1
shelf, MSS/DS1 (XMT) pinout .................................................................................4-34
Table 109-F. 68 pin SCSI cable input, MSS-4/MSS-8 shelf, P32E1DS1 and MSS-1
shelf, MSS/DS1 (RCV) pinout .................................................................................4-35
Table 109-G. 10/100 BaseT ethernet RJ-45 cable pinout for 3EM15052AA-BD Cat5e................ 4-36
Table 109-H. 10/100 BaseT ethernet RJ-45 cable pinout TIA/EIA T568B compliant....................4-36
Table 109-I. 10/100 BaseT ethernet RJ-45 cable pinout TIA/EIA T568A compliant....................4-36Table 109-J. 1000 BaseT ethernet RJ-45 cable pinout for 3EM15052AA-BD Cat5e...................4-37
Table 109-K. 1000 BaseT ethernet RJ-45 cable pinout TIA/EIA T568B compliant.......................4-37
Table 109-L. 1000 BaseT ethernet RJ-45 cable pinout TIA/EIA T568A compliant.......................4-37
Table 109-M. AUX card housekeeping alarm connector details.................................................... 4-38
Table 109-N. MPT Power Unit housekeeping alarm connector details......................................... 4-38
Table 109-O. MPT Extended Power Unit housekeeping alarm connector details......................... 4-39
Table 113-A. Sample DS1 tributary functionality test result..........................................................4-67
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FCC part 15 subpart B 1-1
FCC part 15 subpart B
1. 9500 MPR-A unlicensed radio
1.1 The JF6-9558H/6933B-9500MPT (MPT-HL) unlicensed radio provides
fast deployment of service with microwave radio. No license and small
antennas (no FCC and Industry Canada requirements) allow immediate
turn-up. After the license is received, the unlicensed MPT-HL radio can be
easily converted to the lower 6 GHz licensed band.
1.2 The JF6-9558HC/6933B-9558HC (9558HC) unlicensed radio provides
fast deployment of service with microwave radio. No license and small
antennas (no FCC and Industry Canada requirements) allow immediateturn-up. The 9558HC unlicensed radio can not be upgraded to licensed
operation.
1.3 The JF6-9558H/6933B-9500MPT and JF6-9558HC/6933B-9558HC
unlicensed radio operates in the 5725-5850 Information, Scientific, and
Medical (ISM) band in accordance with FCC Part 15.247 and IC RSS-210. This
unlicensed radio, although operating in the same band as a spread spectrum
radio, operates using narrower bandwidths than spread spectrum.
1.4 The 9558HC 5.8 Unlicensed band (JF6-9558HC/6933B-9558HC) has
been certified by the FCC and Industry Canada as of August 7, 2012.
FCC Class B compliance statement
1.5 The JF6-9558H/6933B-9500MPT and JF6-9558HC/6933B-9558HC
unlicensed radio have been tested and found to comply with the limits for a
Class B digital device, pursuant to Part 15 of the FCC Rules and IC RSS-210.
These limits are designed to provide reasonable protection against harmful
interference when the equipment is operated in a commercial environment.
This equipment generates, uses, and can radiate radio frequency energy and,
if not installed and used in accordance with the instruction manual, may cause
harmful interference to radio communications. Operation of this equipment ina residential area is likely to cause harmful interference in which case the user
will be required to correct the interference at his own expense.
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FCC part 15 subpart B1-2
FCC Class B requirements
1.6 This device complies with part 15 of the FCC Rules and IC RSS-210.
Operation is subject to the following three conditions: (1) this device may not
cause harmful interference. (2) This device must accept any interference
received, including interference that may cause undesired operation. (3) This
device must be professionally installed.
1.7 Cet appareil radio est conforme IC RSS-210. Son fonctionnement
respecte les trois conditions suivantes : 1) cette radio ne cause pas
dinterfrences nfastes, 2) cette radio peut recevoir des interfrences, ainsi
que des interfrences qui peuvent causer des oprations non dsires, et 3)
cette radio doit tre installe par des Professionnels.
CAUTION Possibility of service interruption. Changes or modifications not expressly
approved by Alcatel-Lucent could void the authority to operate theJF6-9558H/6933B-9500MPT and JF6-9558HC/6933B-9558HC (unlicensed)
radio.
CAUTION Possibility of service interruption. Installation, Turn-Up, Maintenance, and
Operation Instruction supplied with the JF6-9558H/6933B-9500MPT and
JF6-9558HC/6933B-9558HC (unlicensed) radio require strict adherence for
continued part 15 of the FCC Rules and IC RSS-210 compliance.
Regulatory compliance warning:Physical changes or modifications to the
JF6-9558H/6933B-9500MPT and JF6-9558HC/6933B-9558HC (unlicensed)
radio are strictly prohibited.
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Introduction1-2
" 9500 MPR-A Maintenance and Trouble Clearing manual
(PN 3EM23956AM)
" 9500 MPR-A Engineering Support Documentation manual
(PN 3EM23957AM)
" 9500 MPR MPT-GC User Manual manual (PN 3DB19025AA)
" 9500 MPR MPR-e User Manual manual (PN 3DB19901EC)
" 9500 MPR MSS-1c User Manual manual (PN 3DB19901DC)
Document types
1.5 The documentation contains all instructions needed to perform a task.
This manual consists of the following types of documents:
" Task Index List (IXL)
" Nontrouble Procedure (NTP)
" Detailed Level Procedure (DLP)
" Test Data Sheet (TDS)
Task index list (IXL)
1.6 IXLs group procedures by function. Each IXL lists proceduresalphabetically by name and refers the user to the appropriate procedure
number.
Nontrouble procedure (NTP)
1.7 NTPs list the major steps required to complete a task. This list may be
all experienced user requires. For inexperienced user, each step refers to a
DLP, and the steps must be performed in the order listed.
Detailed level procedure (DLP)
1.8 DLPs contain detailed steps and supporting information required to
complete a task. When a DLP is referenced from another part of the manual,
perform the DLP, then return to the point where the DLP was referenced.
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Introduction 1-3
Test data sheet (TDS)
1.9 Test Data Sheet is referenced from DLPs and provide space to record
measurements, capture screen shots, capture photos, and other information.
TDS tabs serve as records of completion of indicated steps in a DLP. Not allDLPs require entries in the TDS.
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Introduction 1-5
2. Safety awareness
Safety EMC-EMF-ESD norms and equipment labeling
2.1 This section describes the equipment labeling and the norms
mandatory or suggested that must be considered to avoid injuries on persons
and/or damage to the equipment.
" Safety rules
" Electromagnetic compatibility (EMC norms)
" Equipment protection against electrostatic discharges
" Cautions to avoid equipment damage
Safety rules
General rules
2.2 Before carrying out any installation, turn-on, tests or operation and
maintenance operations, read carefully the related sections of this Manual, in
particular:
" Hardware Installation
" Commissioning
" Maintenance and Upgrade
Observe safety rules
2.3 When equipment is operating nobody is allowed to have access inside
on the equipment parts which are protected with Cover Plate Shields
removable with tools.
2.4 In case of absolute need to have access inside, on the equipment parts
when it is operating this is allowed exclusively to service personnel, where for
Service Personnel or Technical assistance is meant:
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Introduction1-6
" personnel which has adequate Technical Knowledge and experience
necessary to be aware of the danger that he might find in carrying out
an operation and of the necessary measurements to reduce danger to
minimum for him and for others.
" The Service Personnel can only replace the faulty units with spareparts.
" The Service Personnel is not allowed to repair: hence the access to the
parts not specified is not permitted.
" The keys and/or the tools used to open doors, hinged covers to remove
parts which give access to compartments in which are present high
dangerous voltages must belong exclusively to the service personnel.
2.5 For the eventual cleaning of the external parts of the equipment,
absolutely do not use any inflammable substance or substances which in some
way may alter the markings, inscriptions etc.
2.6 It is recommended to use a slightly wet cleaning cloth.
2.7 The Safety Rules stated in the handbook describe the operations
and/or precautions to observe to safeguard service personnel during the
working phases and to guarantee equipment safety, i.e., not exposing persons,
animals, things to the risk of being injured/damaged.
2.8 Whenever the safety protection features have been impaired, REMOVE
POWER.
2.9 To cut off power proceed to switch off the power supply units as well as
cut off power station upstream (rack or station distribution frame).
The safety rules described in this handbook are distinguished by the following
symbol and statement:
Labels indicating danger, forbiddance, command
2.10 It is of utmost importance to follow the instructions printed on the
labels affixed to the units and assemblies.
" Dangerous electrical voltages
" Risks of explosions
" Moving mechanical parts
" Equipment connection to earth
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Safety instructions:
DANGER! Possibility of personal injury:
2.14 Carefully observe the specific procedures for installation / turn-up andcommissioning / maintenance of equipment parts where D.C. power is present,
described in the relevant installation / turn-up and commissioning /
maintenance documents and the following general rules:
" Personal injury can be caused by -48VDC. Avoid touching powered
terminals with any exposed part of your body.
" Short circuiting, low-voltage, low-impedance, DC circuits can cause
severe arcing that can result in burns and/or eye damage. Remove
rings, watches, and other metal jewelry before working with primary
circuits. Exercise caution to avoid shorting power input terminals.
Risks of explosions
Labeling:
2.15 This risk is present when batteries are used, and it is signaled by the
following label:
Safety instructions:
2.16 Therefore, slits or apertures are made to let air circulate freely and
allow dangerous gasses to down flow (battery-emitted hydrogen). A 417-IEC-
5641 Norm. compliant label is affixed next to it indicating that the openingsmust not be covered up.
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Moving mechanical parts
Labeling:
2.17 The following warning label is affixed next to fans or other moving
mechanical parts:
Safety instructions:
2.18 Before carrying out any maintenance operation see that all the moving
mechanical parts have been stopped.
Equipment connection to earth
Labeling:
2.19 Terminals for equipment connection to earth, to be done according to
international safety standards, are pointed out by the suitable symbol:
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Safety instructions:
2.20 The position of earth connection terminals is specified in the
Hardware Installation section.
Heat-radiating mechanical parts
Labeling:
2.21 The presence of heat-radiating mechanical parts is indicated by the
following warning label in compliancy with IEC 417 Norm, Fig.5041:
DANGER! Possibility of personal injury:
Safety instructions:
2.22 Carefully observe the specific procedures for installation / turn-up and
commissioning / maintenance of equipment parts where heat-radiating
mechanical parts are present, described in the relevant installation / turn-up
and commissioning / maintenance documents and the following general rule:
2.23 Personal injury can be caused by heat. Avoid touching powered
terminals with any exposed part of your body.
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Microwave radiations (EMF norms)
2.24 Equipment emitting RF power (Reminder from site preparation
procedure):
2.25 The site must be compliant with ICNIRP guidelines or local regulation
if more restrictive.
Safety instructions:
2.26 The following rules should be strictly applied by Customer:
" Non authorized persons should not enter the compliance boundaries,
if any, for the general public.
" Compliance RF boundaries, if any, related to Electro Magnetic Fieldexposure must be marked.
" Workers should be allowed to switch-off the power if they have to
operate inside compliance boundaries.
" Assure good cable connection.
" Install the antenna as high as possible from floor or area with public
access (if possible the cylinder delimitating the compliance
boundaries, if any, or the cylinder corresponding to the transmission
area directly in front of antenna with the same diameter as the
antenna, more than 2 meters high).
" Install the antenna as far as possible from other existing equipment
emitting RF power.
2.27 Anyway remind that someone standing in front of the 9500 MPR-A
antenna may cause traffic shutdown.
2.28 Place the relevant stickers:
EMF emission warning sign
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2.29 On the site when applicable (when people can cross the compliance
boundaries and/or the transmission area of the antenna, i.e. roof top
installation)
" Warning label Do not stand on the antenna axis
2.30 On the mast (front side)
" EMF emission warning sign (Yellow and black) to be placed at bottom
of antenna, visible by someone moving in front of the antenna (roof top
installation)
2.31 On the antenna (rear side)
" EMF emission warning sign, placed on the antenna.
Electromagnetic compatibility (EMC norms)
2.32 The equipment's EMC norms depend on the type of installation being
carried out (cable termination, grounding etc.,) and on the operating conditions
(equipment, setting options of the electrical/electronic units, presence ofdummy covers, etc.).
2.33 Before carrying out any installation, turn-on, tests & operation and
maintenance operations, read carefully the related sections of this Manual, in
particular:
" Hardware Installation
Figure 2-1. Compliance boundaries for 9500 MPR-A transceivers with 1ft (30 cm) antenna
System Modulation Worst Configuration A (m) B (m)
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" Maintenance and Upgrade
2.34 The norms set down to guarantee EMC compatibility, are
distinguished inside this Manual by the symbol and term:
1. EMC General Norms - Installation
" All connections (towards the external source of the equipment) made
with shielded cables use only cables and connectors suggested in this
Manual or in the relevant Plant Documentation, or those specified in
the Customer's Installation Norms (or similar documents)
" Shielded cables must be suitably terminated
" Install filters outside the equipment as required
" Ground connect the equipment utilizing a conductor with proper
diameter and impedance
" Mount shields (if utilized), previously positioned during the
installation phase, but not before having cleaned and degrease it.
" Before inserting the shielded unit proceed to clean and degrease all
peripheral surfaces (contact springs and connection points, etc.)
" Screw fasten the units to the subrack.
" To correctly install EMC compatible equipment follow the instructions
given.
2. EMC General Norms - Turn-on, Tests & Operation
" Preset the electrical units as required to guarantee EMC compatibility
" Check that the equipment is operating with all the shields properly
positioned (dummy covers, ESD connector protections, etc.)
" To properly use EMC compatible equipment observe the information
given
EMC Norms
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3. EMC General Norms - Maintenance
" Before inserting the shielded unit, which will replace the faulty or
modified unit, proceed to clean and degrease all peripheral surfaces
(contact springs and connection points, etc.)
" Clean the dummy covers of the spare units as well.
" Screw fasten the units to the subrack.
Equipment protection against electrostatic discharges
2.35 Before removing the ESD protections from the monitors, connectors
etc., observe the precautionary measures stated. Make sure that the ESD
protections have been replaced and after having terminated the maintenance
and monitoring operations.
2.36 Most electronic devices are sensitive to electrostatic discharges, to this
concern the following warning labels have been affixed:
2.37 Observe the precautionary measures stated when having to touch the
electronic parts during the installation/maintenance phases.
2.38 Workers are supplied with anti static protection devices consisting of
an elasticized band worn around the wrist and a coiled cord connected to the
elasticized band and to the stud on the subrack. See Figure 2-2.
Cautions to avoid equipment damage
Anti static protection device kit
2.39 Whenever is necessary to handle spare parts and cards out of their
own box, this kit (See Figure 2-2) must be always warn and its termination
must be connected to a grounded structure, to avoid the possible damage of the
electronic devices for electrostatic discharges.
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Screw fixing
2.40 In normal operation conditions, all screws (for unit box closing, cable
fixing, etc.) must be always tightened to avoid item detachment and to ensure
the equipment EMI-EMC performance.
" The screw tightening torque must be:
2.8 kg x cm (0.28 Newton x m) 10%
2.4317 in lb. (0.2026 ft lb.) 10%
" Exceeding this value may result in screw breaking.
MSS-ODU cable disconnection / connection
2.41 To avoid equipment damage, always unplug the MOD300 card first
before disconnecting the MSS-ODU cable (at MSS or ODU side).
Fan, equipment rack, and equipment cabinet precautions
2.42 When installing the equipment observe the following:
DANGER Possibility of personal injury. Keep your fingers away from the rotating fan
blades. Pull the fan-tray card by the thumbscrews only and wait for the fan
blades to stop spinning before you attempt to remove the FAN card
completely from the MSS-4/8 shelf.
DANGER Possibility of personal injury. The Alcatel-Lucent 9500 MPR-A requires at
least three people to support, align, and attach it to an equipment rack. To
prevent equipment damage or personal injury, make sure you have enough
help.
Figure 2-2. Anti static protection device kit
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DANGER Possibility of personal injury. To prevent personal injury and equipment
damage due to unbalanced loading of the equipment rack or cabinet, make
sure the equipment rack or cabinet is properly secured to the floor, ceiling,
or other rigid structure before mounting the Alcatel-Lucent 9500 MPR-A in it.
For approved methods of securing the equipment rack, read the equipment-
rack installation instructions or contact the equipment-rack manufacturer.
Electrical precautions
2.43 Take appropriate safety precautions when performing procedures on
electrical equipment. Hazardous electrical potentials are present when system
power is on.
2.44 Some procedures in this manual require working with small
conductive objects, such as screwdrivers, fuses, washers, screws, and nuts.
When working on a shelf at the top of an equipment rack, a dropped object thatfalls into a lower shelf can cause physical damage and electrical short circuits.
To prevent this, place a piece of paper or other cover over the lower shelf to
catch fallen objects. Remove the paper or other cover when work is complete.
DANGER Possibility of personal injury. Install the Alcatel-Lucent 9500 MPR-A in a
restricted-access area only. Entrance to a restricted-access area is intended
for qualified or trained personnel and access to it is controlled by a locked
barrier.
DANGER Possibility of personal injury. The MSS-1/4/8 shelf does not contain main
overcurrent protection devices. The user must provide circuit breakers orfuses and disconnects between the power source and the Alcatel-Lucent
9500 MPR-A. Each power feed from a source (-48 V dc and Return) requires
a dc-rated fast-trip circuit breaker or fuse and disconnect. Circuit breakers or
fuses must meet applicable local and national electrical safety codes and be
approved for the intended application. Circuit breaker or fuse size is
dependent upon site configuration. Refer to site engineering documentation
for the correct Circuit breaker or fuse size.
DANGER Possibility of personal injury. The MPT-HL shelf does not contain main
overcurrent protection devices. The user must provide circuit breakers or
fuses and disconnects between the power source and the Alcatel-Lucent9500 MPR-A. Each power feed from a source (+ 24 V dc or- 48V dc and
Return) requires a dc-rated fast-trip circuit breaker or fuse and disconnect.
Circuit breakers or fuses must meet applicable local and national electrical
safety codes and be approved for the intended application. Circuit breaker or
fuse size is dependent upon site configuration. Refer to site engineering
documentation for the correct Circuit breaker or fuse size.
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DANGER Possibility of personal injury. Make sure you connect the node to a + 24 V dc
or - 48V dc source that is electrically isolated from the ac source and is
reliably connected to earth ground.
DANGER Possibility of personal injury. For personal safety, make sure you connectand secure the installation sites frame-ground (earth ground) wire to the
frame-ground terminal on the 9500 MPR-A before you connect any other
wires to the node.
DANGER Possibility of personal injury. A dc-power source provides high energy,
which can cause serious injury or equipment damage. Only Alcatel-Lucent
qualified personnel should connect the dc power to the Alcatel-Lucent
9500 MPR-A. To prevent serious injury or equipment damage, make sure the
power source cables are de-energized before you handle or connect them to
the node.
Harmful optical signals
Laser precautions
2.45 The equipment contains Class 1 laser component according to IEC
60825-1 (par. 5).
2.46 The laser source is placed in the optional SFP plug-in, which is
installed in the Core-E card and P8ETH card. The laser source is placed in the
left side of the SFP plug-in.
2.47 Verify that laser labels on equipment state that the system conforms
to all applicable standards of 21 CFR 1040.10. If there are no danger labels, call
the Alcatel-Lucent Technical Support Center (TSC).
2.48 The invisible infrared radiation emitted by the fiber-optic transmitter
can cause eye damage. Observe local office procedures and the following
dangers:
DANGER Possibility of personal injury. The use of controls and/or adjustments, or the
performance of procedures other than those specified herein may result in
hazardous infrared radiation exposure.
CLASS 1 LASER PRODUCT
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Handling cards
3.5 Although the risk of damage to an ESD is reduced considerably after
it is assembled into a circuit designed to protect sensitive components, take the
following precautions to reduce static charges to harmless levels:
" Handle all cards as ESDs unless they are known not to contain
electrostatic-sensitive parts.
" Wear wrist ground strap, connected to grounded coiled cord before and
while touching or handling cards containing ESS devices. See
figure 3-2for an illustration of the wrist strap with cord. The wrist
strap (PN 1AD 01247 0001) is an elasticized band connected to the
coiled cord connected to the rack frame ground.
"Store (even temporarily), pack, and ship cards in antistatic bags orcontainers.
" Do not handle printed circuit board or components unnecessarily. Use
plastic handle.
" Do not use synthetic bristled brushes or acid brushes to clean cards.
" Handle failed cards with same precautions as good cards.
3.6 ESD components are protected when properly packaged in conductive
or antistatic packaging. Acceptable packaging is marked as either conductive
or antistatic.
Figure 3-2. ESD Wrist strap and cord
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" General information books
" General Release Documents (GRDs)
" Installation documents
" Methods of Procedure (MOPs)
" Product Change Notifications (PCNs)
" Product Information Bulletins (PIBs)
" Product manual updates
" Software patch and software load documents
" Software Update Documents (SUDs)
" Technical bulletins
" Training documents
" Urgent Product Warnings (UPWs)
Training
4.5 Equipment training is available to all customers. Crafts and
maintenance personnel who are trained by Alcatel-Lucent's Training
department can expect more effective assistance if they need to call the
Technical Assistance Center. Regularly scheduled courses are available at thetraining facilities in Plano, Texas. If a customer cannot attend a standard
course, the Training department can arrange a course for a specific
requirement and conduct it at the customer's facility. For further information,
call customer service telephone support and ask for a training coordinator or
write to one of the following addresses:
4.6 The annual Product Training Catalog can be ordered by calling the
training coordinator, or it can be viewed on-line at:
http://www1.alcatel-lucent.com/us/product_training/catalog
IN USA: IN CANADA:
Alcatel-Lucent USA
3400 W. Plano Pkwy.
Plano, Texas 75075
ATTN: Training M/S 1206-553
Alcatel-Lucent Canada
Network Services Division
P.O. Box 13600
Ottawa, Ontario K2K 2E6
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Technical support center
4.7 The Technical Support Center (TSC) staff is always ready to provide
high-quality technical assistance. Customers can expect effective telephone
assistance when their crafts and maintenance personnel have been trained by
Alcatel-Lucent's Training department and are equipped with adequate test
equipment, spares, and documentation at the site.
4.8 For technical assistance, call Alcatel-Lucent North America Service
Center at 1-(888) 252-2832.
After-hours emergency telephone support
4.9 Emergency support is available after-hours for emergencies by calling
1-(888) 252-2832.
4.10 An emergency is defined as an out-of-service, traffic-affecting problem
or a nonoperating alarm system on traffic-bearing systems.
4.11 Nonemergency is defined as installation turn-ups, application
questions, traffic cutover, routine maintenance, or other non-service-affecting
maintenance. All non-service-affecting, after-hours telephone services are
billable to the customer.
4.12 Please provide the operator with the following information:
" Company name
" Caller name
" A telephone number where caller can be reached
" A brief description of the problem, including the product involved
After-hours non emergency telephone support
4.13 After-hours telephone support to address new installations, system
expansions, system operations, system application, or other
non-service-affecting issues is available by contacting Alcatel-Lucent at
1-(888) 252-2832.
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On-site technical support
4.14 On-site technical support is available when an issue cannot be
resolved remotely. This determination is usually made by Alcatel-Lucent TSC
during the problem investigation process. These services may or may not bebillable to a customer. This depends on several factors such as what type of
Service Level Agreement a customer has with Alcatel-Lucent, the age of the
product, etc.
Repair and return services
4.15 As part of a comprehensive technical support program, Alcatel-Lucent
provides factory repair services for equipment. This service is available both
during and after the warranty period through Alcatel-Lucent's Return and
Repair department.
Spare parts and replacement cards
4.16 For spare parts, spare cards, card exchange, and in-warranty
replacement on a routine or emergency basis, call customer service telephone
support.
4.17 Provide the following information:
" Customer Contact Name
" Customer Company Name
" Customer telephone number
" Customer E-mail Address
" A brief description of the problem, including product line, part
number, and quantity of parts needed
4.18 For emergency assistance after normal business hours, call customer
service telephone support, ask the operator for Emergency Parts Assistance,
and provide the operator with the required information. The operator willcontact an appropriate individual to respond.
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Return for credit or warranty exchange procedure
4.19 Returned equipment must have a Parts Request (PR) number. Obtain
an PR number by calling the Alcatel-Lucent Welcome Center at
1-866-582-3688.
4.20 No equipment should be returned without an PR number. The
following information is required:
" Description and quantity of equipment to be returned
" Reason for return
" Order number the equipment was purchased against and approximate
date of purchase
Service center
4.21 The Service Center tests, repairs, and modifies all cards (both in and
out of warranty). Cards received for repair or modification are returned
promptly.
Return for repair procedure
4.22 Refer to paragraph 4.19for information on obtaining an PR number.
Notification to the Service Center and issuance of an PR number by
Alcatel-Lucent personnel must be made prior to shipment of parts. The
following information must be furnished with the request for return
authorization:
" Purchase order number or requisition number
" Description and quantity of equipment to be returned
" Reason for return:
Modification required
Defective equipment to be repaired
" Warranty status (in or out of warranty) and warranty date stamped on
unit
" Specific nature of problem
" Name and telephone number of person who identified problem
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" Special instruction/information
Shipping instructions for repair, credit, or
warranty exchange
4.23 Return equipment or parts prepaid to the address provided below. The
PR number must be prominently marked on the shipping label, the packing
list, and any correspondence regarding the order.
" Include company name, address, and name of person to contact in case
of a question.
" Include specific reason for return. (This aids prompt processing.)
" Include the same requisition number or purchase order number that
was furnished with request for return authorization.
" Include type number and part number of unit.
" State whether equipment is in or out of warranty.
" Furnish shipping address for return of unit, if applicable, or other
pertinent details.
" Mail purchase order, if applicable, to address shown under Return for
Repair Procedure, Attention: Service Center.
Installation and maintenance services
Engineering and installation service
4.24 Whether installation for specific equipment or a full turnkey network
facility is needed, Installation Service can help. Alcatel-Lucent has experience
in central office, outside plant, and customer premises applications, and
specializes in flexible scheduling and high-quality service. Qualified staff are
in place nationwide, so an installation can be started and completed promptly.
Alcatel Lucent Return Equipment
Address
Alcatel Lucent c/o UPS-SCS
Attn: Repair FE
2240 Outer Loop
Bldg 5 Door 505
Louisville, Ky 40219
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Contract maintenance service
4.25 Field service from Alcatel-Lucent US and Canada offices are available.
Alcatel-Lucent field service is well-suited for private networks of any size.
4.26 Factory-trained service technicians are qualified on similar systems
before they are allowed to maintain customer equipment. They have direct
access to additional technical support around the clock and to all necessary
tools and test equipment.
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DLP-100 Task indexlist
DLP-100
Task index list
Refer to Table 100-Ato select the type of procedure or information needed to perform tasks on the
system.
Table 100-A. Task Index List
TYPE OF PROCEDURE/INFORMATION REFERENCE
Obtain support information IXL-101
Perform system verification and system turn-up NTP-100
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DLP-101 Obtain supportinformation
DLP-101
Obtain support information
Refer to Table 101-Ato select the type of procedure or information needed to perform tasks on the
system. The following references are used:
For references to Operation and Administration manual, refer to the 9500 MPR-A Operation and
Administration manual (PN 3EM23954AM).
For references to Product Information manual, refer to the 9500 MPR-A Product Information,
manual (PN 3EM23952AM).
For references to Maintenance and Trouble Clearing, refer to the 9500 MPR-A Maintenance and
Trouble Clearing (PN 3EM23956AM).
A Test Data Sheet (TDS) is available to generate electronic documentation of the Turn-Up testresults. Contact the Alcatel-Lucent Deployment Project Manager (DPM) responsible for this site to
acquire a copy of the TDS file.
Table 101-A. Identifying documentation for installation support
TYPE OF PROCEDURE/INFORMATION REFERENCE
Overview; how to use documentation Introduction, Section 1.
Safety awareness Introduction, Section 2.
Electrostatic-sensitive devices Introduction, Section 3.
Product support information Introduction, Section 4.
Locate cards and identify addresses Product InformationIdentify controls and indicators Operation and Administration
manual
Authorize users and provision account security Operation and Administration
manual
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NTP-100
Non-trouble Procedures (NTPs)NTP-100 Perform system verification and system turn-up
NTP-100
Perform system verification and system turn-up
This procedure is used to verify and turn-up the system.
General
The following nontrouble-clearing procedure verifies proper hardware installation, hardware
operation, and software operation before placing the 9500 MPR-A In-Service.
The Turn-Up manual is arranged into eight phases:
" Preparationphase 1 (steps 1through 6)
" Outside plant installation verificationphase 2 (steps 8through 21)
" Inside plant installation verificationphase 3 (steps 22through 24)
" Card installationphase 4 (step 25)
" Software installationphase 5 (step 26)
" System provisioningphase 6 (steps 27through 28)
" System acceptance testsphase 7 (steps 29through 33)
" Wrap upphase 8 (steps 34through 39)
The System Acceptance Tests phase is performed on both ends of the radio link and must be
performed after both ends of the link have completed phases 1 through 6.
Step details are in Detailed Level Procedures (DLPs). Test Data Sheet (TDS) and Photo ID Log are
provided to record and mark off steps accomplished.
The referenced procedures presume the equipment and system hardware installation was performed
and verified in accordance with established procedures.
Use this procedure to turn-up a 9500 MPR-A only. If performing an upgrade, use documentation
provided with the software release kit.
Refer to 9500 MPR-A Operation and Administration manual (PN 3EM23954AM) for detailed
procedures describing system provisioning, operation, and administration procedures.
Refer to the 9500 MPR-A Product Information manual (PN 3EM23952AM) for detailed information
regarding 9500 MPR-A.
A Test Data Sheet (TDS) is available to generate electronic documentation of the Turn-Up test
results. Contact the Alcatel-Lucent Deployment Project Manager (DPM) responsible for this site to
acquire a copy of the TDS file.
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NTP-100
STEP PROCEDURE
Preparation
1 Get office record.
2 Record site-specific information.
For details, refer to DLP-100.
3 Read turn-up test plan.
For details, refer to site configuration documentation.
4 Review safety awareness information.
For details, refer to Introduction Section 2.
5 Review static-sensitive device handling procedures.
For details, refer to Introduction Section 3.
6 Verify availability of recommended test equipment.
For details, refer to DLP-101.
7 Installation stand-alone MSS-1/4/8 shelf?
If yes, go to step 22.
If no, go to step 8.
Outside plant installation verification
8 Perform antenna installation verification.
For details, refer to DLP-102.
9 Does installation include ODU300(s)?
If yes, go to step 10.If no, go to step 15.
ODU300 antenna system verification
10 Perform ODU300 installation verification.
For details, refer to DLP-103.
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NTP-100
11 Perform antenna polarization verification.
For details, refer to DLP-104.
12 Does installation include non-integrated ODU300 or split mount ODU300s?
If yes, go to step 13.
If no, go to step 14.
13 Perform flex section installation verification.
For details, refer to DLP-105.
14 Perform LMR400 transmission line installation verification.
For details, refer to DLP-106.
MPT-HL antenna system verification
15 Does installation include MPT-HL Transceiver(s)?
If yes, go to step 16.
If no, go to step 18.
16 Perform antenna polarization verification.
For details, refer to DLP-104.
17 Perform flex section installation verification, if applicable.
For details, refer to DLP-105.
18 Does installation include MPT-HC/MPT-XP/9558HC (MPT ODU) OutDoor Unit(s)?
If yes, go to step 19.
If no, go to step 20.
MPT ODU antenna system verification
19 Refer to 9500 MPR-A MSS-1c User Manual, PN 3DB19901DC for details on MPT
ODU antenna system verification.
20 Does installation include MPT-GC OutDoor OutDoor Unit(s)?
If yes, go to step 21.
If no, go to step 22.
MPT-GC antenna system verification
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NTP-100
21 Refer to 9500 MPR-A MPT-GC User Manual, PN 3DB19025AA for details on MPT-GC
antenna system verification.
Inside plant installation verification
22 Perform radio and radio rack visual inspection.
For details, refer to DLP-107.
23 Perform DC power installation verification.
For details, refer to DLP-108.
24 Perform tributary cable installation verification.
For details, refer to DLP-109.
Card installation
25 Install plug-in cards.
For details, refer to DLP-110.
Software installation
26 Load System and Craft Terminal Software on PC.
For details, refer to DLP-111.
System provisioning
27 Provision MSS-1/MSS-4/MSS-8 shelf.
For details, refer to DLP-112.
28 Provision MPT-GC OutDoor Unit.
For details, Refer to 9500 MPR-A MPT-GC User Manual, PN
3DB19025AA for provision details.
System acceptance tests
29 Perform tributary functionality tests.
For details, refer to DLP-113.
30 Perform Tx power and RSL tests.
For details, refer to DLP-114.
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NTP-100
31 Perform protection switching test.
For details, refer to DLP-115.
32 Perform hop stability test.
For details, refer to DLP-115.
33 Perform radio interference and fade test.
For MOD300/ODU300 details, refer to DLP-116.
For MPT-HL Transceiver details, refer to DLP-117.
For MPT ODU details, refer to 9500 MPR-A MSS-1c User Manual, PN
3DB19901DC.
For MPT-GC OutDoor Unit details, refer to 9500 MPR-A MPT-GC UserManual, PN 3DB19025AA.
Wrap up
34 Disconnect all test equipment and test cables from system.
For details, refer to DLP-118.
35 Provision cross connections.
For details, refer to DLP-119.
36 Provision verification.
For details, refer to DLP-120.
37 Perform Database Back-up.
For details, refer to DLP-121.
38 Verify system is alarm-free.
For details, refer to DLP-122.
39 Finalize system documentation, site cleanup, and obtain customer acceptance
certification.
For details, refer to DLP-123.
40 STOP. This procedure is complete.
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NTP-100
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Site-specific information 4-1
DLP-100
Detailed Level Procedures (DLPs)DLP-100 Site-specific information
DLP-100
Site-specific information
Purpose
This procedure is used to obtain site-specific information.
General
Not all of this procedure can be performed initially. Some of the data that is requested is not
available until turn up is complete.
Use TDS spreadsheet, tabs 0-Title and 5-Inspection Checklist for this procedure.
STEP PROCEDURE
1 Is NTP-100being used for correct DLP sequence?
If yes, go to step 2.
If no, refer to NTP-100for correct DLP sequence.
2 From office records and engineering specifications, record the following information in
the TDS tab 0-Title.
a. Name of customer
b. Site name and address
c. Latitude and Longitude of the site
d. To/From site name
e. Software Version
f. MSS Shelf # of # (up to three MSS shelves may be in a stacked arrangement.
Record which shelf is documented with the TDS: Ex MSS-8 shelf 2 of 3)
g. Main Radio Channel slot number and port number
h. Standby Radio Channel slot number and port number
i. Date:
j. Tester Name
k. Equipment ID
l. Rack Number
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DLP-100
m. Customer supplied Local Configuration IP Address
n. Hardware Order number
o. Customer Site Reference number (if applicable)
p. Customer P.O. reference number
q. Name of customer representative
r. Signature of customer representative
s. Name of Alcatel-Lucent field service engineer
t. Signature of Alcatel-Lucent field service engineer
u. Customer supplied Channel Plan with VLAN (Flow) IDs
3 From office records and engineering specifications, record the following information in
the TDS tab 5-Inspection Checklist.
a. Design antenna type
b. Design antenna center line
c. Azimuth
d. Polarity
4 Verify that you have the Customer supplied Channel Plan with VLAN (Flow) IDs.
5 STOP. This procedure is complete.
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Verify test equipment availability 4-3
DLP-101
DLP-101 Verify test equipment availability
DLP-101
Verify test equipment availability
PurposeThis procedure is used to verify the availability of test equipment needed to turn up the system.
General
Test equipment types listed are recommended, but equivalent test equipment can be substituted.
Before substituting test equipment, carefully check the procedure to determine required
characteristics.
Prerequisites
Personnel performing these procedures must be familiar with the operation of all test equipment.
Operating instructions for test equipment are not included, except for specific instrument settingsor precautionary notes. Obtain operating instructions from the equipment manufacturer.
When using calibrated test equipment, verify that calibration date is within the time frame for
accuracy.
The personnel performing steps in these procedures need access to standard installation handtools,
including assorted screwdrivers, small pliers, etc.
STEP PROCEDURE
1 Verify that the following test equipment is available before testing:
a. Standard Field Engineer Toolkit
b. Laptop computer, with 9500 MPR-A SWP installed
c. RJ-45 Cat5E straight-through serial cable, to connect a laptop to the Core-E or
MSS/CORE
d. Plug-in style ESD wrist strap (Alcatel-Lucent PN 1AD012470001)
e. Digital Multi Meter (Fluke 75 or equivalent)
f. Microwave Power Meter, with High Power Sensor, -10dBm to +35 dBm ((Agilent
model 8481H or equivalent)
Or
Microwave Power Meter, with 50 Ohm sensor, -60 to +20 dBm, 10 MHz to 18 GHz
(Agilent model E4418B with Sensor E9300A or equivalent). Plus 30 dB
attenuator, item h.
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DLP-101
g. Path Align-R (XL Microwave - 2201 or equivalent)
h. Attenuator, 30dB, 50 ohm, 20 watts, coaxial N-type. Used with Power Sensor to
pad levels above +20dBm, eliminates need for High Power Sensor (Agilent 8481H)
i. Ethernet Test set (JDSU Smart Class Ethernet or equivalent)
j. Test set capable of measuring electrical DS1, as required for P32E1DS1 equipped
MSS-4/8 shelf or MSS/DS1 MSS-1 shelf (Acterna T-BERD 2310 with Option P4
or equivalent)
k. Test set capable of measuring electrical DS3, as required for P2E3DS3 equipped
MSS-4/8 shelf (Acterna T-BERD 2310 with Option P5 or equivalent)
l. Test set capable of measuring electrical OC-3, as required for SDHACC equipped
MSS-4/8 shelf (Acterna T-BERD 2310 with Option P3 or equivalent)
m. (2) long DS3 jumper cables with BNC connectors, as required for P2E3DS3equipped MSS-4/8 shelf
n. (2) 75-ohm BNC-to-MiniWeco Adapters, as required for P2E3DS3 equipped
MSS-4/8 shelf
o. (2) long fiber optic cables, as required for SDHACC equipped MSS-4/8 shelf
2 STOP. This procedure is complete.
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Antenna installation verification 4-5
DLP-102
DLP-102 Antenna installationverification
DLP-102
Antenna installation verification
PurposeThis procedure is used to perform outside visual inspection of antenna, antenna strut mount, and
antenna mount installation.
General
Use the TDS spreadsheet, tab 5-Inspection Checklist for this procedure.
Refer to TDS Visual Inspection tab to document antenna visual inspection, antenna type
verification, antenna strut arm verification results.
Place an (X) in the OK box of spreadsheet for each item verified. Place an (X) in the NOK box of
spreadsheet for each item which fails inspection. Place an (X) in the NA box of spreadsheet for eachitem which is not applicable for this installation.
STEP PROCEDURE
1 Determine system configuration per site engineering documentation.
2 Complete steps 3through 13for each antenna associated with the radio and record all
findings in TDS.
Antenna visual inspection
3 Inspect antenna is not damaged and installed per manufacturing specifications.
Verify all aspects of the inspection which pass inspection and record all deficiencies
identified in TDS.
a. Inspect antenna for dents.
b. Inspect antenna for distortions in shape.
c. Inspect the feedhorn guy-wires are not loose or over tensioned.
d. Inspect the feedhorn for damage at back of antenna.
e. Inspect overall antenna installation is correct.
4 Verify the antenna height above the ground (line drop) is correct per site engineering
documentation. Record all findings in TDS.
5 Inspect antenna installation and record all deficiencies identified in TDS.
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DLP-102
a. Antenna front view (zoom in from ground)
b. Antenna back view (wide angle from tower)
c. Antenna feedhorn guy-wires (zoom in from tower)
d. Elevation reading from line drop
Antenna type verification
6 Record the antenna type and serial number in TDS.
7 Verify the installed antenna type is correct per site engineering documentation and
record in TDS.
8 Verify antenna factory feedhorn sweep label in TDS. Record all deficiencies identified
TDS.
a. Verify antenna factory feedhorn sweep has been labeled.
b. Verify antenna factory feedhorn sweep label indicates the hop the sweep
corresponds to.
9 Verify antenna factory feedhorn sweep label has been left on site and record in TDS.
Antenna strut arm verification
10 Inspect antenna strut arm installation. Verify all aspects of the inspection which pass
inspection and record all deficiencies identified in TDS
a. Check that antenna has required number of struts as per customer standards, i.e.
4' = 1 strut, 6' & 8' = 2 struts.
b. Check that strut arm connections to the tower and antenna frame are secure and
within allowable +/- 5 degrees on vertical plane
c. Check that strut arm connections to the tower and antenna frame are secure and
within allowable +/- 25 degrees on horizontal plane.
11 Inspect antenna strut installation and record all deficiencies identified in TDS:
a. Antenna strut arm connection to tower or applicable steel member.
b. Antenna strut arm connection to antenna frame in horizontal plane.
c. Antenna strut arm connection to antenna frame in vertical plane.
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DLP-102
Antenna mount verification
12 Inspect the antenna and antenna mount installation is correct per site engineering
documentation. Verify all aspects of the inspection which pass inspection and record
all deficiencies identified in TDS.
a. Verify antenna mount is installed correctly.
b. Verify all antenna and antenna mount hardware are secure.
c. Verify antenna and antenna mount are plumb when applicable.
13 Document antenna strut installation and record all deficiencies identified in TDS:
a. Top & Bottom mount connections to tower
b. Digital level reading showing mount plumbness
c. Overall antenna mount view showing all mount connections
14 STOP. This procedure is complete.
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DLP-102
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ODU300 installation verification 4-9
DLP-103
DLP-103 ODU300installation verification
DLP-103
ODU300 installation verification
PURPOSEThis procedure is used to perform inspection of ODU300 installation and its associated components
(type N connector, surge arrestors, grounding, and weatherproofing).
General
Use the TDS spreadsheet, tab 5-Inspection Checklist for this procedure.
Refer to TDS Visual Inspection tab to document ODU300 installation inspection, type N connector
inspection results.
Place an (X) in the OK box of spreadsheet for each item verified. Place an (X) in the NOK box of
spreadsheet for each item which fails inspection. Place an (X) in the NA box of spreadsheet for eachitem which is not applicable for this installation.
STEP PROCEDURE
1 Determine system configuration per site engineering documentation.
2 Complete steps 3through 5for each antenna associated with the radio and record all
findings in TDS. Record all deficiencies identified.
ODU300 installation inspection
3 Inspect ODU300 is installed per Alcatel-Lucent specifications. Verify all aspects of the
inspection which pass inspection and record all deficiencies identified in TDS.
a. Verify ODU300 and bracket are installed correctly.
b. Verify ODU300 orientation is correct.
c. Verify ODU300 and mounting bracket are secured properly.
d. Verify 90 degree adapter installation to ODU300 is installed correctly and
weatherproofed.
e. Verify lightning surge arrestor installation is correct and weatherproofed.
NOTE: Some ODU300s include built-in lightning surge arrestors. Refer to site
engineering documentation to determine if an external lightning surge arrestor is
required.
f. Verify ODU300 ground installation is correct and connected to top ground bar.
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ODU300 installation verification4-10
DLP-103
4 Document ODU300 installation and record all deficiencies identified in TDS.
a. ODU300 installation showing mounting bracket and ODU300 attachment to
ODU300 mount.
b. 90 degree adapter connection to ODU300, weatherproofing & surge arrestorw/attachment bracket.
c. ODU300 ground installation at ODU300 and connection to top ground busbar.
Type N bulkhead connection inspection
5 Inspect the type N connector in the ODU300 and verify the connection is tight. Verify
all aspects of the inspection which pass inspection and record all deficiencies identified
in TDS.
With the 90 degree adapter connected to the ODU300 and surge arrestor, gently
rotate, then wiggle the coax to see if the type N bulkhead connector moves.
6 STOP. This procedure is complete.
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Antenna polarization verification 4-11
DLP-104
DLP-104 Antenna polarizationverification
DLP-104
Antenna polarization verification
PurposeThis procedure is used to perform visual inspection of antenna polarization and frequency.
General
Use the TDS spreadsheet, tab 5-Inspection Checklist for this procedure.
Refer to TDS Visual Inspection tab to document antenna polarization inspection, feedhorn
installation inspection results.
Place an (X) in the OK box of spreadsheet for each item verified. Place an (X) in the NOK box of
spreadsheet for each item which fails inspection. Place an (X) in the NA box of spreadsheet for each
item which is not applicable for this installation.
Required equipment
Path Align-R (XL Microwave - 2201 or equivalent)
STEP PROCEDURE
1 Determine system configuration per site engineering documentation.
2 Complete steps 3through 8for each antenna associated with the radio. Verify allaspects of the installations which pass in TDS. Record all deficiencies identified.
Antenna polarization verification
3 Determine antenna polarization and frequency per site engineering documentation
and record in TDS.
4 Verify antenna polarization and frequency and record in TDS.
5 Inspect antenna polarization and installation are correct. Verify all aspects of the
inspection which pass in TDS. Record all deficiencies identified.
a. Verify feedhorn retaining bolts are tight.
b. Verify feedhorn is level.
c. Verify antenna polarization is correct.
d. Verify antenna frequency is correct.
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DLP-104
6 Document antenna polarization and record all deficiencies identified in TDS.
a. Antenna Feedhorn Rear view showing feedhorn retaining bolts.
b. Antenna Feedhorn Rear view showing digital level readings of feedhorn installed.
c. Antenna feedhorn rear view showing polarization and offset.
Antenna feedhorn verification
7 Verify the feedhorn installation is correct. Verify all aspects of the installations which
pass in TDS. Record all deficiencies identified.
a. Verify feedhorn retaining bolts are tight.
b. Verify feedhorn is level.
8 Document feedhorn installation with the following photos.
a. Antenna Feedhorn Rear View showing feedhorn retaining bolts.
b. Antenna Feedhorn Rear View digital level readings
Antenna feedhorn verification - XPD procedure
The overall Method is to Perform XPD tuning procedure on MAIN to MAIN antenna
FIRST (Far end MAIN is leveled, then Local MAIN is tuned.). Secondly, Tune the
Local DIV antenna XPD to the Far end MAIN antenna. Third, Check MAIN and DIV
XPD against Far end DIV. Must Tune Far end DIV if less than 28dB XPD
Discrimination. Record all deficiencies identified.
Use Path Align-R to perform XPD tuning procedure.
9 Observe and record INITIALRSL on both local and remote radios for both polarities.
Record results in TDS.
10 Perform a far end Tx mute the Path Align-R on the H-pol. Observe the Local H-pol
RSL. Record results in TDS.
(Expected value for Standard antenna is 30dB. Expected value for Ultra High
Performance antenna is 33dB)
11 If value is below expected value for antenna type, loosen and slowly rotate feed at local
end to null the RSL signal measured on the V-pol. Record results in TDS.
12 Is antenna configuration a split-pack configuration?
If yes, repeat steps 10and 11to tune the diversity antenna to the far
end main antenna. Record results in TDS.
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DLP-104
Then repeat steps 10and 11to tune the main antenna to the far end
diversity antenna. Record results in TDS.
Then repeat steps 10and 11to tune the diversity antenna to the far end
diversity antenna. Record results in TDS.
If no, go the step 13.
13 Un-mute far end Tx the Path Align-R on both H-pol and V-pol and disable ATPC. (Set
to maximum Tx power as per path calculation)
14 Compare measured RSL's against expected values from path calculations. Record
results in TDS.
15 Is actual versus calculated RSL values difference greater than +/- 2dB?
If yes, repeat steps 10through 14to fine tune antenna alignment.
If no, go the step 16.
16 Observe and record FINAL RSL on both local and remote radios for both polarities.
Record results in TDS.
17 Obtain and save screen capture(s) of local and remote RSL's from the CT Performance
Monitoring screen. Save them in word document and a name appropriately
18 Document feedhorn installation with the following photos.
a. Antenna Feedhorn Rear View showing feedhorn retaining bolts.
b. Antenna Feedhorn Rear View showing digital level readings of feedhorn install
after XPD performed
19 STOP. This procedure is complete.
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Flex section installation verification4-16
DLP-105
STEP PROCEDURE
1 DANGER: Possibility of personal injury. Hazardous electrical potentials are present.
Severe arcing is possible and can cause burns or eye injury. Remove rings,watches, and other metal jewelry when working with primary circuits. Exercise
caution to avoid shorting power input terminals.
2 Determine system configuration per site engineering documentation.
3 Complete steps 4through 7for each antenna associated with the radio. Record all
findings in TDS.
Flex section hardware installation verification
4 Inspect flex section installation.
a. Verify correct hardware and gaskets where used to install flex section to feedhorn
(i.e. bolts, nuts, lock washers, and 1/2 gaskets were applicable) and installation
was performed correctly. Refer to Table 105-A.
b. Verify correct hardware and gaskets where used to install flex section to antenna
or ODU300 (i.e. bolts, nuts, lock washers, and 1/2 gaskets were applicable) and
installation was performed correctly. Refer to Table 105-A.
c. Verify flex section twist groove depth with dial caliper
5 Document flex section installation with the following photos.
a. Flex twist and feedhorn flange connection
b. Flex twist and ODU300 flange or top of the rack connection
Flex section installation inspection - routing and bends
6 Verify the flex section is routed properly. Verify all aspects of the installations which
pass in TDS. Record all deficiencies identified.
a. Inspect flex twist for damage.
b. Inspect flex twist for excessive pressure at flange connections.
c. Ensure the flex section does not rub against tower, mount, or other steel members.
d. Ensure the flex section was formed within allowable bend specifications. Refer to
Table 105-B.
e. Ensure the flex hanger has been used at mid-point of flex twist.
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DLP-105
f. Ensure the flex twist support hardware is tight and properly installed.
7 Document flex section installation with the following photos.
a. Flex twist routing from feedhorn flange to ODU300 or top of the rack flange.
b. Flex twist hangers showing attachment to flex twist and tower or mount member.
8 STOP. This procedure is complete.
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LMR400 transmission line installation verification 4-19
DLP-106
DLP-106 LMR400transmission lineinstallation verification
DLP-106
LMR400 transmission line installation verification
PurposeThis procedure is used to perform inspection of LMR400 transmission line installation and its
associated components.
General
Figure 106-1shows typical IF cable system installation including antenna, ODU300, IF cable,
lightening surge suppressors, and system cable grounding.
The same IF cable installation is used to power MPT-HC/MPT-XP/9558HC (MPT ODU)s were the
cable run length is greater than 100 meters.
Figure 106-2shows typical radio coaxial cable grounding located outside of the building,recommended.
Figure 106-3shows radio coaxial cable grounding where the surge suppressor is located inside of the
building.
For detailed instruction on LMR400 transmission line/MPT ODU power installation including IF
cable system/MPT ODU installation, Lightning surge suppressor installation, coaxial cable
grounding, weatherproofing connections, refer to 9500 MPR-A Installation Practices manual PN,
3EM23953AM.
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LMR400 transmission line installation verification4-20
DLP-106
Figure 106-1. Typical tower coaxial cable detail
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LMR400 transmission line installation verification 4-21
DLP-106
Use the TDS spreadsheet, tab 5-Inspection Checklist for this procedure.
Figure 106-2. Typical radio coaxial cable grounding outside building
Figure 106-3. Radio coaxial cable grounding, surge suppressor inside building
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LMR400 transmission line installation verification 4-23
DLP-106
Outside plant LMR400 hardware installation inspection
6 Inspect LMR400 installation. Verify all aspects of the inspection which pass in TDS.
Record all deficiencies identified.
a. Verify proper hangers were used to install LMR400 run from the building entry
point to the ODU.
b. Ensure proper hanger spacing was utilized fo