9500 MPR Installation Practices

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PN 3EM23953AB 01

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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 R01.02 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 agency(s).

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 based on 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.

DOCUMENTATION

Product documentation is available on Alcatel-Lucent’s OnLine Customer Support web site at https://support.alcatel-lucent.com/portal/olcsHome.do.

To offer comments on this documentation, visit Alcatel-Lucent’s OnLine Customer Support web site at https://support.alcatel-lucent.com/portal/olcsHome.do and select Contact us, Customer support, and then OnLine Assistance or write to the following address.

Alcatel-Lucent

Attention: Doc Comment, M/S RND-1 3400 W. Plano Pkwy.

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9500 MPR Installation Practices

Charts

Chart-1 Unpack and Inspect Equipment. . . 1-1

Chart-2 Prepare Floor. . . 1-3

Chart-3 Rack Installation. . . 1-15

Chart-4 PDU Installation. . . 1-27

Chart-5 Route and Terminate Station Ground and Office Battery Power Cables. . . 1-31

Chart-6 MSS-8 Shelf Installation. . . 1-39

Chart-7 Route and Terminate 9500 MPR Shelf Power Cables. . . 1-43

Chart-8 Type N Adapter Bracket Installation. . . 1-49

Chart-9 DS1 Patch Panel Installation . . . 1-51

Chart-10 Integrated Antenna and ODU Installation . . . 1-59

Chart-11 Non-Integrated Antenna and ODU Installation. . . 1-75

Chart-12 IF Cable System Installation . . . 1-85

Chart-13 Lightning Surge Suppressor Installation . . . 1-91

Chart-14 IF Cable System Grounding. . . 1-105

Chart-15 Weatherproofing Coaxial Cable Connectors and Cable Grounds . . . 1-109

Chart-16 Route and Terminate DS1 Signal Cables . . . 1-113

Chart-17 Route and Terminate DS3 Signal Cables . . . 1-121

Chart-18 Route and Terminate Ethernet Signal Cables . . . 1-125

Chart-19 Route and Terminate Sync Signal Cables. . . 1-131

Chart-20 Route and Terminate Fan Office Alarm Cable. . . 1-133

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Table of Contents ii

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List of Figures iii

9500 MPR Installation Practices

List of Figures

Figure 2-1. Sample Floor Plan . . . 1-5

Figure 2-2. Floor Mounting Detail for Standard Rack . . . 1-6

Figure 2-3. Floor Mounting Detail for Unequal Flange Seismic Rack. . . 1-7

Figure 2-4. Standard Rack (PN 694-9000-006) (1 of 2) . . . 1-8

Figure 2-5. Standard Rack (PN 694-9000-006) (2 of 2) . . . 1-9

Figure 2-6. Unequal Flange Seismic Rack (PN 1AD014120046). . . 1-10

Figure 2-7. Self-Drilling Anchor . . . 1-12

Figure 2-8. Anchor Setting . . . 1-13

Figure 3-1. Securing Rack to Floor. . . 1-17

Figure 3-2. Standard Rack Top Support. . . 1-19

Figure 3-3. Standard Rack Top with Extension Kit. . . 1-20

Figure 3-4. Seismic Rack Top Support. . . 1-21

Figure 3-5. Typical Method of Bracing Top Support. . . 1-22

Figure 3-6. Guardrail Installation, Standard Racks. . . 1-24

Figure 3-7. Adjacent Rack Attachment, Standard Racks . . . 1-25

Figure 4-1. PDU Mounting Detail . . . 1-28

Figure 4-2. PDU Mounting Detail with Existing Equipment . . . 1-29

Figure 5-1. PDU Strap Detail . . . 1-32

Figure 5-2. Station Ground Standard Rack Detail . . . 1-33

Figure 5-3. Station Ground Seismic Rack Detail . . . 1-33

Figure 5-4. Station Ground Crimp Lug Detail . . . 1-34

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List of Figures iv

Figure 5-6. PDU Battery Interconnect Detail . . . 1-36

Figure 5-7. PDU Office Battery Routing Detail . . . 1-37

Figure 6-1. MSS-8 Shelf Mounting Detail . . . 1-40

Figure 6-2. 9500 MPR Shelf Screw Locations . . . 1-41

Figure 7-1. MSS-8 Shelf Power Connection Detail . . . 1-44

Figure 7-2. Power Cable Connection to MSS-8 Shelf . . . 1-44

Figure 7-3. Power Cable Routing Detail . . . 1-45

Figure 7-4. B-Side Power to PDU Routing . . . 1-45

Figure 7-5. A-Side Power to PDU Routing . . . 1-46

Figure 7-6. Power Cable Detail . . . 1-47

Figure 7-7. Power Cable Detail . . . 1-47

Figure 8-1. Type N Adapter Bracket Mounting Detail . . . 1-50

Figure 8-2. Type N Jumper Cable Detail . . . 1-50

Figure 9-1. DS1 RJ-45 Patch Panel Mounting Detail . . . 1-53

Figure 9-2. DS1 Patch Panel Cable Routing, Front View. . . 1-54

Figure 9-3. DS1 Patch Panel Cable Routing, Rear View . . . 1-55

Figure 9-4. DS1 37 Pin D Patch Panel and Rack Mount Bracket Detail . . . 1-56

Figure 9-5. DS1 37 Pin D Patch Panel Mounting Detail . . . 1-56

Figure 10-1. Integrated Antenna Mount Detail . . . 1-68

Figure 10-2. Integrated Antenna Mount Detail Continued . . . 1-69

Figure 10-3. Integrated Antenna Attached to Mount . . . 1-69

Figure 10-4. Integrated Antenna Polarization Setting Detail . . . 1-70

Figure 10-5. ODU Polarization Detail . . . 1-71

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List of Figures v

Figure 10-7. ODU Attached to Integrated Antenna . . . 1-73

Figure 11-1. Remote ODU Mount. . . 1-79

Figure 11-2. Remote ODU Mount Detail . . . 1-80

Figure 11-3. Integrated Antenna Polarization Setting Detail . . . 1-81

Figure 11-4. Coupler Polarization Detail. . . 1-82

Figure 11-5. Installed Coupler . . . 1-83

Figure 12-1. Typical Tower Coaxial Cable Detail . . . 1-86

Figure 13-1. Typical Tower Coaxial Cable and Lightning Surge Suppressor Grounding Detail. . . . 1-92

Figure 13-2. Surge Suppressor Installed Inside Building . . . 1-94

Figure 13-3. Surge Suppressor Installed Outside Building. . . 1-95

Figure 13-4. Surge Suppressor with Right-Angle Connector Alignment Detail . . . 1-96

Figure 13-5. Suppressor and Connector Covered with Amalgamating Tape Detail. . . 1-97

Figure 13-6. Suppressor and Connector Covered with UV-Protecting Vinyl Tape Detail. . . 1-97

Figure 13-7. ODU with Suppressor Assembly Detail . . . 1-98

Figure 13-8. ODU with Suppressor Assembly with Amalgamating Tape . . . 1-99

Figure 13-9. ODU with Suppressor Assembly weatherproofed . . . 1-99

Figure 13-10. Suppressor Support Bracket with No-Ox . . . 1-100

Figure 13-11. Suppressor with Ground Wire Attached. . . 1-101

Figure 13-12. Suppressor with Ground Wire Looped . . . 1-101

Figure 13-13. Completed Antenna, ODU, and Surge Suppressor Assembly. . . 1-103

Figure 14-1. Typical Tower Coaxial Cable Grounding Detail . . . 1-106

Figure 14-2. Typical Radio Coaxial Cable Grounding Outside Building . . . 1-107

Figure 14-3. Radio Coaxial Cable Grounding, Surge Suppressor Inside Building . . . 1-107

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List of Figures vi

Figure 16-2. DS1 37 Pin DSUB Customer Interconnect Detail . . . 1-116

Figure 16-3. P32E1DS1 68 Pin SCSI Connector Front Panel View. . . 1-118

Figure 17-1. P2DS3E Front Panel Connector Interconnect Detail . . . 1-122

Figure 17-2. DS3 Hybrid Splitter Interconnect Detail . . . 1-124

Figure 18-1. CSM Customer Interconnect Detail . . . 1-128

Figure 19-1. CSM Card Sync In and Out Interconnect Detail. . . 1-132

Figure 20-1. FAN Office Alarm and Control Customer Interconnect Detail . . . 1-135

Figure 21-1. Example Cable secured to Standoff. . . 1-138

Figure 21-2. MSS-8 Shelf Left Side Cable Routing . . . 1-139

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List of Tables vii

9500 MPR Installation Practices

List of Tables

Table 2-A. Rack Type and Options . . . 1-7

Table 7-A. PDU Power Cable Termination Details . . . 1-46

Table 10-A. Integrated Antenna Details. . . 1-60

Table 10-B. ODU Details . . . 1-61

Table 10-C. ODU Coupler Details . . . 1-67

Table 11-A. Waveguide Flange Detail . . . 1-76

Table 11-B. ODU Mount and Flexible Waveguide Details. . . 1-77

Table 11-C. ODU Coupler Details . . . 1-78

Table 16-A. RJ-45 Patch Panel Cable Pinout . . . 1-115

Table 16-B. 37 Pin D-Sub Pinout. . . 1-116

Table 16-C. 68 Pin SCSI Cable Output (XMT) Pinout . . . 1-118

Table 16-D. 68 Pin SCSI Cable Input (RCV) Pinout . . . 1-119

Table 18-A. 10/100 BaseT Ethernet RJ-45 Cable Pinout . . . 1-129

Table 18-B. 1000 BaseT Ethernet RJ-45 Cable Pinout . . . 1-129

Table 20-A. Fan Card Office Alarm and Control Connector / Cable Detail . . . 1-134

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List of Tables viii

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Unpack and Inspect Equipment 1-1 Charts

Chart-1

Unpack and Inspect Equipment

PURPOSE

This chart provides instructions to unpack and inspect the 9500 MPR radio and to report any shipping damage or missing parts.

GENERAL

The 9500 MPR radio may be shipped from the factory as an assembled rack assembly or as kits for field installation.

Alcatel-Lucent provides expert Installation Services for installations that have different requirements from the recommended configuration as outlined in this manual. Contact the Alcatel-Lucent Technical Support Center at 1-(888) 252-2832 for details.

RECOMMENDED TOOLS

• Tin snips • Box cutter

STEP PROCEDURE

1 DANGER: Possibility of personal injury. The 9500 MPR radio requires two people to unpack a factory assembled rack assembly from the box. To prevent equipment damage or personal injury, make sure appropriate help or suitable lifting equipment is available if needed.

2 WARNING: Possibility of equipment damage. If product must be transported or reshipped, repack equipment with approved shipping materials.

Repacking equipment improperly or using unapproved shipping materials may result in equipment damage, which is sender’s responsibility. If any shipping materials are lost, contact Alcatel-Lucent before transporting or reshipping product.

3 Remove external packing slip from shipping container.

4 Before unpacking container, ensure there is no visible damage to outside of container. If damage is visible, report damage to freight carrier before opening container. Freight carrier will advise as to next step to take. (If a camera is available, take several pictures of damage.)

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Unpack and Inspect Equipment 1-2

6 If necessary, unstack boxes onto a level surface.

7 Open top flaps of all boxes.

8 In box containing MSS-8 shelf, remove shelf from box.

9 Remove fan and modules, excluding filler panels, from shelf. Place modules into antistatic bags or containers to prevent module damage.

10 Remove shelf from box, removing any additional packing material covering shelf. Place shelf onto a level surface.

11 Inspect MSS-8 shelves and their card cage area for visible damage. If damage is visible, contact Alcatel-Lucent to report damage and to find out what to do next.

12 Inspect contents of box containing accessories for damage or missing parts.

13 To report damage or missing parts, contact Alcatel-Lucent Technical Support Center at 1-(888) 252-2832.

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Prepare Floor 1-3

Chart-2

Prepare Floor

PURPOSE

This chart details the standard procedure for rack installation floor preparation. The two types of racks that can be installed are the standard rack and the seismic.

GENERAL

Equipment racks are designed for fixed-location installation. Standard and seismic rack assemblies are available.

PREREQUISITE

Complete Chart-1Unpack and Inspect Equipment.

RECOMMENDED TOOLS

• Safety glasses

• Anchor setting tool (Redhead RT58 or equivalent) • Chalk line with chalk

• Extension cord (50-foot) • Felt marking pens

• Hammer, claw (24 to 40 ounces) • Roll of cellophane tape

• Rotary impact drill and associated drill bits • Steel tape measure (25-foot)

• Insulated trouble lamp (droplight—Duralamp, or equivalent) • Vacuum cleaner, High Efficiency Particulate Arrester (HEPA)

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Prepare Floor 1-4

1 Observe the following guidelines:

a. Verify that layouts of floor, ceiling, and walls are as indicated in applicable drawings and specifications.

b. Verify that area dimensions and location of reference points correspond to floor plan.

c. Mark all reference and layout lines.

d. To avoid possibility of cumulative errors when short dimensions are laid out in a straight line, mark total length, divide into shorter lengths, and leave steel measuring tape in place.

e. Where layout lines intersect, extend lines at least 6 in. beyond point of intersection to check equipment alignment.

NOTE: When the shelf assembly is mounted in a rack next to a wall, clearance from

the backplane requires a minimum of six inches.

2 WARNING: Possibility of equipment damage. Use a level to check entire mounting floor space. Do not try to mount rack on uneven floor.

3 Follow job floor plan, and mark equipment locations on floor with chalk line. See figure2-1 for sample floor plan.rack footprint.

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Prepare Floor 1-5 4 Verify required space for rack. See figure2-1.

5 Follow chalk line to mark front baseline and end of rack.

6 Use felt-tipped marking pen to mark anchor points for rack.

See Figure2-2, floor mounting diagram for standard rack. See Figure2-3, floor mounting diagram for seismic rack.

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Prepare Floor 1-6

Figure 2-2. Floor Mounting Detail for Standard Rack

950-0202-1 022610 CL 20.50 4.26 16.378 8.19 11.27 5.25 2.75 5.25 .5620 DIA 4 HOLES

Floor Mounting Pattern

Rear Baseplate Shown Turned out

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Prepare Floor 1-7 7 Determine rack type, refer to Table 2-A. See Figure2-4 and Figure2-5 for standard

rack assembly mounting dimensions. See Figure2-6 for seismic rack assembly mounting dimensions.

Figure 2-3. Floor Mounting Detail for Unequal Flange Seismic Rack

Table 2-A. Rack Type and Options

PART NUMBER DESCRIPTION QTY

694-9000-006 7.0 Ft. Aluminum Rack 1

690-1125-003 Rack Extension 1

695-1001-006 Aluminum Rack Screw Kit (for EFE) 1 or 2

1AD014120046 7.0 Ft. Seismic Rack 1

695-1001-006 Rack Screw Kit (for Shelf & EFE) 1 or 2

950-0203-1 022610 45o 4.0 4 Slots 1” x 2.75” 2 Slots 1.625” x 3.1875 5.05 5.88 5.0 Front Mounting Surface of Rack Channel

Floor Mounting Pattern Unequal Flange Seismic Rack

21.9375 11.8438 10.1875 2.8125

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Prepare Floor 1-8

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Prepare Floor 1-9 Figure 2-5. Standard Rack (PN 694-9000-006) (2 of 2)

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Prepare Floor 1-10

Figure 2-6. Unequal Flange Seismic Rack (PN 1AD014120046)

950-0207-1 022610 84.00 Standard Height See Rack Grounding Detail (2 Places) 21.9375”

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Prepare Floor 1-11 PREPARE FOR RACK INSTALLATION

8 Racks are typically installed on concrete floors; however, rack can also be bolted to wood or steel floor.

NOTE: Seismic rack installation is effective only on concrete flooring that is at least 6 in. thick, has minimum strength of 300 psi, and is reinforced with 0.5 percent steel rebar.

9 Is installation on concrete floor, raised computer-equipment floor, uni-strut floor anchor system, or wood or steel floor?

If concrete floor, go to step10. If wood or steel floor, go to step26.

Concrete Floor

10 Install floor anchors and mount rack. For standard racks, use Redhead concrete anchors or anchors specified by local practice. For seismic racks, use floor mounting kit (PN 019-0425-150) or anchors as specified by local practice.

11 Position and lock chuck/shank assembly in rotary impact drill.

12 Insert and seat anchor in chuck.

NOTE: Let the tool do the work. Apply only enough pressure to control tool. Vertical

force in excess of weight of tool reduces impact force, thus inhibiting drilling process for self-drill anchors.

13 To position anchor, operate drill in impact mode. Use impact action until teeth are embedded just below concrete surface.

14 DANGER: Possibility of personal injury. Never use air hose to clean dust from a hole, as dust may be blown into eyes and equipment. For the same reason, do not flick out dust. Use HEPA vacuum cleaner to remove dust from hole.

15 Care must be taken to ensure that concrete dust from drilling is contained in

immediate vicinity of drill hole. The following two methods ensure that dust does not spread:

a. Use a HEPA vacuum cleaner to completely remove concrete cuttings from hole while drilling. Hole must be completely clear for proper seating of anchor.

b. Fill disposable cup with shaving cream and place it over drill hole. Drill through bottom of cup. Shaving cream will contain and trap dust particles.

16 Engage rotation mode, then drill until chuck is within 1/16 in. above concrete surface. See figure2-7.

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Prepare Floor 1-12

17 Stop tool and lift approximately 1 in. to disengage impact action, then start tool and withdraw anchor.

18 Disengage rotation action. While anchor is still attached, start tool to expel concrete cuttings from anchor.

19 Completely remove concrete cuttings from hole with vacuum, and inspect hole for any concrete chips. Hole must be completely clear for proper seating of anchor.

20 Insert and lightly seat expansion plug in anchor.

21 Verify that tool is in impact position. Insert anchor in hole and seat with impact action of tool until chuck is 1/16 in. above concrete. See figure2-8.

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Prepare Floor 1-13 22 Break off chucking cone with hard push of tool.

23 Remove chucking cone from chuck.

24 If rack is not to be installed immediately, cover anchors with tape.

25 Go to step30.

Wood or Steel Floor

26 Mark position for rack with four pilot holes for lag bolts, or four clearance holes for machine screws.

27 To mount standard rack on wood or steel floor, use 3/8 in. lag bolts on wood floor, or 1/2 in. screws or studs on steel floor.

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Prepare Floor 1-14

28 Drill 3/16 in. pilot hole for lag bolts, or 9/16 in. clearance hole for machine screws.

29 If rack is not to be installed immediately, cover holes with tape.

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Rack Installation 1-15

Chart-3

Rack Installation

PURPOSE

This chart provides instructions for physically installing a rack. The two types of racks that can be installed are described in the following paragraphs. Refer to Chart-2, for rack illustrations and to Table2-A for rack part numbers.

GENERAL

Rack Descriptions

Standard Rack

The standard rack uses extruded aluminum channels with 12-24 tapped mounting holes vertically spaced at EIA increments. The tapped-hole pattern provides for mounting the modular subsystems on the front of the channels, and the waveguide and rack rear cover on the back. The bottom of the rack is held together by steel angles mounted to the front and back of the rack channels. As an option, the rear angle can be turned in toward the rack channel or toward the rear (normal position) to increase the base dimensions and provide a more stable footing. If the rear angle is turned in, the front angle must be removed during installation for access to the holes in the rear-mounting angle. Two optional snap-on front covers are available. Side covers are provided for the rack. The side covers protect the cable runs and are secured to the card cages and to slots located on the main rack channels. Retaining screws are used at the top and bottom of each side cover.

Seismic Rack

A seismic rack, designed to withstand seismic anomalies, such as earthquakes, is available. The rack frame is steel and consists of the rack top support and front and rear baseplates welded to the rack channels. Side covers fit only the seismic rack and are not interchangeable with side covers on the standard extruded aluminum racks. The side covers protect the cable runs and are secured to the card cages and the rack channels by the side holders. The side covers (left and right) slide onto the side panel holders.

PREREQUISITE

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RECOMMENDED TOOLS

• Safety glasses

• Hammer, claw (24 to 40 ounces) • Level (3-foot)

• Pinch bar

• Shims (0.06-, 0.09-, and 0.12-inch) • Socket set (3/8-inch drive)

• Straps (heavy duty) or rope, as required

• Torque wrench (3/8-inch drive) (80 foot-pound capability) • Vacuum cleaner, (HEPA)

• Wrenches, open-end and box-end combination (3/8- to 11/16- inch)

1 Cover surrounding floor area with protective covering as required by local practice.

2 DANGER: Possibility of personal injury. Brace top of rack during movement to prevent tipping and to avoid strains that can twist or damage backplane.

3 WARNING: Possibility of equipment damage. Brace top of rack during movement to prevent tipping and to avoid strains that can twist or damage backplane.

NOTE: Use a positioning dolly to move equipment to permanent location in

equipment room or vault. If a dolly is not available, use a piece of canvas placed under the rack footing to prevent marring of floor.

4 Move rack to floor location for installation.

5 Raise rack to vertical position.

6 Carefully position rack over mounting anchors. Line up and plumb rack.

7 Use level to check leveling and alignment of rack at base, top, and both sides. When necessary, insert shim under base to assure correct leveling.

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Rack Installation 1-17 8 To secure rack to concrete floor, install anchor, stud, washers, and nut, and then

tighten. Figure3-1 shows a typical method of securing rack to floor. To secure on other than concrete floor, install 3/8in. diameter bolts, flat washers, and lock washers.

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9 Torque floor anchor bolts to 80 foot-pounds.

10 Verify rack leveling and adjust as required.

Rack Top Support

NOTE: Ensure that rack is properly aligned. If rack is twisted, covers may not fit or

may bind.

11 Adequately brace top of rack assembly to ensure reliable support for equipment. Use holes at top of waveguide support in branching area. See Figure3-2 and Figure3-3 for standard rack top support dimensions or Figure3-4 for seismic rack top support dimensions. Figure3-5 shows one method of bracing top support. Adhere to local procedures for top support of specific rack.

NOTE: The extendable rack can rise to any height from 7 ft. 3 in. (2210 mm) to 11 ft.

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Rack Installation 1-19 Figure 3-2. Standard Rack Top Support

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Rack Installation 1-23 12 On extendable rack, loosen setscrews one turn, and extend rack to desired height.

13

Tighten front setscrews (four places) securely, then tighten rear setscrews (four places).

Guardrail Installation

NOTE: Front and rear guardrails provide additional equipment protection. An AC

outlet assembly can be installed on the base plate at the front rail. Side rails are mounted to the front or rear of the rack channel using 0.250-20 hardware.

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Adjacent Rack Installation

15 See Figure3-7 for attaching adjacent racks using rack-to-rack mounting kits.

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PDU Installation 1-27

Chart-4

PDU Installation

PURPOSE

This chart provides instructions to physically mount the PDU into the rack.

GENERAL

NOTE: This chart is required for systems when the PDU is NOT factory installed in the rack. If the PDU is factory installed in the rack, skip this chart and continue with the next chart.

Mounting the PDU requires three rack increments. The fuse panel provides fuses for up to four 9500 MPR shelves (sixteen 20 Amp fuses; two A and B + and two A and B - per shelf) and two AUX shelves (eight 10 Amp fuses). Battery input voltage can be 19 to 60 V DC.

An optional relay card is available that provides eight Form-C relay outputs for radio major and minor alarms. A front panel alarm LED is provided to indicate a blown fuse. No rack or shelf alarms are provided on the fuse panel.

PREREQUISITE

Complete Chart-3Rack Installation.

RECOMMENDED TOOLS

• PDU, Alcatel-Lucent PN: 3EM13317AA

• Alarm Board Assembly (Optional), Alcatel-Lucent PN: 3EM10496AA • Rack screws, Alcatel-Lucent PN: 330-2882-030, Qty 4,

P/O Aluminum Rack Screw Kit, Alcatel-Lucent PN: 695-1001-006 • Phillips screwdriver

1 Determine Rack type and rack screw type required.

2 Mount the PDU per site engineering documentation, typically in the top three increments of the rack, using four rack screws. See Figure4-1 and Figure4-2.

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3 Tighten the rack screws.

4 STOP. This procedure is complete.

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Route and Terminate Station Ground and Office Battery Power Cables 1-31

Chart-5

Route and Terminate Station Ground and Office Battery Power

Cables

PURPOSE

This chart provides instructions to route and connect the station ground cable to a standard or seismic rack, and to route and connect office battery power to the Power Distribution Unit (PDU).

GENERAL

Establish equipment or station ground in accordance with your company grounding requirements for all installations. The 9500 MPR radio operates on -48-V DC input power. Office power is connected to the (PDU) which in turn connects to the backplane of the shelf assembly. The PDU provides the transition from the large cables that run from the office power board to the smaller cables that provide power to the shelf assemblies.

The fuse panel has floating battery inputs to handle either positive or negative 24/48 V DC operation. The strap for grd should only be used when the rectifier source of power at the site has not been bonded to the common bonding network (CBN) of the building. In this application the fuse panel must be grounded to the rack rail. In all other applications, the grd strap should not be used to avoid ground loops.

PREREQUISITE

Complete Chart-4PDU Installation. All power must be turned off at the source.

RECOMMENDED TOOLS

• Thomas & Betts TBM 2, 5, 8, or Hydraulic Tool No. 13642 or TBM15 • Alcatel-Lucent PN: 1AB035020089 (6AWG) ground lugs or equivalent • Alcatel-Lucent PN: 304-0749-000, Amp Inc. PN: 322051 (6AWG) wire or

equivalent

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2 Verify main CO breakers for A and B power are OFF. If not, set them to OFF.

3 Remove PDU front cover.

4 Is the rectifier source of power at the site bonded to the common bonding network (CBN) of the building?

If yes, go to step9. If no, go to step5.

5 Are battery inputs positive or negative voltage? If positive, go to step6.

If negative, go to step8.

6 For floating rectifier system with positive voltage, strap E-37 to E-38 and E-40 to E-41. See Figure5-1.

7 Go to step9.

8 For floating rectifier system with negative voltage, strap E-39 to E-38 and E-42 to E-41. See Figure5-1.

Route Station Ground Cable

9 DANGER: Possibility of personal injury. Before performing this procedure, ensure office power is turned OFF at source.

Figure 5-1. PDU Strap Detail

950-0106-1 091609 Front View Fuse

A + Battery A -Battery B + Battery B -Battery

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Route and Terminate Station Ground and Office Battery Power Cables 1-33 10 Route station ground cable from overhead cable tray to radio rack per cable run list.

11 On standard rack, connect station ground cable to topside of standard rack. See Figure5-2.

On seismic rack, connect station ground cable to topside of seismic rack. See Figure5-3.

12 On both standard rack and seismic racks, the preferred method is to insert ground cable directly crimp lug on cable. See Figure5-4.

NOTE: On seismic rack, remove the paint from the rack where the ground lug is to be installed.

Figure 5-2. Station Ground Standard Rack Detail

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Route Office Battery Cables

13 DANGER: Possibility of personal injury. Before performing this procedure, ensure office power is turned OFF at source.

14 See Figure5-5 for wire size/wire length/current drain relationship. Use the following between the office battery power source and the power distribution unit:

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Route and Terminate Station Ground and Office Battery Power Cables 1-35 Figure 5-5. Wire Sizing Chart

950-0103-1 091609 10 20 30 40 50 60 70 80 90 100 2 3 4 5 6 7 8 9 1 10 20 30 40 50 60 70 80 18 GA 16 GA 14 GA 12 GA 10 GA 8 GA 6 GA 4 GA

THESE CURVES ASSUME THE SAME SIZE WIRE FOR BATTERY AND GROUND BETWEEN EQUIPMENT AND POWER SOURCE 0.5 VOLT DROP @ 25oC

FEET OF WIRE BETWEEN BATTERY AND EQUIPMENT

CURRENT DRAIN (AMPS) TYPICAL 24 V TYPICAL 48 V

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15 WARNING: Possibility of equipment damage. When torquing on A and B battery studs on PDU do not exceed 35 inch lbs. Excessive torque will cause studs to become stripped.

16 Route power cables (-) from office battery source to power distribution unit in rack. See Figure5-6 and Figure5-7.

17 Connect power cables (-) to NEG A and NEG B BATTERY studs at power distribution unit in rack. See Figure5-6 and Figure5-7.

Figure 5-6. PDU Battery Interconnect Detail

950-0105-1 091609 Front View Fuse

A + Battery A -Battery B + Battery B -Battery BATTERY INPUT

WIRE SIZE No. 4 (Max)

POWER DISTRIBUTION UNIT ISOMETRIC VIEW - CIRCUIT BOARD

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Route and Terminate Station Ground and Office Battery Power Cables 1-37 18 Route return cables (+) from battery source to power distribution unit in rack. See

Figure5-6 and Figure5-7.

19 Connect to POS A and POS B BATTERY studs at power distribution unit. See Figure5-6, and Figure5-7.

20 Replace PDU front panel.

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MSS-8 Shelf Installation 1-39

Chart-6

MSS-8 Shelf Installation

PURPOSE

This chart provides instructions to physically mount the MSS-8 shelf into the rack.

GENERAL

NOTE: This chart is required for systems when the MSS-8 shelf are NOT factory installed in the rack. If the MSS-8 shelf are factory installed in the rack, skip this chart and continue with the next chart.

The MSS-8 shelf requires two rack increments. The typical installation mounts the MSS-8 shelf in rack increments 24 and 25. Rack increments 20 through 23 and 26 and 27 are reserved to run cables, mount patch panels, type N adapter bracket, and cable standoffs.

The MSS-8 shelf provides two rack mounting depth options: flush mount or 5-inch projection. The 5-inch projection is the factory default.

For more detailed information, refer to 9500 MPR Engineering Support Documentation manual (PN 3EM23957AB) and see drawing 3EM227840000RJZZA.

PREREQUISITE

Complete Chart-3, Rack Installation.

RECOMMENDED TOOLS

• MSS-8 Shelf Kit:

– Includes Fan module, Alcatel-Lucent PN: 3EM22715AA

– Includes Fan module with external alarm support, Alcatel-Lucent PN: 3EM22715AC

• Rack screws, Alcatel-Lucent PN: 330-2882-030, Qty 4, P/O MSS-8 Shelf Kit

• Phillips screwdriver, #2

1 Set shelf rack mounting depth to either flush mount or 5-inch projection per site engineering documentation.

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MSS-8 Shelf Installation

2 Position the MSS-8 shelf in the rack per site engineering documentation, typically there will be 3 rack spaces above and 2 rack spaces below the shelf available. See Figure6-1.

3 Hold the MSS-8 shelf in place and install four rack screws. See Figure6-2.

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4 Tighten the rack screws.

5 Additional shelves to be mounted?

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Route and Terminate 9500 MPR Shelf Power Cables 1-43

Chart-7

Route and Terminate 9500 MPR Shelf Power Cables

PURPOSE

This chart provides instructions to connect the 9500 MPR shelf power supply cables to the PDU.

GENERAL

NOTE: This chart is required for systems when the MSS-8 shelf power cables are NOT factory installed in the rack. If the MSS-8 shelf power cables are factory installed in the rack, skip this chart and continue with the next chart.

The 9500 MPR radio operates on -48-V DC (-48-V DC to -60-V DC +/-20 percent) input power. Office power is connected to the (PDU) which in turn connects to the power supply on the MSS-8 shelf. Two power cables may be used with each MSS-8 shelf, but only 1 power cable is required to provide power to both main A and protect B sides of the MSS-8 shelf. However, 2 power cables are required to provide fused power backup in case of a blown fuse or bad cable/connection. The main side A of the MSS-8 shelf should be fused through the A side of the fuse panel, and the protect side B of the MSS-8 shelf should be fused through the B side of the fuse panel.

PREREQUISITE

Complete Chart-4, PDU Installation.

Complete Chart-6, MSS-8 Shelf Installation. All power must be turned OFF.

RECOMMENDED TOOLS

• Power Cable, Alcatel-Lucent PN: 3DB18271AA

• Crimp on lugs (yellow), Alcatel-Lucent PN: 304-1540-070 • Crimp tool for 10-12 AWG lug

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MSS-8 Shelf Power Cable Installation

1 Locate the MSS-8 shelf main side power A and spare side power B connectors. See Figure7-1.

2 Attach the main power cable to the MSS-8 shelf main side power connector.

3 Attach the protect power cable to the MSS-8 shelf spare side power connector if redundant shelf power is configured.

4 Route the power cables from the front of the MSS-8 shelf to the back of the rack. See Figure7-2.

5 Route the power cable(s) up the right side of the rack using cable standoff supports to the PDU. Refer to Table7-A. Refer to Cable Routing section.

Figure 7-1. MSS-8 Shelf Power Connection Detail

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Route and Terminate 9500 MPR Shelf Power Cables 1-45 6 Additional MSS-8 shelf power cables to install?

Route and Terminate Power Cable to PDU

7 Continue routing the cable(s) up the back of the rack to the top. See Figure7-3.

8 If applicable, route the B-side power cable into the back of the PDU. See Figure7-4.

Figure 7-3. Power Cable Routing Detail

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9 For MSS-8 shelves, either route the A-side power cable into the back of the PDU. See Figure7-4. Or route the A-side power cable up to the cable ladder, across the top of the rack and down the other side of the back of the rack and into the back of the PDU. See Figure7-5.

10

Cut the power cables to desired length.

Refer to Table7-A.

11

Strip back 6 inches to attach crimp on lugs. Cable length is 13.1 ft.

See Figure7-6.

Figure 7-5. A-Side Power to PDU Routing

Table 7-A. PDU Power Cable Termination Details FUSE PANEL (E-PIN) DEFINITION

EQUIPMENT

A SIDE B SIDE

POS NEG _GRD1

[1] GRD lug connections are unused in 9500 MPR radio applications.

POS NEG _GRD1

BLK BLU N/A BLK BLU N/A

Shelf 1 E1 E7 E25 E18 E24 E36

Shelf 2 E2 E8 E26 E17 E23 E35

Shelf 3 E3 E9 E27 E16 E22 E34

Shelf 4 E4 E10 E28 E15 E21 E33

Auxiliary E5 E11 E29 E14 E20 E32

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Route and Terminate 9500 MPR Shelf Power Cables 1-47 12 Attach the crimp on lugs to the PDU. See Figure7-6 and refer to Table7-A.

Figure 7-6. Power Cable Detail

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Type N Adapter Bracket Installation 1-49

Chart-8

Type N Adapter Bracket Installation

PURPOSE

This chart provides instructions to physically mount and cable Type N adapter bracket into the rack.

GENERAL

NOTE: This chart is only required for applications which include MOD300 module and are configured with the Type N Adapter Bracket for transition between the MOD300 module connector to LMR-400 cable. For applications without the Type N Adapter Bracket, continue on to the next chart.

NOTE: This chart is required for systems when the Type N Adapter Brackets are NOT factory installed in the rack. If the Type N Adapter Brackets are factory installed in the rack, skip this chart and continue with the next chart.

The 9500 MPR Type N adapter bracket transitions the MD300 IF connector to Type N connector. For non-protected radio hops, one cable is required. For protected radio hops, two cables are required. Alcatel-Lucent provides expert Installation Services for installations that have different

requirements from the recommended configuration as outlined in this manual. Contact the Alcatel-Lucent Welcome Center at 1-866-582-3688 for details.

PREREQUISITE

Rack Installation must be completed. Refer to Chart-3.

RECOMMENDED TOOLS

Type N Adapter Bracket

• Type N Adapter Bracket Alcatel-Lucent PN: 3EM23272AA

• Jumper Cable Alcatel-Lucent PN: 3EM23311AA (1 each for non protected, 2 each for protected)

• Rack Screws Alcatel-Lucent PN: 330-2882-030, Qty 2

• #2 Phillips Head Screwdriver and a small Flat Blade Screwdriver

1 Position the Type N adapter bracket per site engineering documentation, typically one rack increment below the MSS-8 shelf. See Figure8-1.

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Type N Adapter Bracket Installation 1-50

2 Secure the bracket by using 2 rack screws.

3 Route the Jumper cable(s) from the 9500 MPR MOD300 module to the Type N adapter bracket. See Figure8-1 and Figure8-2.

4 Additional Type N adapter bracket and cable(s) to install? If yes, go to step1.

If no, go to step5.

Figure 8-1. Type N Adapter Bracket Mounting Detail

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DS1 Patch Panel Installation 1-51

Chart-9

DS1 Patch Panel Installation

PURPOSE

This chart provides instructions to physically mount and cable DS1 RJ-45 patch panel, and DS1 37 pin D patch panel into the rack.

GENERAL

NOTE: This chart is only required for applications which include P32E1DS1 module and are configured with the DS1 Patch Panel for transition between the P32E1DS1 module connector to DS1 cable interconnect. For applications without the DS1 Patch Panel, continue on to the next chart.

NOTE: This chart is required for systems when the DS1 Patch Panel is NOT factory installed in the rack. If the DS1 Patch Panel is factory installed in the rack, skip this chart and continue with the next chart.

The DS1 RJ-45 patch panel converts the P32E1DS1 module SCSI connectors to RJ-45 connectors. For non-protected DS1 configurations two cables are required per P32E1DS1 module, for protected DS1 configurations four cables are required per P32E1DS1 module.

The DS1 37 pin D patch panel converts the P32E1DS1 module SCSI connectors to 37-position D-Sub connectors. For non-protected DS1 configurations two cables are required per P32E1DS1 module, for protected DS1 configurations four cables are required per P32E1DS1 module.

For more detailed information, refer to 9500 MPR Engineering Support Documentation manual (PN 3EM23957AB) and see drawing 3EM227840000EJZZA.

PREREQUISITE

MSS-8 Shelf Installation must be completed. Refer to Chart-6.

RECOMMENDED TOOLS

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DS1 RJ-45 patch panel

• DS1 RJ-45 patch panel Alcatel-Lucent PN: 1AF15245AB, Qty 1 per P32E1DS1 module

• 68 pin SCSI Cable, Alcatel-Lucent PN: 3CC52118AA:

– Non-Protected DS1 configuration, Qty 2 per P32E1DS1 module – Protected DS1 configuration, Qty 4 per P32E1DS1 module • Rack screws, Qty 4

– Aluminum Rack Screws, Alcatel-Lucent PN: 330-2882-030, Qty 4, P/O Aluminum Rack Screw Kit, Alcatel-Lucent PN: 695-1001-006 or

– Seismic Rack Screws, Alcatel-Lucent PN: 1AD054360001, Qty 4, P/O Seismic Rack Screw Kit, Alcatel-Lucent PN: 695-1001-007

DS1 37 Pin D Patch Panel

• DS1 37 Pin D Patch Panel, Alcatel-Lucent PN: 3DB16102AA, Qty 1 per P32E1DS1 module

• DS1 37 Pin D Patch Panel Mounting Bracket, Alcatel-Lucent PN: 3DB16109AA, Qty 1 per 37 Pin D Patch Panel

• 68 pin SCSI Cable, Alcatel-Lucent PN: 3CC52118AA:

– Non-Protected DS1 configuration, Qty 2 per P32E1DS1 module – Protected DS1 configuration, Qty 4 per P32E1DS1 module • Rack screws, Qty 4

– Aluminum Rack Screws, Alcatel-Lucent PN: 330-2882-030, Qty 4, P/O Aluminum Rack Screw Kit, Alcatel-Lucent PN: 695-1001-006 or

– Seismic Rack Screws, Alcatel-Lucent PN: 1AD054360001, Qty 4, P/O Seismic Rack Screw Kit, Alcatel-Lucent PN: 695-1001-007

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1 Which bracket or panel to be installed?

If DS1 RJ-45 patch panel, go to step 2. If DS1 37 Pin D Patch Panel, go to step 7.

DS1 RJ-45 Patch Panel

2 Position the DS1 RJ-45 patch panel per site engineering documentation, typically two and one-half rack increment above the MSS-8 shelf. See Figure9-1.

3 Secure the patch panel by using 4 rack screws.

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4 Route, connect and secure the SCSI to SCSI cable from the MSS-8 shelf to the RJ-45 patch panel.

Run the SCSI cables under the radio to the back of the rack and up to the patch panel. See Figure9-2 and Figure9-3 for an example of a finished radio install.

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DS1 Patch Panel Installation 1-55 5 WARNING: Possibility of equipment damage. Do not overtighten the cable mounting

screws, this could cause them to break off inside the connector standoffs. 6 Install additional DS1 RJ-45 patch panel?

DS1 37 Pin Patch Panel

7 Mount the DS1 37 pin D patch panel to the mounting bracket. See Figure9-4.

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8 Mount the DS1 37 pin D patch panel mounting bracket to the rack per site engineering documentation, typically two rack increment above the MSS-8 shelf. See Figure9-5.

9 Secure the patch panel by using 4 rack screws.

10 Route, connect, and secure the SCSI to SCSI cables from the MSS-8 shelf to the 37 pin D patch panel.

Figure 9-4. DS1 37 Pin D Patch Panel and Rack Mount Bracket Detail

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DS1 Patch Panel Installation 1-57 11 Run the SCSI cables under the radio to the back of the rack and up to the patch panel.

See Figure9-2 and See Figure9-3 for an example of a finished radio install.

12 WARNING: Possibility of equipment damage. Do not overtighten the cable mounting screws, this could cause them to break off inside the connector standoffs.

13 Install additional DS1 37 pin D patch panel? If yes, go to step7.

If no, go to step14.

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Integrated Antenna and ODU Installation 1-59

Chart-10

Integrated Antenna and ODU Installation

PURPOSE

This chart provides instructions to physically mount integrated antenna mounts, integrated antennas, ODUs, and ODU couplers.

This chart also provides instructions for setting the polarization on the integrated antenna. This chart also provides instructions for mounting the ODU coupler to the integrated antenna. This chart also provides instructions for mounting the ODU to the integrated antenna.

GENERAL

NOTE: This chart is only required for applications which include integrated antenna and ODU installation. For applications without integrated antenna and ODU installation, continue on to the next chart.

Integrated Antenna Mount

For direct-mounted ODU's the antenna includes a collar with integral polarization rotator. Dependent on frequency band, these antennas are available in diameters up to 1.8m (6 ft.). For direct-mounted ODU's, polarization is determined by the setting of the polarization rotator. The polarization of the transmitted signal, horizontal or vertical is determined by the position of the polarization rotator fitted within the ODU mounting collar. The ODU is then mounted on the collar to match the chosen polarization. The rotator is an integral part of the antenna mount. Vertical polarization is the default setting. If the rotator is not set for the required polarization, you must adjust its orientation. This topic includes typical adjustment procedures for RFS and Andrew antennas.

For direct-mounted ODU’s in hot standby configuration, a ODU coupler will be mounted to the antenna and the two ODU’s will mount to the coupler.

Alcatel-Lucent provides expert Installation Services for installations that have different requirements from the recommended configuration as outlined in this manual. Contact the Alcatel-Lucent Welcome Center at 1-866-582-3688 for details.

PREREQUISITE

None

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RECOMMENDED TOOLS

• Integrated antenna: Refer to Table 10-A

• ODU: Refer to Table 10-B

– Unprotected configuration, Qty 1 – Protected configuration, Qty 2

• ODU Coupler (Hot standby configuration only): Refer to Table 10-C

• Set of metric wrenches or metric socket set • Set of metric allen keys

Table 10-A. Integrated Antenna Details

INTEGRATED ANTENNA PART NUMBER

ODU Refer to Table 10-B

ODU Coupler Refer to Table 10-C

DIRECT MOUNT ANTENNA, L6 GHz

D.M. ANTENNA 5.92-6.425 GHz, 1.2 M HPLP-R 3CC56003AAAA

DIRECT MOUNT ANTENNA, U6 GHz

DIRECT MOUNT ANTENNA, 7/8 GHz

DIRECT MOUNT ANTENNA, 11 GHz

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Table 10-B. ODU Details

ITEM DESCRIPTION Part Number QTY

ODU, L6 GHz, 252.04 MHz SEPARATION 5930-6020 MHz, HP, TX LOW 3DB23047AA 1 or 2 6182-6272 MHz, HP TX HIGH 3DB23047AD 1 or 2 5989-6079 MHz, HP TX LOW 3DB23047AB 1 or 2 6241-6331 MHz, HP TX HIGH 3DB23047AE 1 or 2 6078-6168 MHz, HP TX LOW 3DB23047AC 1 or 2 6330-6420 MHz, HP TX HIGH 3DB23047AF 1 or 2

ODU W/LIGHTNING SURGE SUPPRESSOR1, L6 GHz, 252.04 MHz SEPARATION

5930-6020 MHz, HP, TX LOW 3DB23215HA 1 or 2

6182-6272 MHz, HP TX HIGH 3DB23215HD 1 or 2

5989-6079 MHz, HP TX LOW 3DB23215HB 1 or 2

6241-6331 MHz, HP TX HIGH 3DB23215HE 1 or 2

6078-6168 MHz, HP TX LOW 3DB23215HC 1 or 2

Table 10-A. Integrated Antenna Details

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Integrated Antenna and ODU Installation 1-62 6330-6420 MHz, HP TX HIGH 3DB23215HF 1 or 2 ODU, U6 GHz, 160 MHz SEPARATION 6540-6610 MHz, HP TX LOW 3DB23214AA 1 or 2 6710-6780 MHz, HP TX HIGH 3DB23214AB 1 or 2 6590-6660 MHz, HP TX LOW 3DB23214AC 1 or 2 6760-6830 MHz, HP TX HIGH 3DB21214AD 1 or 2 6640-6710 MHz, HP TX LOW 3DB23214AE 1 or 2 6800-6870 MHz, HP TX HIGH 3DB23214AF 1 or 2

ODU W/Lightning Surge Suppressor1, U6 GHz, 160 MHz SEPARATION

6540-6610 MHz, HP TX LOW 3DB23214HA 1 or 2 6710-6780 MHz, HP TX HIGH 3DB23214HB 1 or 2 6590-6660 MHz, HP TX LOW 3DB23214HC 1 or 2 6760-6830 MHz, HP TX HIGH 3DB21214HD 1 or 2 6640-6710 MHz, HP TX LOW 3DB23214HE 1 or 2 6800-6870 MHz, HP TX HIGH 3DB23214HF 1 or 2 ODU, 6 GHz, 340 MHz SEPARATION 6430-6590 MHz, HP TX LOW 3DB23216AA 1 or 2 6770-6930 MHz, HP TX HIGH 3DB23216AB 1 or 2 6515-6675 MHz, HP TX LOW 3DB23216AC 1 or 2 6855-7015 MHz, HP TX HIGH 3DB23216AD 1 or 2 6600-6760 MHz, HP TX LOW 3DB23216AE 1 or 2 6940-7100 MHz, HP TX HIGH 3DB23216AF 1 or 2

ODU W/LIGHTNING SURGE SUPPRESSOR1, 6 GHz, 340 MHz SEPARATION

6430-6590 MHz, HP TX LOW 3DB23216HA 1 or 2 6770-6930 MHz, HP TX HIGH 3DB23216HB 1 or 2 ODU, 7 GHz, 175 MHz SEPARATION 7124-7185 MHz, HP TX LOW 3DB23223BA 1 or 2 7300-7360 MHz, HP TX HIGH 3DB23224AA 1 or 2 7157.5-7217.5 MHz, HP TX LOW 3DB23225AA 1 or 2 7332.5-7392.5 MHz, HP TX HIGH 3DB23226AA 1 or 2 7190-7250 MHz, HP TX LOW 3DB23227AA 1 or 2 7365-7425 MHz, HP TX HIGH 3DB23228AA 1 or 2

7124-7185 MHz, HP TX LOW 3DB23223HA 1 or 2

7300-7360 MHz, HP TX HIGH 3DB23224HA 1 or 2

Table 10-B. ODU Details (cont.)

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Integrated Antenna and ODU Installation 1-63 7157.5-7217.5 MHz, HP TX LOW 3DB23225HA 1 or 2 7332.5-7392.5 MHz, HP TX HIGH 3DB23226HA 1 or 2 7190-7250 MHz, HP TX LOW 3DB23227HA 1 or 2 7365-7425 MHz, HP TX HIGH 3DB23228HA 1 or 2 ODU, 7 GHz, 150 MHz SEPARATION 7424-7485 MHz, HP TX LOW 3DB23217BA 1 or 2 7575-7635 MHz, HP TX HIGH 3DB23218AA 1 or 2 7470-7530 MHz, HP TX LOW 3DB23219AA 1 or 2 7620-7680 MHz, HP TX HIGH 3DB23220AA 1 or 2 7515-7575 MHz, HP TX LOW 3DB23221AA 1 or 2 7665-7725 MHz, HP TX HIGH 3DB23222AA 1 or 2

7424-7485 MHz, HP TX LOW 3DB23217HA 1 or 2 7575-7635 MHz, HP TX HIGH 3DB23218HA 1 or 2 7470-7530 MHz, HP TX LOW 3DB23219HA 1 or 2 7620-7680 MHz, HP TX HIGH 3DB23220HA 1 or 2 7515-7575 MHz, HP TX LOW 3DB23221HA 1 or 2 7665-7725 MHz, HP TX HIGH 3DB23222HA 1 or 2 ODU, 8 GHz, 300 MHz SEPARATION 7725-7859 MHz, HP TX LOW 3DB23033AA 1 or 2 8025-8171 MHz, HP TX HIGH 3DB23033AC 1 or 2 7844-7980 MHz, HP TX LOW 3DB23033AB 1 or 2 8145-8287 MHz, HP TX HIGH 3DB23033BD 1 or 2

7722.5-7859 MHz, HP TX LOW 3DB23033HA 1 or 2 8025-8171 MHz, HP TX HIGH 3DB23033HC 1 or 2 7844-7981 MHz, HP TX LOW 3DB23033HB 1 or 2 8145-8287 MHz, HP TX HIGH 3DB23033HD 1 or 2 ODU, 10.5 GHz, 65 MHz SEPARATION 10550-10560 MHz, TX LOW 3DB23241AA 1 or 2 10615-10625 MHz, TX HIGH 3DB23242AA 1 or 2 10560-10570 MHz, TX LOW 3DB23243AA 1 or 2 10625-10635 MHz, TX HIGH 3DB23244AA 1 or 2 10570-10580 MHz, TX LOW 3DB23245AA 1 or 2 10635-10645 MHz, TX HIGH 3DB23246AA 1 or 2

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Integrated Antenna and ODU Installation 1-64 10580-10590 MHz, TX LOW 3DB23247AA 1 or 2 10645-10655 MHz, TX HIGH 3DB23248AA 1 or 2 10590-10600 MHz, TX LOW 3DB23249AA 1 or 2 10655-10665 MHz, TX HIGH 3DB23250AA 1 or 2 10600-10610 MHz, TX LOW 3DB23251AA 1 or 2 10665-10675 MHz, TX HIGH 3DB23252AA 1 or 2 10605-10615 MHz, TX LOW 3DB23253AA 1 or 2 10670-10680 MHz, TX HIGH 3DB23254AA 1 or 2

ODU W/LIGHTNING SURGE SUPPRESSOR1, 10.5 GHz, 65 MHz SEPARATION

10550-10560 MHz, TX LOW 3DB23241HA 1 or 2 10615-10625 MHz, TX HIGH 3DB23242HA 1 or 2 10560-10570 MHz, TX LOW 3DB23243HA 1 or 2 10625-10635 MHz, TX HIGH 3DB23244HA 1 or 2 10570-10580 MHz, TX LOW 3DB23245HA 1 or 2 10635-10645 MHz, TX HIGH 3DB23246HA 1 or 2 10580-10590 MHz, TX LOW 3DB23247HA 1 or 2 10645-10655 MHz, TX HIGH 3DB23248HA 1 or 2 10590-10600 MHz, TX LOW 3DB23249HA 1 or 2 10655-10665 MHz, TX HIGH 3DB23250HA 1 or 2 10600-10610 MHz, TX LOW 3DB23251HA 1 or 2 10665-10675 MHz, TX HIGH 3DB23252HA 1 or 2 10605-10615 MHz, TX LOW 3DB23253HA 1 or 2 10670-10680 MHz, TX HIGH 3DB23254HA 1 or 2 ODU, 11 GHz, 490-500 MHz SEPARATION 10675-10835 MHz, TX LOW 3DB23035AA 1 or 2 11200-11345 MHz, TX HIGH 3DB23035AE 1 or 2 10795-10995 MHz, TX LOW 3DB23035AB 1 or 2 11310-11465 MHz, TX HIGH 3DB23035AF 1 or 2 10915-11075 MHz, TX LOW 3DB23035AC 1 or 2 11430-11585 MHz, TX HIGH 3DB23035AG 1 or 2 11035-11200 MHz, TX LOW 3DB23035AD 1 or 2 11550-11705 MHz, TX HIGH 3DB23035AH 1 or 2

ODU W/LIGHTNING SURGE SUPPRESSOR1, 11 GHz, 490-500 MHz SEPARATION

10675-10835 MHz, TX LOW 3DB23035HA 1 or 2

11200-11345 MHz, TX HIGH 3DB23035HE 1 or 2

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Integrated Antenna and ODU Installation 1-65 10795-10995 MHz, TX LOW 3DB23035HB 1 or 2 11310-11465 MHz, TX HIGH 3DB23035HF 1 or 2 10915-11075 MHz, TX LOW 3DB23035HC 1 or 2 11430-11585 MHz, TX HIGH 3DB23035HG 1 or 2 11035-11200 MHz, TX LOW 3DB23035HD 1 or 2 11550-11705 MHz, TX HIGH 3DB23035HH 1 or 2 ODU, 15 GHz, 475 MHz SEPARATION

ODU, 14500-14660 MHZ, TX LOW 3DB23039AC 1 or 2

ODU, 14975-15135 MHZ, TX HIGH 3DB23039AD 1 or 2

ODU, 14500-14660 MHZ, TX LOW 3DB23039HC 1 or 2

ODU, 14975-15135 MHZ, TX HIGH 3DB23039HD 1 or 2

ODU, 15 GHz, 475/490 MHz SEPARATION

ODU, 14627-14873 MHZ, TX LOW 3DB23039AA 1 or 2

ODU, 15117-15348 MHZ, TX HIGH 3DB23039AB 1 or 2

ODU W/LIGHTNING SURGE SUPPRESSOR1, 15 GHz, 475/490 MHz SEPARATION

ODU, 14627-14873 MHZ, TX LOW 3DB23039HA 1 or 2

ODU, 15117-15348 MHZ, TX HIGH 3DB23039HB 1 or 2

ODU, 15 GHz, 640 MHz SEPARATION

ODU, 14500-14714.5 MHZ, TX LOW 3DB23295HA 1 or 2

ODU, 15136.5-15350 MHZ, TX HIGH 3DB23292HB 1 or 2

17700-18140 MHz, TX LOW 3DB23062AC 1 or 2

19260-19700MHz, TX HIGH 3DB23062AD 1 or 2

17700-18140 MHz, TX LOW 3DB23062HC 1 or 2

19260-19700MHz, TX HIGH 3DB23062HD 1 or 2

ODU, 22400-22770 MHZ, TX HIGH 3DB23045AE 1 or 2

ODU, 21475-21845 MHZ, TX LOW 3DB23045AB 1 or 2

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ODU, 22675-23045 MHZ, TX HIGH 3DB23045AF 1 or 2

ODU, 22950-23320 MHZ, TX HIGH 3DB23045AG 1 or 2

ODU, 22030-22400 MHZ, TX LOW 3DB23045AD 1 or 2

ODU, 23230-23600 MHZ, TX HIGH 3DB23045AH 1 or 2

ODU, 22400-22770 MHZ, TX HIGH 3DB23045HE 1 or 2

ODU, 21475-21845 MHZ, TX LOW 3DB23045HB 1 or 2 ODU, 22675-23045 MHZ, TX HIGH 3DB23045HF 1 or 2 ODU, 21750-22120 MHZ, TX LOW 3DB23045HC 1 or 2 ODU, 22950-23320 MHZ, TX HIGH 3DB23045HG 1 or 2 ODU, 22030-22400 MHZ, TX LOW 3DB23045HD 1 or 2 ODU, 23230-23600 MHZ, TX HIGH 3DB23045HH 1 or 2 ODU, 26 GHz, 1008 MHz SEPARATION

ODU, 25825-26185 MHZ, TX HIGH 3DB23259AD 1 or 2

ODU, 25085-25445 MHZ, TX LOW 3DB23259AE 1 or 2

ODU, 26093-26453 MHZ, TX HIGH 3DB23259AF 1 or 2

ODU, 25557-25917 MHZ, TX HIGH 3DB23259HB 1 or 2

ODU, 24817-25177 MHZ, TX LOW 3DB23259HC 1 or 2

ODU, 25825-26185 MHZ, TX HIGH 3DB23259HD 1 or 2

ODU, 25085-25445 MHZ, TX LOW 3DB23259HE 1 or 2

ODU, 26093-26453 MHZ, TX HIGH 3DB23259HF 1 or 2

[1] ODU’s with Lightning Surge Suppressor are supported by 9500 MPR release R01.02 and are not supported by R01.00 and R01.01.

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1 Which action to be performed?

If integrated antenna mount, go to step 2.

If setting Polarization on integrated antenna, go to step 8.

If mounting ODU coupler to the integrated antenna, go to step 14. If mounting the ODU to the integrated antenna, go to step 14.

If integrated antenna and ODU installation is complete, go to step25.

Table 10-C. ODU Coupler Details

ODU COUPLER PART NUMBER

ODU COUPLER 6 GHz

6 GHz Band (1.5 dB/6 dB) Unequal Coupler 3CC58020AAAA

ODU COUPLER 7/8 GHz

7/8 GHz Band (3 dB/3 dB) Equal Coupler 3CC58025AAAA

7/8 GHz Band (1.5 dB/6 dB) Unequal Coupler 3CC58019AAAA

11 GHz Band (3 dB/3 dB) Equal Coupler 3CC58023AAAA

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2 Mount antenna(s) in accordance with the manufacturer's instructions.

For direct-mounted ODU's the antenna includes a collar with integral polarization rotator. Dependent on frequency band, these antennas are available in diameters up to 1.8m (6 ft.).

For direct-mounted ODU's, polarization is determined by the setting of the polarization rotator.

3 Hold the antenna mount on the pipe mount. See Figure10-1.

4 Install the lock down clamp on the backside of the pipe mount. See Figure10-1.

5 Install the flat washer, lock washer and nut to the bolts holding the lock down clamp. See Figure10-1.

6 Hand tighten the nuts evenly and torque to the specifications listed in the antenna installation instructions supplied with each antenna See Figure10-1, Figure10-2, and Figure10-3.

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Integrated Antenna and ODU Installation 1-69 NOTE: Antennas must be installed in accordance with the manufacturer's

instructions.

7 Go to step1.

Figure 10-2. Integrated Antenna Mount Detail Continued

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Setting Polarization on Integrated Antennas

The polarization of the transmitted signal, horizontal or vertical is determined by the position of the polarization rotator fitted within the ODU mounting collar. The ODU is then mounted on the collar to match the chosen polarization. The rotator is an integral part of the antenna mount. Vertical polarization is the default setting. If the rotator is not set for the required polarization, you must adjust its orientation. This topic includes typical adjustment procedures for RFS and Andrew antennas.

NOTE: Antenna installation instructions are included with all antennas. These

instructions are included in the procedures for setting polarization.

8 To change the polarization of the Andrew antenna: Release (do not completely undo) the six metric Allen-head screws approximately 10 mm (3/8 inch). Pull the collar forward and hold the rotator back, which will allow the rotator to disengage from a notch in the collar, and turn freely.

9 Turn the rotator hub 90× until it locates back into a notched "timing recess" in the collar.

10 Check that the timing mark on the rotator hub has aligned with either a V or an H on the collar to confirm polarization. See Figure10-4.

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Integrated Antenna and ODU Installation 1-71 11 Ensure the rotator hub is correctly seated within its collar, then push the collar back

against the antenna mount.

12 Re-tighten the six screws.

13 Go to step1.

Mount ODU to the integrated Antenna

14 Orient the ODU to match the polarity of the antenna See Figure10-5.

NOTE: ODU should be installed with its connectors facing down.

15 Check that the ODU mounting collar, polarization rotator, ODU waveguide feed head and O-ring, are undamaged, clean, and dry.

16 Set the polarization rotator for the required polarization. Refer to setting the polarization.

17 Apply a thin layer of silicon grease (included in the ODU installation kit) around the ODU feed-head O-ring.