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Oracle EAGLE Installation Manual

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Oracle® Communications
EAGLE Installation Guide
Release 47.0
F41411-03
August 2023

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Summary of Contents for Oracle EAGLE

  • Page 1 Oracle® Communications EAGLE Installation Guide Release 47.0 F41411-03 August 2023...
  • Page 2 Oracle Corporation and its affiliates disclaim any liability for any damages caused by use of this software or hardware in dangerous applications.

  • Page 3: Table Of Contents

    Hardware Operational Testing Components Overview Card Installation and Replacement Labeling 3.4.1 Cable Labeling 3.4.2 Fuse and Alarm Panel Labeling 3.4.2.1 Label Kit for FAP (P/N 870-2804-001) 3.4.2.2 Label Kit for FAP (P/N 870-1606-xx/870-2320-xx) EAGLE Post-Installation Inspection Frames and Shelves Unpacking...
  • Page 4 Floor Preparation 4.2.1 Recommended Tools 4.2.2 Raised Floor 4.2.2.1 Recommended Tools 4.2.2.2 Drill Cable Holes 4.2.2.3 Heavy Duty Frame Anchoring 4.2.2.4 Raised Floor Earthquake Bracing 4-13 4.2.3 Concrete Floor 4-15 4.2.4 Recommended Tools 4-15 Anchoring to Overhead Rack of Heavy Duty Frame 4-18 Removing Frame Panels 4-19...
  • Page 5 6-18 6.3.1 Upgrading to E5-MCPM-B Module (MCPM) 6-18 6.3.2 Measurement Collection and Polling Module (MCPM) 6-24 6.3.3 Removing a Card in an Existing EAGLE System 6-30 Fan Assembly Installation and Cabling 6-32 6.4.1 Installing Fan Assembly 890-0001-04 6-33 6.4.2 Installing Fan Cables 6-41 6.4.3...
  • Page 6 6.8.5 Holdover Clock Alarm Connections 6-100 6.8.5.1 BITS Clock Source Cables 6-102 6.8.6 Replacing Holdover Clock Rear Cover 6-103 6.8.7 Install Holdover Clock Fuses 6-103 Ohms Converter International Market 6-103 6.10 Hardware Acceptance 6-107 6.11 –48VDC Power Source 6-108 6.11.1 Verify -48VDC 6-110 LED Information...
  • Page 7 B.1.5.4 Row Alarm Connector B-12 B.1.5.5 External Alarm Connector B-13 B.1.5.6 OAP Alarm Connector B-14 B.1.6 System Clock Connectors B-15 B.1.6.1 A Clock 0 through A Clock 5 B-15 B.1.6.2 B Clock 0 through B Clock 5 B-16 B.1.7 Shelf Clock Connectors (for Control Shelf Backplane -04 only) B-17 B.1.7.1 Clock A In Connector...
  • Page 8 C.2.3 B-Clock Cable C.2.4 Crossover (CAT-5) Cable C.2.5 E5-ENET ADAPTER (DB26 Male-to-Dual RJ45) C.2.6 External Alarm Cable (Custom) C.2.7 Fan Power and Alarm Cable C.2.8 Filter Rack Alarm Cable C-10 C.2.9 IMT Cable High Speed C-11 C.2.10 Source Clock Cable (BITS/High-speed) C-12 C.2.11 Power Cable...
  • Page 9 • For Hardware, Networking and Solaris Operating System Support, select 3. You are connected to a live agent who can assist you with My Oracle Support registration and opening a support ticket. My Oracle Support is available 24 hours a day, 7 days a week, 365 days a year.
  • Page 10 What's New in This Guide This section introduces the documentation updates for Release 47.0 in Oracle Communications EAGLE Installation Guide. Release 47.0 -F41411-03, August 2023 • Removed the following sub-sections from Cables and Adapters section: – Alarm NETRA Server Cable (P/N 830-0900-xx) –...
  • Page 11 Cable and Adapter Use section. – Table C-8 Row Alarm Cable section. – Table C-9 Shielded Straight Through Cable (CAT-5) section. • Added a note about the list of cards supported by EAGLE release 47.0 in the Components Overview section.
  • Page 12 Acronyms The following table provides information about the acronyms and the terminology used in the document: Table Acronyms Acronym Description American Wire Gauge BITS Building Integrated Timing System Control Frame Database Communications Module Dual In-line Package Extension Frame Fuse and Alarm Panel Interprocessor Message Transport Light Emitting Diode Link Interface Module...

  • Page 13: Introduction

    1.1 Overview This guide provides installation information for new systems or components based on Oracle Communications EAGLE releases 45.0 and later. For installation of previous releases, contact your sales representative.

  • Page 14: References

    Database Administration - SS7 User's Guide Application B Card Hardware and Installation Guide 1.4 Regulatory Compliance and Certification Oracle Communications products are tested to meet the following regulatory standards: • Network Equipment Building System (NEBS) level 3 as listed in Telcordia SR-3580.

  • Page 15: Environmental Requirements

    Chapter 1 Environmental Requirements • Relevent standards in SJ/T 11363-2006 for limits of certain hazardous substances. Figure 1-3 Hazardous Substances 1.5 Environmental Requirements The environmental conditions for the system must be maintained to the following specifications. Temperature Variation Typical environmental conditions are temperature and humidity controlled. With loss of environmental control the equipment covered in this manual complies with these conditions: •...

  • Page 16: Hardware Repair And Return

    Oracle Return Material Authorization (RMA) procedures. A hardware repair is defined as an item returned to Oracle due to a failure, with the returned item being repaired and returned to the customer. It is essential that serial numbers are recorded correctly.

  • Page 17: Repair And Return Shipping Instructions

    Anything returned without the product being defective. 1.6.1 Repair and Return Shipping Instructions All returned equipment, assemblies, or subassemblies must be shipped to the Oracle Repair and Return Facility specified by the My Oracle Support (MOS). The item being returned must be shipped in the original carton or in an equivalent container assuring proper static handling procedures and with the freight charges prepaid.

  • Page 18: Returning A Crate

    Wait for the repaired component to arrive. 1.6.2 Returning a Crate Use the following procedure to return a shipping crate and dollies to Oracle. Replace the retaining brace. Replace the shipping container front panel using the bolts saved previously and...
  • Page 19 If the equipment is being immediately installed ship the dollies back to Oracle in the crate after use. After installing the equipment bolt the dollies securely in the crate and return to Oracle.

  • Page 20: Safety Information

    Safety Information This chapter lists important safety information to protect personnel and equipment. 2.1 General These icons and text throughout this manual are to alert the reader, to assure personnel safety, to minimize service interruptions, and to warn of potential equipment damage. Table 2-1 Admonishments TOPPLE/DANGER:...

  • Page 21: Frames

    Chapter 2 Frames 2.2 Frames topple: Always read and understand instructions thoroughly and completely before working on, moving, raising or lowering the frame, any portion of the frame, attachments to the frame, or equipment. topple: Never try to unpack any frame from the shipping container without at least two people to steady any movement of the frame and related components.

  • Page 22: Power

    Chapter 2 Power warning: Finger-tighten nuts on threaded rods inside the frames above the raised floor before finger tightening the nuts below the raised floor. Caution: Frame ground. Do not “double lug”: The practice of using one bolt through a lug and the ground bar, and through another lug on the other side of the ground bar, held in place by one nut.
  • Page 23 Recheck wiring and connections for proper polarity warning: Always install an isolator pad between the frame and ground. Oracle frames are shipped with isolator pads to completely isolate the frames from ground. If a non-Oracle frame is used, an isolator pad must be provided.

  • Page 24: Electrostatic Discharge

    Chapter 2 Electrostatic Discharge Caution: The Branch Circuit Overcurrent Protection shall be rated at 48V minimum and 40A maximum. Caution: Install equipment in restricted access areas in accordance with articles 110-16, 110-17, and 110-18 of the National Electric Code, ANSI/NFPA 70. Caution: Incorporate a readily accessible approved disconnect device in the field wiring.

  • Page 25: Components

    Chapter 2 Components warning: Observe proper ESD procedures when handling the application server chassis. Always wear an ESD wrist strap connected to a grounded bench or frame. warning: Use the antistatic wrist strap connected to the wrist strap grounding point on the frame when performing these procedures.
  • Page 26 Forcing the card into a slot may damage the ejector handle or pin. Caution: In EAGLE, make sure that the DCM card is inserted into the correct odd numbered slots. In IP Secure Gateway systems, there are no slot provisioning requirements.
  • Page 27 Chapter 2 Components Caution: Be sure to install the fan assembly 890-0001-04 before installing the HCMIM card. Caution: Before powering up the fans, ensure that the shelf directly above the fan does not contain any empty slots. Install an air management card in any empty slots to ensure proper air flow.

  • Page 28: General Installation Information

    3.2 Components Overview The name, function, and part number(s) of the most current EAGLE components are listed in alphabetical order. For a detailed hardware description, refer to Hardware Reference. For more history and part numbers of these components, refer to Information.

  • Page 29: Card Installation And Replacement

    Automatic (Holdover Clock) through the system control shelf Note: For the complete list of cards supported by EAGLE Release 47.0, see Hardware Reference Guide. 3.3 Card Installation and Replacement The frame arrives configured with the cards in place. After installing the frame in its final location, remove all cards prior to powering up the frame.

  • Page 30: Labeling

    All cables listed in Installer’s Cable Running List • Any non-Oracle cables • Cable labels (including blank labels for non-Oracle cables) • Fine point marker Locate the Installer’s Cable Running List in the Equipment Specification for the site. Refer to for an example.
  • Page 31 Chapter 3 Labeling Figure 3-2 Installer’s Cable Running List Example Locate the labels included with the cable shipment. Take one cable and identify the cable’s part number in the Cable Type column of the cable running list. Match the cable with its corresponding pair of labels: Go to the cable’s From column of the cable running list.

  • Page 32: Fuse And Alarm Panel Labeling

    After you have labeled all cables, you are ready for cable installation. 3.4.2 Fuse and Alarm Panel Labeling EAGLE frames arrive from the factory with labels in place. If a frame is assembled at a site, a labeling kit may be necessary.

  • Page 33: Eagle Post-Installation Inspection

    The label designates CONTROLFRAME or EF-00 through EF-04. There are also labels for the MISCFRAME. 3.5 EAGLE Post-Installation Inspection This section describes a general EAGLE system inspection after installation. Verify the following: All items listed in the Equipment Specification have been installed.
  • Page 34 Chapter 3 EAGLE Post-Installation Inspection The –48VDC power feeds are correctly labeled at the central office power distribution panel. There should be an A feed and a B feed for each breaker panel and FAP. The –48VDC returns are correctly labeled.

  • Page 35: Frames And Shelves

    Before opening any shipping container, inspect it for evidence of damage during shipment. Report any damage to the carrier for investigation and possible claims. Also report any damage to the Oracle site supervisor. Check the packing slips against the equipment specification list for this installation site.
  • Page 36 Chapter 4 Unpacking angle side is up and slants away from the frame in the container. Place the ramp against the front edge of the shipping container. Insert the U-bolts in the holes to secure the ramp support and container together. Open the rear door of the shipping container Figure 4-2 Shipping Container for Heavy Duty Frame...
  • Page 37 Chapter 4 Unpacking same time by two people, one in the front and one in the rear to avoid making the frame tilt. Only raise the frame high enough to clear the angle created by the front ramp. When the frame and dolly have been raised enough to clear the angle created by the front ramp, slowly and carefully roll the frame out of the shipping container.
  • Page 38 Chapter 4 Unpacking Figure 4-4 Heavy Duty Frame Dolly Remove the bolts, front and rear, that attach the dolly to the frame. Refer to Figure 4-5. Note: For clarity, the Frame is shown without system hardware components.
  • Page 39 Follow this procedure when opening all similar shipping containers. Use this procedure if the shipping container is to be returned to Oracle. Replace the retaining brace and re-attach the ramp support to the front of the shipping container using the bolts saved previously.

  • Page 40: Floor Preparation

    The recommended minimum aisle spacing is 2-1/2 ft. (75 cm) front and rear. Figure 4-6 Typical Frame Layout 4.2.1 Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label Field Tool Identification wrap. • Safety glasses •...
  • Page 41 Chapter 4 Floor Preparation • Felt tip pen • Isolation sheet (template in mounting hardware kit) to mount one frame Verify with a customer representative that the required area dimensions and equipment location corresponds to the marked floor plan. Use the floor plan provided with the engineering site file specifications to mark the front base line and the borders of the first frame with the chalk line (refer to Figure 4-7).

  • Page 42: Raised Floor

    This section describes how to prepare a raised floor for a heavy duty frame installation with anchors. Always get permission from facility personnel before drilling holes. 4.2.2.1 Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label or Field Tool Identification wrap. •...

  • Page 43: Drill Cable Holes

    Chapter 4 Floor Preparation Use a vacuum cleaner to collect the shavings while drilling. Use a file to remove any sharp edges or protrusions from metal parts if applicable and vacuum. Return to the equipment area and replace the tiles, making sure the holes match, where the frames will be installed.
  • Page 44 Chapter 4 Floor Preparation Note: Do not over adjust as this may cause the tile or frame to tilt. If removed, reinstall the floor tiles. Install the isolation sheet. Mount the frame onto the threaded rods. Caution: Two people are needed to position the frame onto threaded rods. Install hold down plates, washers, and nuts in the bottom of the frame.
  • Page 45 Chapter 4 Floor Preparation Figure 4-9 Raised Floor Installation Elements warning: Finger tighten nuts on threaded rods inside the frames above the raised floor before tightening the nuts below the raised floor. Refer to Figure 4-10 when installing the heavy duty frame on a raised floor using overhead racks, flat washers, and nuts, Cable Rack Mounting Kit.
  • Page 46 Chapter 4 Floor Preparation Figure 4-10 Raised Floor With Overhead Rack warning: Finger tighten nuts on threaded rods inside the frames above the raised floor before tightening the nuts below the raised floor. Refer to Figure 4-11 when installing the heavy duty frame on a raised floor using Unistruts and the Cable Rack Mounting Kit (P/N 804-0219-01).

  • Page 47: Raised Floor Earthquake Bracing

    Chapter 4 Floor Preparation Figure 4-11 Raised Floor Installation With Unistrut warning: Finger tighten nuts on threaded rods inside the frames above the raised floor before tightening the nuts below the raised floor. 4.2.2.4 Raised Floor Earthquake Bracing This section describes how to install earthquake bracing to a raised floor installation. Bracing is required in earthquake zones 3 and 4 when installing a frame onto a raised floor with a spacing of 1.5 feet or more between the raised floor and the subfloor.
  • Page 48 Chapter 4 Floor Preparation Figure 4-12 Earthquake Bracing On the threaded rod located at the front of the frame: Install a 5/8 nut onto the rod. The nut will need to be threaded approximately 5 inches from the top of the raised floor .

  • Page 49: Concrete Floor

    4.2.4 Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label or Field Tool Identification wrap. •...
  • Page 50 Chapter 4 Floor Preparation warning: Before drilling holes in any flooring, verify with facilities personnel that the area is free of gas or water pipes, ventilation and electrical wiring conduits. The personnel must have a thorough knowledge of telecommunication installation specifications and procedures.If the holes are drilled at an angle the anchor and frame will not come together properly.
  • Page 51 Chapter 4 Floor Preparation Install two square washers below the round fiberglass washer as shown in Figure 4-13. Install the anchor assemblies in the order shown in Figure 4-13. The large steel washer, nylon shoulder washer, and round fiberglass washer are found in the mounting hardware kit.

  • Page 52: Anchoring To Overhead Rack Of Heavy Duty Frame

    Chapter 4 Anchoring to Overhead Rack of Heavy Duty Frame Tighten the torque nut on the anchor stud assembly with a box end wrench until the top of the nut breaks free. Discard the hex nut or the broken-free portion of the torque nut. 4.3 Anchoring to Overhead Rack of Heavy Duty Frame Frames with shelves that may be extended by pulling the shelf into the aisle must be attached to overhead ladder racks to prevent toppling.

  • Page 53: Removing Frame Panels

    Chapter 4 Removing Frame Panels 4.4 Removing Frame Panels Pull down on the upper panel clips and pull the panel away from the frame. Pull down on the lower panel clips and pull the panel away from the frame. Grasp the handle in the middle panel and lift the panel off of the frame bracket shown in Figure 4-16 Figure 4-16 Heavy Duty Frame Panels...

  • Page 54: Rear Covers

    Chapter 4 Rear Covers Figure 4-17 Unit Separation Bracket Installation 4.6 Rear Covers Gray tinted plastic rear covers with round holes are provided, three per frame, to physically protect the system backplanes and cables, see Figure 4-18. Carefully peel off the protective wrapper from each cover. With the round holes up, place the cover into the support groove.

  • Page 55: Shelves

    Chapter 4 Shelves Figure 4-18 Rear Cover Installation For more information on Frames and Shelves refer to the Hardware Description Manual included in your current documentation suite. 4.7 Shelves Figure 4-19 shows the frame door ground. 4-21...
  • Page 56 Chapter 4 Shelves Figure 4-19 EAGLE Frame with Door Ground Figure 4-20 shows a frame with possible shelf population. 4-22...

  • Page 57: Labeling

    Chapter 4 Labeling Figure 4-20 EAGLE Frame with Shelves 4.8 Labeling 4.8.1 End Aisle Labeling This section details the application of the frame lineup end aisle labels. All of the frame lineups are labeled the same way on end panels.
  • Page 58 Chapter 4 Labeling This pocket is located on the side panel that has the Alarm indicators. This should be the end aisle frame. From the clear pocket, remove the frame lineup identification placard (P/N 658-0816-01). Figure 4-21 Frame Lineup Identification Placard (P/N 658-0816-01) From the clear pocket, remove the equipment identification sheets (P/N 658-0816-01).
  • Page 59 Chapter 4 Labeling Table 4-1 Frame Type and Labels Application Frame Type System/Shelf Equipment EAGLE- Control FrameCF- 00 Single Control Shelf EAGLE- Control Frame CF-00 Single Control Shelf EAGLE + 1200 extension shelf CF-00 EAGLE- Control Frame CF-00 Single Control Shelf...
  • Page 60 Chapter 4 Labeling Table 4-1 (Cont.) Frame Type and Labels Application Frame Type System/Shelf Equipment GPF-00 trhu GPF-05 LSMS GPF-00 trhu GPF-05 Sentinel SPF-00 thru Sentinel SPF-05 SCS-00 thru SCS-02 IMF-00 thru IMF-02 PMF-00 thru PMF-01 4-26...
  • Page 61 Chapter 4 Labeling Figure 4-22 Frame Type and System/Shelf Equipment Label Sheets (P/N 658-1093-01) Place any unused labels back into the clear pocket. 4-27...

  • Page 62: Frame Labeling

    Chapter 4 Labeling Place the populated frame lineup identification placard into the clear pocket such that the populated side of the placard is visible. 4.8.2 Frame Labeling This section details the application of frame and shelf labels. Additional labels on the newer heavy duty frame shown in Figure 4-23 come pre-installed.
  • Page 63 Chapter 4 Labeling Table 4-2 Frame Labels and Part Numbers Frame Label Label Part Number Control frame CF-00 658-0486-01 Extension frame 00 EF-00 658-0486-02 Extension frame 01 EF-01 658-0486-03 Extension frame 02 EF-02 658-0486-04 Extension frame 03 EF-03 658-0486-05 Extension frame 04 658-0486-06 EF-04 Miscellaneous frame 00...
  • Page 64 Chapter 4 Labeling Figure 4-24 Frame and Shelf Label Locations Figure 4-25 Frame Label Location - Detail 4-30...

  • Page 65: Shelf Labeling

    Chapter 4 Labeling 4.8.3 Shelf Labeling Apply shelf labels to the frames of the system as shown in Frame Labeling. Refer to Figure 4-26 for exact placement. Refer to Table 4-3 for the proper label for each shelf. Note: The procedure for the placement of labels is the same on most of the frames. Typically, the system is pre-labeled.
  • Page 66 Chapter 4 Labeling Figure 4-26 Shelf Label Location - Detail 4-32...

  • Page 67: Fuses And Alarm Panel

    FAP upgrade kit. Frames that contain HC-MIMs must be upgraded to support 60 amps. Customers do not perform a FAP upgrade; these upgrades are performed by Oracle Communications personnel. warning: The FAP P/N 870-1606-02 Revs A-B can be upgraded to FAP P/N 870-1606-02 Rev C with FAP upgrade kit P/N 840-0139-01.

  • Page 68: Fuses

    Chapter 5 Fuse and Alarm Panels 5.1.1 Fuses The fuse and alarm panel uses GMT-type fuses of different amperage ratings for individual circuit protection. If a frame circuit fuse is blown the alarm is indicated by an LED on the front panel and a small colored flag on the fuse shows the fuse that has failed (refer to Figure 5-1.
  • Page 69 Chapter 5 Fuse and Alarm Panels The Power Alarm LED indicates the input power state to the FAP. The LED is green when input power is applied to that bus of the FAP and is red when there is no input power to that bus of the FAP.
  • Page 70 Chapter 5 Fuse and Alarm Panels Table 5-2 (Cont.) Fuse and Alarm Panel Front Items (P/N 870-2804-xx) Fuse Panel Item Description MajorAlarm LED indicator for major alarm MinorAlarm LED indicator for minor alarm Table 5-3 presents possible alarm LED states and corresponding fuse conditions. Table 5-3 Fuse State and LED condition (P/N 870-2804-01).

  • Page 71: Shorting Board

    P2 - Fuses 7 through 12 • P3 - Fuses 13 through 18 Alarm Interface 15-pin “D” connectors: • P1 to the EAGLE • P2 to a power distribution breaker panel Table 5-5 presents the power requirements and physical dimensions for the FAP. Table 5-5 Fuse and Alarm Panel Specifications (P/N 870-2804-01).
  • Page 72 Chapter 5 Fuse and Alarm Panels Figure 5-4 Shorting Board Faceplate, Normal Mode Pull the board straight out of the FAP until the board is clear of the frame. Turn the Shorting Board over and reinsert the board into its slot. Note the orientation of the Shorting Board LED (see Figure 5-5).

  • Page 73: Fuse And Alarm Panel (P/N 870-1606-Xx/870-2320-Xx)

    Chapter 5 Fuse and Alarm Panels Figure 5-7 Shorting Board Faceplate, Normal Mode Note: The Shorting Board LED is off and the fuse alarm LEDs turn green. Ensure the board is seated properly and tighten the two screws to secure the board. The Shorting Board is now in the normal mode of operation.
  • Page 74 Chapter 5 Fuse and Alarm Panels Figure 5-8 Fuse and Alarm Panel (P/N 870-1606-xx/870-2320-xx) Front Table 5-6 Fuse and Alarm Panel Front Items Fuse Panel Item Description Fuse Positions Two groups of 20 GMT fuses LED indicator for A or B diode board input power PWR ALARM •...

  • Page 75: Jumper Board

    Chapter 5 Fuse and Alarm Panels Table 5-7 Fuse and Alarm Panel (P/N 870-1606-xx/870-2320-xx) Rear Fuse Panel Item Description Input Terminal Block A Logic Ground, Return, and Input for power source A Input Terminal Block B Logic Ground, Return, and Input for power source B –48VDC, Chassis Ground, and RTN for Fuse location 12, 18, 19, and 20 for side A.
  • Page 76 OP/MAINT LED lights red on the FAP • an EAGLE fuse alarm displays on the terminal You may now remove either or both diode circuit boards without affecting EAGLE service. Note: Using the jumper override negates the backpower protection usually provided by the diode board.
  • Page 77 Chapter 5 Fuse and Alarm Panels Locate the jumper board on the Fuse and Alarm Panel (FAP). Unscrew the two thumbscrews securing the FAP jumper board and remove the board. On the jumper circuit board, unclip the 12-pin connector jumper from P72 and re-attach it to P71.

  • Page 78: Provision Rules For Fap Fuse Locations

    Chapter 5 Installing Power Cables 5.1.4 Provision Rules for FAP Fuse Locations The following are provisioning rules for fuse placement apply to FAP P/N870-2804-xx: • Maximum fuse size 3 amp. • Fuse positions 19 and 20 not used. • Power feed must originate from the same power source. •...
  • Page 79 Existing frames that are fused at 40A can be upgraded to support 60A with a FAP upgrade kit. 60A are required for frames that contain HC-MIMs. Upgrades will be performed by Oracle personnel. Contact My Oracle Support (MOS) more information.

  • Page 80: Recommended Tools

    Where the cable leaves the cable rack, the cable must be protected with fiber paper throughout the system. 5.2.1 Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label or Field Tool Identification wrap. •...
  • Page 81 Chapter 5 Installing Power Cables Figure 5-14 Lug Installation Note: Input Power and RTN use straight, two hole lugs, 1/4-inch hole on 5/8-inch centers, long barrel with window (P/N 804-0817-02). Double crimp the lugs onto the cable end using the embossing crimper. Slide the one-inch length of clear tubing over the crimped lug and heat-shrink the one- inch length of clear tubing.

  • Page 82: Frame Ground And Logic Ground Cabling Procedures

    5.3.1 Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label or Field Tool Identification wrap. •...

  • Page 83: Ground Frame

    Chapter 5 Frame Ground and Logic Ground Cabling Procedures • Socket wrench set, 1/4-inch or 3/8-inch drive or open-end wrenches • Non oxidizing grease Note: It is a requirement that when mating dissimilar metals non oxidizing grease is used between them as a corrosion inhibitor. •...

  • Page 84: Connect Ground Cable To Control Frame

    Chapter 5 Frame Ground and Logic Ground Cabling Procedures Figure 5-17 System Frame Grounding Secure the cable to the cable brackets with lacing cord. Cables must be labeled, 145P tags should have “TO” and “FROM” location information. Example: FROM MGB (Main Ground Bar), TO system ground bar Control Frame, CF00.
  • Page 85 Chapter 5 Frame Ground and Logic Ground Cabling Procedures Note: It is a requirement that when mating dissimilar metals non oxidizing grease is used between them as a corrosion inhibitor. Run the 1/0 ground cable from the central office Main Ground Bar (MGB) over the cable rack horns to the system Control Frame, CF-00.
  • Page 86 Chapter 5 Frame Ground and Logic Ground Cabling Procedures Figure 5-18 System Logic Grounding Tighten the bolts to 15.5 foot-pounds of torque. Use the lacing cord to secure a “DONOTDISCONNECTLEAD” tag at each end of the cable, just beyond the lug. Note: System Ground: 1/0 cable from the system ground bar to the “I”...

  • Page 87: Logic Ground Connections To The System Ground Bar

    Chapter 5 Frame Ground and Logic Ground Cabling Procedures Note: The size of the cable is determined by the overall length of the cable run. Refer to the Site File Book. Figure 5-19 Clamp Reading on System Frame and Logic 5.3.4 Logic Ground Connections to the System Ground Bar Note: It is a requirement that when mating dissimilar metals non oxidizing grease is used...
  • Page 88 Chapter 5 Frame Ground and Logic Ground Cabling Procedures The stripped cable must fill lug completely to the end of the barrel of the lug and be visible in the end window of the lug. Crimp #6 American Wire Gauge (AWG) lug with window on the cable, using an embossing crimper.
  • Page 89 Chapter 5 Frame Ground and Logic Ground Cabling Procedures Note: It may be necessary to drill the central office ground window bar to accept the 3/8-inch bolts on one-inch centers. Apply the 145P cable tags (see Figure 5-24) provided to both ends of the ground cable, including the “Do Not Disconnect”. Install the logic ground cable lugs P/N 804-0817-R02 using the 1/4-inch 20 copper-plated hardware provided (refer to Figure...
  • Page 90 Chapter 5 Frame Ground and Logic Ground Cabling Procedures Note: DONOT run Logic Ground or Power Cables on the cable horns in the top middle of a frame. The horn is for Row Alarm Cables only. warning: All logic ground connections must be made to the system ground bar. Repeat steps 2, 3, and 4, on the fuse and alarm panel end.

  • Page 91: Logic Ground Cables

    Chapter 5 Frame Ground and Logic Ground Cabling Procedures Figure 5-23 3U Fuse and Alarm Panel Rear (P/N 870-2320-03)) Tighten the nuts on the fuse and alarm panel. Tighten the lugs to: • 1U FAP, torque to 50 inch-pounds. • 3U FAP, torque to 25 inch-pounds.
  • Page 92 Chapter 5 Frame Ground and Logic Ground Cabling Procedures To install the cable on the system ground bar, wipe a small amount of non oxidizing grease at the mounting hole. Attach the lug with the 1/4-inch #20 copper-plated hardware provided. Torque to 68 inch-pounds.

  • Page 93: Fuse Verification

    Chapter 5 Fuse Verification Figure 5-26 Alarm Cable Arm Note: The alarm cable arm is for alarm cable which maybe a clock cable. 5.4 Fuse Verification For each fuse location, verify that individual fuse failures affect only the circuits assigned to the specific fuse location.
  • Page 94 Chapter 5 Fuse Verification • Figure 5-2 Figure 5-8 to physically locate the fuse holders. • Fuse and Card Locations to physically locate a card in a shelf. Table 5-10 Fuse Color Codes of Alarm Flags Fuse Amp Fuse Flag Color Fuse Amp Fuse Flag Color 0.18A...

  • Page 95: Verification Of Fuse Alarm Function

    Chapter 5 Verification of Fuse Alarm Function Check that the LEDs of the cards in the specified locations are illuminated after the removal of the fuse. Pull the fuse for the A-side position. Check that the Fuse Alarm LED for the A-side is red. Check that the LEDs of the cards in the specified locations are not illuminated after the removal of the fuse.

  • Page 96: Fap Alarm System Test

    5.6 FAP Alarm System Test The following procedure describes system wide fuse alarm testing of the FAP. Issue the command to login to the STP terminal 1. login:uid=eagle Enter the password. Press the F11 key for KSR mode. The following command response is displayed.
  • Page 97 Chapter 5 FAP Alarm System Test channel 00-05-31 06:10:29 EST Rel XX.X.X-XX.X.X CHG-SECU-TRM: MASP A - COMPLTD Issue the command to set the system monitoring feature for the terminal you are logged into. > chg-trm:all=no:sys=yes:trm=1 Command Accepted - Processing tekelecstp 12-12-23 08:52:15 EST Rel XX.X.X-XX.X.X chg-trm:all=no:sys=no:trm=1 Command entered at terminal #1.

  • Page 98: Fuse Assignments

    Chapter 5 Fuse Assignments Re-insert the good fuse and verify that the alarm clears. FAP light should return to its normal state GREEN. tekelecstp 00-05-31 11:18:55 EST Rel XX.X.X-XX.X.X 5051.0083 FUSE PANEL 11xx Fuse Panel alarm has cleared Repeat Steps 7 - 11 for FAP sides A and B for each fuse location. This completes fuse alarm testing of the FAP.
  • Page 99 Chapter 5 Fuse Assignments Figure 5-28 Control Frame FAP (P/N 870-0243-08 and P/N 870-1606-xx) 5-33...

  • Page 100: Fuse And Card Locations

    Chapter 5 Fuse and Card Locations Figure 5-29 Extension Frame FAP (P/N 870-0243-08 and P/N 870-1606-xx) 5.8 Fuse and Card Locations This section describes fuse assignments for the Control Frame (CF-00) and five Extension Frames (EF-00 through EF-04) are shown. Table 5-11 Fuses and Card Locations Fuse Location/Capacity...
  • Page 101 Chapter 5 Fuse and Card Locations Table 5-11 (Cont.) Fuses and Card Locations Fuse Location/Capacity Card Location/Type Fuse 7A/3Amp 1201, 1202/LIMs, E/DCM*, or E1-T1 Fuse 8A/3Amp 1205, 1206/LIMs, E/DCM*, or E1-T1 Fuse 9A/1Amp 1209 Fuse 10A/3Amp 1211, 1212/LIMs, E/DCM*, or E1-T1 Fuse 11A/3Amp 1215, 1216/LIMs, E/DCM*, or E1-T1 Fuse 12A/dummy fuse...
  • Page 102 Chapter 5 Fuse and Card Locations Table 5-11 (Cont.) Fuses and Card Locations Fuse Location/Capacity Card Location/Type Fuse 1A/3Amp 2101, 2102/LIMs, E/DCM*, or E1-T1 Fuse 2A/3Amp 2105, 2106/LIMs, E/DCM*, or E1-T1 Fuse 3A/1Amp 2109 Fuse 4A/3Amp 2111, 2112/ LIMs, E/DCM*, or E1-T1 Fuse 5A/3Amp 2115, 2116/LIMs, E/DCM*, or E1-T1 Fuse 6A/dummy fuse...
  • Page 103 Chapter 5 Fuse and Card Locations Table 5-11 (Cont.) Fuses and Card Locations Fuse Location/Capacity Card Location/Type Fuse 16B/3Amp 2313, 2314/LIMs, E/DCM*, or E1-T1 Fuse 17B/3Amp 2317, 2318/LIMs, E/DCM*, or E1-T1 Fuse 18B/(dummy fuse) Designated for FAN 3 Amp Fuse 19B/dummy fuse OPEN Fuse 20B/dummy fuse OPEN...
  • Page 104 Chapter 5 Fuse and Card Locations Table 5-11 (Cont.) Fuses and Card Locations Fuse Location/Capacity Card Location/Type Fuse 10B/3Amp 3213, 3214/LIMs, E/DCM*, or E1-T1 Fuse 11B/3Amp 3217, 3218/LIMs, E/DCM*, or E1-T1 Fuse 12B/(dummy fuse) Designated for FAN 3 Amp Fuse 13B/3Amp 3303, 3304/LIMs, E/DCM*, or E1-T1 Fuse 14B/3Amp 3307, 3308/LIMs, E/DCM*, or E1-T1...
  • Page 105 Chapter 5 Fuse and Card Locations Table 5-11 (Cont.) Fuses and Card Locations Fuse Location/Capacity Card Location/Type Fuse 4B/3Amp 4113, 4114/LIMs, E/DCM*, or E1-T1 Fuse 5B/3Amp 4117, 4118/LIMs, E/DCM*, or E1-T1 Fuse 6B/(dummy fuse) Designated for FAN 3 Amp Fuse 7B/3Amp 4203, 4204/LIMs, E/DCM*, or E1-T1 Fuse 8B/3Amp 4207, 4208/LIMs, E/DCM*, or E1-T1...
  • Page 106 Chapter 5 Fuse and Card Locations Table 5-11 (Cont.) Fuses and Card Locations Fuse Location/Capacity Card Location/Type Fuse 19A/dummy fuse OPEN Fuse 20A/dummy fuse OPEN Figure 5-34) Extension Frame 03 (EF-03) Fuse and Alarm Panel side B (refer to Fuse 1B/3Amp 5103, 5104/LIMs, E/DCM*, or E1-T1 Fuse 2B/3Amp 5107, 5108/LIMs, E/DCM*, E1-T1, or TSM,...
  • Page 107 Chapter 5 Fuse and Card Locations Table 5-11 (Cont.) Fuses and Card Locations Fuse Location/Capacity Card Location/Type Fuse 13A/dummy fuse Fuse 14A/dummy fuse Fuse 15A/dummy fuse Fuse 16A/dummy fuse Fuse 17A/dummy fuse Fuse 18A/dummy fuse Fuse 19A/dummy fuse Fuse 20A/dummy fuse Figure 5-35) Extension Frame 04 (EF-04) Fuse and Alarm Panel side B (refer to...

  • Page 108: Card Locations In Control And Extension Shelves

    Chapter 5 Card Locations in Control and Extension Shelves Table 5-11 (Cont.) Fuses and Card Locations Fuse Location/Capacity Card Location/Type Fuse 9A/dummy fuse Fuse 10A/dummy fuse Fuse 11A/dummy fuse Fuse 12A/dummy fuse Fuse 13A/dummy fuse Fuse 14A/dummy fuse Fuse 15A/dummy fuse Fuse 16A/dummy fuse Fuse 17A/dummy fuse Fuse 18A/dummy fuse...
  • Page 109 16 Link Interface Module (LIMs) or Translation Service Module (TSMs) in any combination. The system is delivered with customer-specific locations for the Database Communications Module (DCM. Note: For EAGLE only, the insertion of a DCM card requires an odd-numbered slot. 5-43...
  • Page 110 Chapter 5 Card Locations in Control and Extension Shelves The entire system can have up to five Extension Frames, EF-00 to EF-04. EF-04 supports only one extension shelf. Figure 5-31 through Figure 5-35 show the numbering of the card locations on the extension frames.
  • Page 111 Chapter 5 Card Locations in Control and Extension Shelves Figure 5-32 Extension Frame EF-01 Numbering Plan 5-45...
  • Page 112 Chapter 5 Card Locations in Control and Extension Shelves Figure 5-33 Extension Frame EF-02 Numbering Plan 5-46...
  • Page 113 Chapter 5 Card Locations in Control and Extension Shelves Figure 5-34 Extension Frame EF-03 Numbering Plan Figure 5-35 Extension Frame EF-04 Numbering Plan 5-47...

  • Page 114: Intra-System Cable Installation

    Interface cables For additional information concerning cables and cable replacement, see Cables and Adapters. Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label or Field Tool Identification wrap. • Safety glasses •...

  • Page 115: Install Imt Cables

    Chapter 6 Intra-system Cable Installation 6.1.1 Install IMT Cables The Interprocessor Message Transport (IMT) cables are specific lengths, based on their application. Termination information is furnished on the cable labels. Refer to Cables and Adapters Part Numbers danger: Always wear a wrist strap or other electrostatic protection when handling printed circuit cards and other electrostatic-sensitive devices.
  • Page 116 Chapter 6 Intra-system Cable Installation Figure 6-2 Three-Frame Configuration...

  • Page 117: Rack Alarm And Row Alarm Cable Routing

    Chapter 6 Intra-system Cable Installation Figure 6-3 Six-Frame Configuration 6.1.1.1 Rack Alarm and Row Alarm Cable Routing The rack alarm cable leads from ports in the control backplane and connects up to six frames in the row. See Figure 6-4 A Clock and B Clock Cable Replacement.

  • Page 118: Interface Cable Installation

    The clocking and fan control signals used to support frame 6 and frame 7 are eliminated in the 850-0330-06 or -07 version and later of the Control Shelf Backplane because those frames are no longer supported in the EAGLE STP system.

  • Page 119: Interface Cable Installation Order

    Chapter 6 Intra-system Cable Installation Note: Run Link Interface Module (LIM) cables on traverse arms, behind IMT and clock cables. The ends without connectors are normally terminated on a DSX cross-connect panel with wire-wrap terminals. Secure the connector to the designated receptacle on the DSX panel. Plug the connector in and turn one of the connector screws to start the screw into the threaded hole.
  • Page 120 Chapter 6 Intra-system Cable Installation 1201 B through 1208 B (connectors J40 through J33) 1211 A through 1218 A (connectors J16 through J9) 1211 B through 1218 B (connectors J32 through J25) Extension shelf 13 Backplane (P/N 850-0356-03) 1301 A through 1308 A (connectors J24 through J17) 1301 B through 1308 B (connectors J40 through J33) 1311 A through 1318 A (connectors J16 through J9) 1311 B through 1318 B (connectors J32 through J25)
  • Page 121 Chapter 6 Intra-system Cable Installation 3201 B through 3208 B (connectors J40 through J33) 3211 A through 3218 A (connectors J16 through J9) 3211 B through 3218 B (connectors J32 through J25) Extension shelf 33 3301 A through 3308 A (connectors J24 through J17) 3301 B through 3308 B (connectors J40 through J33) 3311 A through 3318 A (connectors J16 through J9) 3311 B through 3318 B (connectors J32 through J25)

  • Page 122: Recommended Tools

    6111 A through 6118 A (connectors J16 through J9) 6111 B through 6118 B (connectors J32 through J25) 6.1.2.2 Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label or Field Tool Identification wrap. •...
  • Page 123 Chapter 6 Intra-system Cable Installation jacks #1 through #32 are run on the right side of the frame and cables #33 through #64 are run on the left side of the frame. Procedure — Install Interface Cable Secure connector to its respective receptacle on the backplanes. See Interface Cable Installation.

  • Page 124: Lan Ethernet Cable Installation For Acm

    Ethernet network 6.1.3.1 Customer Supplied Ethernet Cable Requirements If a customer chooses to supply their own Ethernet cables for EAGLE (customer-supplied cables are not subject to Oracle warranty), the following requirements must be met: Customer-supplied Ethernet cables for EAGLE must be shielded, meet the industry standard, and avoid dissimilar metals at the RJ45 connector interface.

  • Page 125: Recommended Tools

    Signaling Cables (for example, T1, ATM) are EAGLE proprietary and must be purchased from Oracle. 6.1.3.2 Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label or Field Tool Identification wrap. •...
  • Page 126 Chapter 6 Intra-system Cable Installation Table 6-1 (Cont.) ACM Card and Backplane Interface Backplane (P/ Shelf ACM Location N 850-0330-03/04/06) Connector 1105 1106 1107 1108 1111 1112 Backplane (P/ N 850-0356-03) Connector XX01 XX02 XX03 XX04 XX05 XX06 XX07 XX08 Extension Shelves (XX is shelf location) XX11...
  • Page 127 Chapter 6 Intra-system Cable Installation For the 10BASE-2 MAU, push the BNC connector on the coax cable onto the MAU and lock the connector in place by twisting the connector clockwise. For a 10BASE-T MAU, push the RJ45 connector into the MAU until it snaps into place.

  • Page 128: E5-Enet/E5-Enet-B And Fan Option, Edcm, E5-Sm4G/E5-Sm8G-B Cabling

    SM4G/E5-SM8G-B Cabling E5-ENET/E5-ENET-B and EDCM Modules The following cabling procedures apply to E5-ENET/E5-ENET-B,EDCM and E5-SM4G/E5- SM8G-B cards in the latest EAGLE. When the Database Communications Module (E5-ENET/E5-ENET-B) cards have been configured in the system, run the Ethernet cables straight through.
  • Page 129 Chapter 6 E5-ENET/E5-ENET-B and Fan Option, EDCM, E5-SM4G/E5-SM8G-B Cabling If E5-ENET/E5-ENET-B cards are in slots 11,13,15, or 17, the cables is run down the left side of the frame (as seen from the back of the frame). Run the cable off the side of the cable rack on the correct side of the frame. Route the cable down the traverse arms to the correct shelf location.
  • Page 130 Chapter 6 E5-ENET/E5-ENET-B and Fan Option, EDCM, E5-SM4G/E5-SM8G-B Cabling Figure 6-9 Interface Cable Routing, Control Shelf Figure 6-10 Interface Cable Routing, Extension Shelf 6-17...

  • Page 131: User Upgrade Procedures

    Upgrading to E5-MCPM-B Module (MCPM) • Measurement Collection and Polling Module (MCPM) • Removing a Card in an Existing EAGLE System Note: DSM and EDSM cards loaded with the MCPM application and the E5- MCPM-B card will be referred to as “MCPM cards.”...
  • Page 132 Removing the last MCPM or only MCPM from service will cause loss of measurements data. Remove the secondary MCPM card. Removing a Card in an Existing EAGLE System for removal procedures. Place the removed MCPM card into an ESD container.
  • Page 133 Chapter 6 User Upgrade Procedures Place the new MCPM (E5-MCPM-B) card into its place. Be sure the revision numbers of the card is compatible with the EAGLE software release. • If they are not, go to to flash the card to the software release level of the EAGLE system.
  • Page 134 Place the removed MCPM card into the spare card storage shelf. Place the new MCPM (E5-MCPM-B) card into its place. Be sure the revision numbers of the card is compatible with the EAGLE software release. • If they are not, go to to flash the card to the software release level of the EAGLE system.
  • Page 135 The following is sample output: rlghncxa03w 04-02-04 13:05:05 EST EAGLE 44.0 FLASH Memory Activation for card 1105 Started. rlghncxa03w 04-02-04 13:05:05 EST EAGLE 44.0 FLASH Memory Activation for card 1105 Completed.
  • Page 136 Note: Do not put it into the spare card storage shelf. Place the new MCPM (E5-MCPM-B) card into its place. Be sure the revision numbers of the card is compatible with the EAGLE software release. • If they are not, go to to flash the card to the software release level of the EAGLE system.

  • Page 137: Measurement Collection And Polling Module (Mcpm)

    Chapter 6 User Upgrade Procedures rlghncxa03w 04-02-04 13:05:05 EST EAGLE 44.0 Command Completed. Enter the following command to return the upgraded MCPM card into service. alw-card:loc=xxxx where xxxx is the MCPM card location. • This causes the MASP to begin downloading tables to the new MCPM card.
  • Page 138 EAGLE software release. If they are not, go to to flash the card to the software release level of the EAGLE system. If your card is compatible with the EAGLE software release level, go to .
  • Page 139 Where xxxx is the location of the card. The following is sample output: rlghncxa03w 04-02-04 13:05:05 EST EAGLE 31.3.0 FLASH Memory Activation for card 1105 Started. rlghncxa03w 04-02-04 13:05:05 EST EAGLE 31.3.0 FLASH Memory Activation for card 1105 Completed.
  • Page 140 EAGLE software release. If they are not, go to to flash the card to the software release level of the EAGLE system. If your card is compatible with the EAGLE software release level, go to . If in doubt about the compatibility of your new hardware, call the My Oracle Support (MOS).
  • Page 141 EAGLE system. If your card is compatible with the EAGLE software release level, proceed to 20. If in doubt about the compatibility of your...
  • Page 142 Where xxxx is the location of the card. The following is sample output: rlghncxa03w 04-02-04 13:05:05 EST EAGLE 31.3.0 FLASH Memory Activation for card 1105 Started. rlghncxa03w 04-02-04 13:05:05 EST EAGLE 31.3.0 FLASH Memory Activation for card 1105 Completed.

  • Page 143: Removing A Card In An Existing Eagle System

    User Upgrade Procedures 6.3.3 Removing a Card in an Existing EAGLE System Use this procedure anytime a card is removed from a previously operational EAGLE system for upgrade purposes. See Maintenance Guide for card replacement. Failure to use this procedure may result in equipment damage. Use the procedures at the beginning of this section before physically removing any cards.
  • Page 144 Chapter 6 User Upgrade Procedures Figure 6-11 Push Inject/Eject Clamps Outward Place the card you have removed in an electrostatic discharge (ESD) protective container, or place the card in the spare card storage shelf. Be sure that the replacement card has the same part number and revision number as the card you have just removed (unless this is an upgrade).

  • Page 145: Fan Assembly Installation And Cabling

    Chapter 6 Fan Assembly Installation and Cabling Figure 6-12 Push in Inject/Eject Clamps Verify that both IMT bus LEDs are green. Record the activity in the site maintenance log. 6.4 Fan Assembly Installation and Cabling warning: Do not carry exposed metal keys or tools in pockets or on belts when working on or around system equipment.

  • Page 146: Installing Fan Assembly 890-0001-04

    Chapter 6 Fan Assembly Installation and Cabling 6.4.1 Installing Fan Assembly 890-0001-04 Note: Beginning with EAGLE software release 33.0, all systems with HCMIM cards must have the 890-0001-04 fan assembly installed. Tools needed: • #1 Flat screwdriver • #2 Philips screwdriver (long) •...
  • Page 147 Chapter 6 Fan Assembly Installation and Cabling Figure 6-13 System Air Baffle Remove the baffle through the front of the frame. Then, remove the two screws holding the left and right side baffle brackets to the frame and remove the brackets.
  • Page 148 Chapter 6 Fan Assembly Installation and Cabling Figure 6-14 Attach side fan bracket to front frame rail Slide the brackets in toward the center of the frame so the outside of the bracket is flush with the side of the frame as shown in Figure 6-15.
  • Page 149 Chapter 6 Fan Assembly Installation and Cabling Figure 6-15 Slide the side fan brackets flush with the Frame Verify whether the frame type is a standard or heavy duty so that you can ensure the fan tray bracket will be mounted correctly. Use the following mounting positions: •...
  • Page 150 Chapter 6 Fan Assembly Installation and Cabling Figure 6-16 Side bracket mounting positions on fan tray bracket. Insert the fan tray bracket (P/N 652-0012-01) into the space left by the baffle under the card shelf. The untightened side brackets will slide outward slightly to accommodate the fan tray bracket as it is inserted.
  • Page 151 Chapter 6 Fan Assembly Installation and Cabling Note: When inserting the fan tray bracket, be sure not to pinch cables between the bottom of the shelf and the fan tray bracket. From inside the frame, screw the fan tray bracket to the side brackets with one hand while using the other hand to support the fan tray bracket.
  • Page 152 Chapter 6 Fan Assembly Installation and Cabling Figure 6-19 Fan Tray Insert the fan tray into the fan tray bracket. You might need to tilt the fan tray up as it is pushed in so that it is completely inserted into the bracket. After insertion, be sure the front of the fan tray is recessed in 1/2 inch with respect to the front frame rails.
  • Page 153 Chapter 6 Fan Assembly Installation and Cabling Figure 6-21 Tighten rear fan tray screws At this time check and tighten all screws, including the screws holding the side brackets to the frame. The side bracket screws should be tightened fully from the rear of the frame.

  • Page 154: Installing Fan Cables

    Chapter 6 Fan Assembly Installation and Cabling Figure 6-22 Tighten fan side bracket screws Remove the piece of fiber paper on the top of the shelf below where the fan assembly was installed. This procedure is complete. Caution: Before powering up the fans, ensure that the shelf directly above the fan does not contain any empty slots.

  • Page 155: Powering Up The Fan Assembly

    Chapter 6 Fan Assembly Installation and Cabling To cable the fan assembly, plug a cable onto the shelf on backplane FAN A POWER, and connector J9. Tighten the screws on the connector. When the cable is connected to the backplane route the cable to the top tie-down rod and secure the cable with a tie-wrap.
  • Page 156 Chapter 6 Fan Assembly Installation and Cabling • The fuse card located on the Fuse and Alarm Panel are marked FAN A and FAN B, fuse positions 6, 12, and 18 are marked correct locations on the FAP faceplate. • Fuse position 6 is for the fan unit directly below the x100 shelf.
  • Page 157 Chapter 6 Fan Assembly Installation and Cabling With this command the user will perform the tests beginning with 7. At the terminal, enter the command: rept-stat-trbl Check to see that there are no fan errors. Specifically, check that there are no “#302 Cooling Fan Failure”...

  • Page 158: Installing Fan Assembly 890-1038-01 Or 890-1038-02

    Chapter 6 Fan Assembly Installation and Cabling Repeat through for each fan unit installed. This procedure is complete. 6.4.4 Installing Fan Assembly 890-1038-01 or 890-1038-02 Tools needed: • #1 Flat screwdriver • #2 Philips screwdriver (long) • Fiber Paper (Approximately 2’ x 3’) •...
  • Page 159 Chapter 6 Fan Assembly Installation and Cabling Figure 6-25 Fan Assembly with Grill and Filter Install the fan unit in the space left by the baffle. Figure 6-26 Installing Fan Assembly 6-46...
  • Page 160 Chapter 6 Fan Assembly Installation and Cabling Figure 6-27 Fan Bracket Installation Secure the fan unit with the same screws that were removed from the frame holding the baffle in place. Do not tighten the screws at this time to allow for some minor adjustment. See Figure 6-27.

  • Page 161: Installing Fan Cables

    Chapter 6 Fan Assembly Installation and Cabling Figure 6-28 Fan with Brackets and Screws Return to the back of the frame and tighten the screws in the mounting brackets into the side of the fan unit. When the fan unit is aligned and in place, tighten the screws in the brackets on the sides of the frame.

  • Page 162: Powering Up The Fan Assembly

    Chapter 6 Fan Assembly Installation and Cabling marked FAN B POWER. Form and dress the two cables together and check the security of all of the connections. To cable the fan assembly, plug a cable onto the shelf on backplane FAN A POWER, and connector J9.
  • Page 163 Chapter 6 Fan Assembly Installation and Cabling When the fan units are powered up, the switch in the middle front of the fan unit must be turned to the ON position. Do not set the switch to the AUTO position. Figure 6-29 Front Card Suite with Fan Switch When the fans are powered up and running, a test must be conducted to ensure...
  • Page 164 Chapter 6 Fan Assembly Installation and Cabling At the terminal, type: rept-stat-trbl Result: The terminal will show: 0055.0302 * SYSTEM Cooling Fan Failure MINORLED is lit. Fan Verification: On the front of the fan unit, toggle the fan switch to the ON position (switch to FANSON).

  • Page 165: Testing The Fan Assembly

    Hand-tighten the grill thumb screws. Figure 6-30 Fan Assembly with Grill and Filter Turn off the 1100,1200 and 1300 shelf fans and verify the EAGLE and Fan unit displays the alarm. For the EAGLE use the rept-stat-trbl command, and for the fan unit, verify the LED near the Fan switch is RED (10x03/x04 software must be installed).
  • Page 166 (T1 or E1 rate) Link Interface Module (LIM‑ATM) or E1/T1MIM installed in an EAGLE STP to receive its transit timing reference directly from an external HS Source clock source, instead of slaving to the timing information contained in the received data. The timing information is then encoded into the T1 or E1 transmitted data stream used to synchronize downstream equipment.
  • Page 167 LIM cards that will continue using the composite clock will not require any changes to the card provisioning. Note: The EAGLE terminal output screens refer to the composite clocks as Building Integrated Timing Source (BITS) clocks. In this document, references to BITS and composite clocks are interchangeable.
  • Page 168 Source Timing Feature Requirement Matrix Table 6-2 to identify the hardware or software that is required to prepare your EAGLE STP for the HS Source Timing feature. Perform the procedures in the order listed. Skip any procedure that does not apply.
  • Page 169 Chapter 6 Source Timing Table 6-2 (Cont.) Feature Requirement Matrix If you do not have... do this... using procedures... Notes HS Source and If you have a control Composite Clock shelf with backplane P/ Cables on Backplane P/ N 850‑0330‑03 /04, 850‑0330‑03/04.
  • Page 170 Table 6-2 (Cont.) Feature Requirement Matrix If you do not have... do this... using procedures... Notes My Oracle In an EAGLE using Replace MASP (TDM Contact Always start with Support (MOS) legacy Control Cards: 10 or later as needed) standby MASP...
  • Page 171 Chapter 6 Source Timing Table 6-2 (Cont.) Feature Requirement Matrix If you do not have... do this... using procedures... Notes ‑ ‑ 6-58...
  • Page 172 (Cont.) Feature Requirement Matrix If you do not have... do this... using procedures... Notes ‑ My Oracle In an EAGLE using E5- Contact Always start with Replace legacy MASP Support (MOS) based Control Cards: (TDM 10 or later as standby MASP...

  • Page 173: Hs Source And Composite Clock Cables On Backplane P/N 850-0330-06/07

    EAGLE control shelf backplane, providing the EAGLE with a second synchronized system clock. The EAGLE connects to the site source clock through two DB 15 style connectors (J49 and J48) on the backplane of the control shelf for primary and secondary clock signals.
  • Page 174 Chapter 6 Source Timing Caution: Always replace the IDLE clock cable first, whether it is the primary or secondary cable position. After the replacement of the first (IDLE) cable position, ensure the system reports the clock status properly with an ACTIVE and IDLE clock output. If the output reports the correct status the ACTIVE cable can be disconnected for replacement.
  • Page 175 Always route clock cables on separate cable racks, if provided, for redundancy. Prior to cable replacement, check your system for any troubles. At the EAGLE terminal, enter: 6-62...
  • Page 176 Record any troubles and ensure that no clock problems exist. Note: If clock errors exist that cannot be resolved, contact the My Oracle Support (MOS) for assistance before starting the cable replacement. Generate a clock status report to ensure that the current primary and secondary composite clock sources are running and determine which MASP is active or on standby;...
  • Page 177 There should be no cards using bad clocks. If any card indicates a bad clock, troubleshoot the card using the rept-stat-trbl command. Replace the card if necessary. If the bad clock error cannot be resolved, contact My Oracle Support (MOS) for assistance before starting the cable replacement.
  • Page 178 Chapter 6 Source Timing At the terminal, the EAGLE displays the following alarms: tekelecstp 00-12-10 12:17:10 EST Rel 26.0.0 4306.0167 * CLOCK SYSTEM 1114-S clock failed tekelecstp 00-12-10 12:17:10 EST Rel 25.0.0-26.0.0 4307.0169 ** CLOCK SYSTEM 1114-S, 1116-S clocks failed tekelecstp 00-12-10 12:05:04 EST Rel 25.0.0-26.0.0...
  • Page 179 99-12-10 12:05:04 EST Rel 25.0.0-26.0.0 4277.0113 CLOCK SYSTEM Clock alarm(s) cleared At the EAGLE terminal, reenter the clock status command to ensure that both primary and secondary BITS clocks are available again, enter: rept-stat-clk The output indicates whether the BITS clocks are running.
  • Page 180 Remove the ACTIVE clock cable on the control shelf by removing the ACTIVE composite clock connector of cable (P/N 830‑0226‑xx) from the appropriate connector (J48 or J49) on the control shelf backplane. At the terminal, the EAGLE displays the following alarms: tekelecstp 00-12-10 12:17:10 EST Rel 26.0.0 4306.0167 * CLOCK SYSTEM 1114-P clock failed tekelecstp 00-12-10 12:17:10 EST Rel 25.0.0-26.0.0...
  • Page 181 If Both PRIMARY BITS and SECONDARY BITS clocks show FAULT condition, reconnect the cable (P/N 830‑0226‑xx) to the appropriate connector (J48 or J49) and abort this procedure. Contact the My Oracle Support (MOS) for assistance. If you check the system for clock alarms, the output will show clock errors; enter: rept-stat-trbl The output will show any minor (*), major (**), critical (C*), and inhibited (I) alarms.
  • Page 182 After the cable (P/N 830‑0873‑xx or P/N 830‑1189‑xx) wires are attached correctly to the site clock sources and connected to the control shelf (J48 or J49), the EAGLE terminal returns the message that alarms have been cleared: tekelecstp 99-12-10 12:05:04 EST Rel 25.0.0-26.0.0...

  • Page 183: Hs Source And Composite Clock Cables On Backplane P/N 850-0330-03/04

    On systems with control shelf backplane (P/N 850‑0330‑03/04), the high‑speed source clock cable (P/N 830‑0873‑xx or P/N 830‑1189‑xx) sends only high‑speed clock signals to the EAGLE. The existing composite clock cables (P/N 830‑0226‑xx) continue to provide the low‑speed clock connections to connectors J42 and J41 (Primary BITS and Secondary BITS) on the backplane.
  • Page 184 4100, 4200, and 4300) and frame 4 (shelves 5100, 5200, 5300). System A clock signals to cards in these shelves will be lost during this procedure. If the EAGLE contains these shelves with cards installed the cards switch automatically to the system B clock sources when the A clock sources are removed.
  • Page 185 Record any troubles and ensure that no clock problems exist. Note: If clock errors exist that cannot be resolved, contact the My Oracle Support (MOS) for assistance before starting the cable replacement. Generate a clock status report to ensure that the current primary and secondary composite clock sources are running and determine which MASP is active or on standby;...
  • Page 186 Chapter 6 Source Timing troubleshoot the card using the rept-stat-trbl command. Replace the card if necessary. If the bad clock error cannot be resolved, contact the My Oracle Support (MOS) for assistance before starting the cable replacement. Note: There should be no cards using bad clocks. If any card indicates a bad clock, troubleshoot the card using the rept-stat-trbl command.
  • Page 187 Chapter 6 Source Timing Figure 6-34 Control Shelf (P/N 850-0330-03 or -04) BITS Connectors warning: Metal points on the PCB conduct ‑48VDC and can cause shorts, shocks, and damage if not handled properly. Obtain the two new primary and secondary high‑speed source clock cables (P/ N 830‑0873‑xx or P/N 830‑1189‑xx).
  • Page 188 Route the new HS source clock cables (P/N 830‑0873‑xx) using new cable ties. Route the primary and secondary HS clock cables from the customer’s high‑speed clock sources to the EAGLE control shelf backplane near connectors J57 and J56. Note: Route but do not connect the new cables to the backpanel at this time to avoid any accidental pull on cable connectors that could disconnect them from the composite clock source.
  • Page 189 N 830‑0846‑01) on the control shelf by removing the cable end at ACLK3 connector J57. At the terminal, the EAGLE displays alarms indicating loss of ACLK to cards on shelves 4100, 4200, and 4300 with BCLK normal. Generate a clock status report to confirm that the secondary composite clock is now active.
  • Page 190 Caution: If cards on shelves 4100, 4200, and 4300 indicate bad ACLK and BCLK reconnect the ACLK3 cable to connector J57 and abort this procedure. Contact My Oracle Support (MOS) for assistance. Note: In the following steps reference Figure 6-36 for cabling connections.
  • Page 191 Step\ Tighten the connector with a slotted screw driver. This step reconnects the ACLK3 signals to shelves 4100, 4200, 4300. At the terminal, the EAGLE displays messages indicating return of ACLK to cards on shelves 4100, 4200, and 4300 with BCLK normal.
  • Page 192 4277.0113 CLOCK SYSTEM Clock alarm(s) cleared At the EAGLE terminal, reenter the clock status command to ensure that both primary and secondary BITS clocks are available again, enter: rept-stat-clk The output indicates whether the BITS clocks are running. In this example, the secondary BITS clock is still active and the primary BITS clock is running but in standby mode.
  • Page 193 (P/N 830‑0846‑01) on the control shelf by removing the cable end at ACLK4 connector J56. At the terminal, the EAGLE displays alarms indicating loss of ACLK to cards on shelves 5100, 5200, and 5300 and BCLK normal. Generate a clock status report to confirm that cards on shelves 5100, 5200, and 5300 are using the BCLK.
  • Page 194 3. Tighten the connector with a slotted screw driver. This step reconnects the ACLK4 signals to shelves 5100, 5200, 5300. At the terminal, the EAGLE displays messages indicating return of ACLK to cards on shelves 5100, 5200, and 5300 and BCLK normal.

  • Page 195: A Clock And B Clock Cable Replacement

    You have completed the cable replacement procedure for the high‑speed source clock cables on EAGLE systems with control shelf backplane (P/N 850‑0330‑03/04. 6.6 A Clock and B Clock Cable Replacement Proper support for HMUX and alarm reporting require that all A and B clock cables be of P/N 830-0398-xx (domestic) or P/N 830-1150-xx (international).
  • Page 196 Chapter 6 A Clock and B Clock Cable Replacement Figure 6-37 Cable (P/N 830-0404-xx) 6-83...

  • Page 197: Procedure - Replacing A Frame Clock Cables

    Chapter 6 A Clock and B Clock Cable Replacement Figure 6-38 Cable 830-0398-xx or 830-1150-xx 6.6.1 Procedure — Replacing A Frame Clock Cables This procedure explains the replacement of one A frame clock cable. The steps show the replacement of one frame clock cable and are repeated for every frame clock cable that is to be replaced.
  • Page 198 IN cables connectors on each shelf. Shelf ID pins must be covered with pin protectors. If contact is made with the ID pins, the shelf may lose its identity. Connect a laptop or access by way of a monitor, the EAGLE system and start a terminal emulator program such as ProComm.
  • Page 199 Chapter 6 A Clock and B Clock Cable Replacement Remove the A frame clock cable from the shelf’s A CLKOUT connector. Figure 6-39 Backplane P/N 850-0330-06 or -07 Control Shelf 6-86...
  • Page 200 Chapter 6 A Clock and B Clock Cable Replacement Figure 6-40 Backplane P/N 850-0356-04 Extension Shelf Remove the other end of the frame clock cable from the next shelf’s A CLKIN connector. Select the new frame clock cable (P/N 830-0398-xx or P/N 830-1150-xx) and connect it to the A CLKOUT connector, refer to Route the clock cable in the frame following the routing directions in this manual.

  • Page 201: Procedure - Replacing B Frame Clock Cables

    Chapter 6 A Clock and B Clock Cable Replacement HS SECONDARY CLK = Idle SYSTEM CLOCK IS-NR Active ----- # Cards using CLK A = 7 # Cards with bad CLK A = # Cards using CLK B = 0 # Cards with bad CLK B = # Cards using CLK I = 0 Command Completed.
  • Page 202 IN cables connectors on each shelf. Shelf ID pins must be covered with pin protectors. If contact is made with the ID pins, the shelf may lose its identity. Connect a laptop or access by way of a monitor, the EAGLE system and start ProComm or a terminal emulator program.
  • Page 203 Chapter 6 A Clock and B Clock Cable Replacement For the B frame clock cable being replaced remove all tie wraps or lacing cord securing the cable in the frame. Remove the B frame cable from the shelf’s B CLKOUT connector. Figure 6-41 Backplane P/N 850-0330-06 or -07 Control Shelf 6-90...
  • Page 204 Chapter 6 A Clock and B Clock Cable Replacement Figure 6-42 Backplane P/N 850-0356-04 Extension Shelf Remove the other end of the frame clock cable from the next shelf’s B CLKIN connector. Select a new frame clock cable and connect it to the B CLKOUT connector, refer to 8. Route the clock cable in the frame following the routing directions in this manual.

  • Page 205: Termination Of Alarm, Clock Supply, And Terminal Cables

    Chapter 6 Termination of Alarm, Clock Supply, and Terminal Cables HS SECONDARY CLK = Idle SYSTEM CLOCK IS-NR Active ----- # Cards using CLK A = 7 # Cards with bad CLK A = # Cards using CLK B = 0 # Cards with bad CLK B = # Cards using CLK I = 0 Command Completed.

  • Page 206: Alarm Cable Termination

    Always wear a wrist strap or other electrostatic protection when handling printed circuit cards and other electrostatic-sensitive devices. Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label or Field Tool Identification wrap. •...
  • Page 207 Chapter 6 Termination of Alarm, Clock Supply, and Terminal Cables • FAP extension frame 04 J68 on P/N 850-0330-06 or -07 • End panel J34 on P/N 850-0330-06 or -07 (use cable row alarm cable 830-1145-01) • J35 and J66 o 850-0330-06 or -07 to holdover clock •...

  • Page 208: Terminate Clock Supply Cables

    Chapter 6 Holdover Clock Installation 6.7.2 Terminate Clock Supply Cables The Building Integrated Timing System (BITS) clocks come directly from the central office BITS clock source or indirectly from an optional holdover clock installed in the system. Holdover Clock Installation for optional holdover clock installation information.

  • Page 209: Output Panel Connections

    Check that the proper cards are installed in the indicated locations. Figure 6-43 Holdover clock Recommended Tools Oracle tools should be labeled “Property of ORACLE” with either a press-on Field Tool Identification label or Field Tool Identification wrap. • Safety glasses •...
  • Page 210 Chapter 6 Holdover Clock Installation Note: These cables connect the clock outputs from the TOCA cards to the output panel. TOLA Card When Using a Timing Output Logic Clock Automatic (TOLA) card; only terminate the clock cable leads to the odd pin positions 1, 3, 5, 7, and 9. Set DIP switch settings to the OFF position.

  • Page 211: Holdover Clock Switch Settings

    Chapter 6 Holdover Clock Installation Table 6-3 (Cont.) Holdover Clock Wire Colors and Connections Holdover Clock Connector Wire Color FAP Connection TB2 RTN Black A side –48VDC return #1 TB1 GND White A side Chassis GND TB2 GND White B side Chassis GRD Figure 6-45 Holdover Clock Power Connector 6.8.2 Holdover Clock Switch Settings...
  • Page 212 Chapter 6 Holdover Clock Installation Figure 6-46 Holdover Clock and Output Panel, Rear The Fuse and Alarm Panel connections for the Holdover Clock are shown in Figure 6-47. Figure 6-47 Holdover Clock FAP Connections 6-99...

  • Page 213: Output Panel Connections

    Chapter 6 Holdover Clock Installation Figure 6-48 Holdover Clock FAP Connections 6.8.4 Output Panel Connections The following output panel connections are made during installation. Connections on the system backplane: • First Building Integrated Timing System (BITS) clock cable to Primary BITS connector on J42, and connector J49 on backplane (P/N 850-0330-06 or -07), J49.
  • Page 214 Chapter 6 Holdover Clock Installation warning: Metal points on Printed Circuit Boards conducts -48VDC and can cause shorts, shocks, and damage if not handled properly. Figure 6-49 CUST ALM 1 J35 and (not supported) CUST ALM 2 J66 Connectors on Control Shelf Backplane -06 or -07 Route the cable up the left side of the control frame, viewed from the rear, over to the miscellaneous frame containing the holdover clock, and down the left side of the miscellaneous frame to the cable tie bar next to the alarm connections, see...

  • Page 215: Bits Clock Source Cables

    Chapter 6 Holdover Clock Installation Note: All cables must be laced (no tie-wraps) to the top traverse arms and above to the cable rack. Prepare the cable for wire-wrapping by removing the outer insulation of the cable even with a point two inches from the left end of the lower holdover clock cable tie bar.

  • Page 216: Replacing Holdover Clock Rear Cover

    Chapter 6 Ohms Converter International Market Route the cables down the right side (viewed from the rear) of the frame. Pull the slack out of the cable towards the holdover clock. Dress the cable neatly and tie-wrap to the cable tie bars at the side of the frame. Note: All cables must be laced (no tie-wraps) onto the top traverse arm and above to the cable rack.
  • Page 217 Refer to Telect® “SUPER MULTIPLE- INTERFACE CROSS-CONNECT (SUPERMIX) USER MANUAL” 110339 issue A Rev. Note: This information is for 120 to 75 ohms only. Figure 6-52 Miscellaneous Frame with 120 Ohm Converter Note: Customers may purchase the miscellaneous frame from Oracle. 6-104...
  • Page 218 Chapter 6 Ohms Converter International Market Table 6-4 Discontinued Legacy Part Numbers Part Numbers OEM part numbers Description 804-0982-01 or 804-0982-R01 010-0000-2701 Chassis 804-0983-01 or 804-0983-R01 010-2704-1100 Wire-wrap 804-0984-01 or 804-0984-R01 010-2704-1200 Bayonet Connector (BNC) Note: There is no compatibility between the discontinued Legacy hardware and the replacement hardware;...
  • Page 219 Chapter 6 Ohms Converter International Market Table 6-6 Physical Conditions Mechanical Insertion force 4.17lb (1.9kg) average Withdrawal force 5.21lb (2.4kg) average Life Minimum 20,000 insertion/withdrawal cycles Environmental Humidity To 95% (operating and non-operating) Moisture Resistance Per MIL-STD-202F, Method 106E Salt Spray Per MIL-STD-202F, Method 101D Temperature –40 to 149˚F (–40 to 65˚C) operating...

  • Page 220: Hardware Acceptance

    The ability to route traffic through this system is verified using a Message Generator Traffic Simulator (MGTS). All cabling, alarm output, clock input, and other Oracle equipment is also verified operational per the Hardware Operational Test Manual provided with the test equipment.

  • Page 221: 48Vdc Power Source

    Chapter 6 –48VDC Power Source The customer frame layout is site specific, however the most typical frame layout is constructed with Extension Frames to the right of the Control Frame when viewed from the front. The OAP Frame is normally on the left of the Control Frame. Other frames (Miscellaneous and other support or feature specific frames) are lined up to the left of the Control Frame.
  • Page 222 Chapter 6 –48VDC Power Source danger: No commercially AC powered equipment may be used or placed within 7 ft. of –48V equipment. This may create a shock or current loop that can be severely hazardous to personnel and equipment. warning: Do not carry exposed metal keys or tools in pockets or on belts when working on or around electronic equipment.

  • Page 223: Verify -48Vdc

    Chapter 6 –48VDC Power Source 6.11.1 Verify -48VDC The following procedure verifies –48VDC. Turn on breaker, or insert fuse for control frame A side –48VDC power source. Check for nominal –48VDC at the control frame fuse and alarm panel A side test point.

  • Page 224: Led Information

    This section shows the card face plates and describes the Light Emitting Diodes (LEDs) for each card. This section assists maintenance personnel in troubleshooting. EAGLE frames are configured with modules (cards) that provide specific functions and services. LEDs together with part numbers, text and bar codes are located on the faceplates of the cards.

  • Page 225: E5-Atm-B Interface Module

    Appendix A E5-ATM-B Interface Module A.3 E5-ATM-B Interface Module Figure A-2 E5-ATM-B Interface Module...

  • Page 226: E5-E1T1-B Interface Module

    Appendix A E5-E1T1-B Interface Module A.4 E5-E1T1-B Interface Module Figure A-3 E5-E1T1-B Interface Module...

  • Page 227: E5-Enet-B Interface Module

    Appendix A E5-ENET-B Interface Module A.5 E5-ENET-B Interface Module Figure A-4 E5-ENET-B Interface Module Note: Must be used with the E5-MASP card.
  • Page 228 Appendix A E5-ENET-B Interface Module Note: The E5-ENET-B is provisionable for multiple functions, but does not support multiple functions on a single card simultaneously.

  • Page 229: E5-Masp Card

    Appendix A E5-MASP Card A.6 E5-MASP Card Figure A-5 E5-MASP Card Note: Must be used with the E5-MASP card.

  • Page 230: E5-Mcpm-B Module

    Appendix A E5-MCPM-B Module A.7 E5-MCPM-B Module Figure A-6 E5-MCPM-B Module...
  • Page 231 Appendix A E5-MCPM-B Module...

  • Page 232: E5-Mdal Card

    Appendix A E5-MDAL Card A.8 E5-MDAL Card Figure A-7 E5-MDAL Card...

  • Page 233: E5-Sm8G-B Module

    Appendix A E5-SM8G-B Module Note: Must be used with the E5-MASP card. A.9 E5-SM8G-B Module Figure A-8 E5-SM8G-B Interface Module Table A-1 E5-SM8G Interface Module LEDs Color Descriptions APPL Application processor is not running or is failing diagnostics. PROC A-10...
  • Page 234 Appendix A E5-SM8G-B Module Table A-1 (Cont.) E5-SM8G Interface Module LEDs Color Descriptions Amber Card is loading an application or is being polled (may be prevented from loading by maintenance-out-of-service condition) Green Card is running an application. Card is off IMT bus Amber Card is on IMT bus, but testing is not complete.

  • Page 235: Hipr2, High-Speed Imt Packet Router 2 Module

    Appendix A HIPR2, High-Speed IMT Packet Router 2 Module A.10 HIPR2, High-Speed IMT Packet Router 2 Module Figure A-9 HIPR2 LEDs A-12...

  • Page 236: Mis, Maintenance Interface System, Holdover Clock

    Appendix A MIS, Maintenance Interface System, Holdover Clock A.11 MIS, Maintenance Interface System, Holdover Clock Figure A-10 Holdover Clock MIS Card LEDs Table A-2 MIS LEDs LEDs Descriptions FAIL RED – This card or its power supply has failed. BLANK – No card or power supply failure detected. CRITICAL RED –...

  • Page 237: Mca, Matrix Controller Assembly Card, Holdover Clock

    Appendix A MCA, Matrix Controller Assembly Card, Holdover Clock Table A-2 (Cont.) MIS LEDs LEDs Descriptions GREEN – The ACO push button has been pressed to silence the alarm during an alarm state. A.12 MCA, Matrix Controller Assembly Card, Holdover Clock Figure A-11 Holdover Clock MCA Card LEDs...

  • Page 238: Slic Module

    Appendix A SLIC Module Table A-3 (Cont.) MCA LEDs LEDs Descriptions AUTO GREEN – Indicates output failure was protected automatically. BLANK – No failures detected. GREEN – Indicates output failure was protected manually. BLANK – No failures detected. A.13 SLIC Module Alarms and LEDs The SLIC has 21 LEDs visible on the faceplate.
  • Page 239 Appendix A SLIC Module Figure A-12 SLIC Module A-16...

  • Page 240: St3, Stratum-3 Clock Card, Holdover Clock

    Appendix A ST3, Stratum-3 Clock Card, Holdover Clock Table A-4 SLIC Front Panel LEDs Control Colors Definition Name APPL FPGA / Application Software Off / Red / Green Off - No power Red - Card is booting Green - Card is running Application IMTA Red / Green...

  • Page 241: Toca, Timing Output Composite Automatic, Holdover Clock

    Appendix A TOCA, Timing Output Composite Automatic, Holdover Clock Table A-5 (Cont.) ST3 LEDs LEDs Descriptions REF B GREEN – Card is tracking the output of clock input card B. BLANK – Not tracking output of clock input card B. Note: If the FAIL and LOCK LEDs are both illuminated, the ST3 is in holdover mode and the card has not failed.

  • Page 242: Backplane Connectors

    Backplane Connectors B.1 Control Shelf Connectors This section describes the Control shelf backplanes and their connectors. The control shelf backplane provides connectors for the system circuit cards. These connectors are four column High Density Interconnect (HDI) male headers with shrouds of varying pin quantities, depending on card position.

  • Page 243: Control Shelf Backplane

    Appendix B Control Shelf Connectors B.1.1 Control Shelf Backplane 04 Figure B-1 Control Shelf Backplane 04 B.1.2 Control Shelf Backplane 06/07 The connectors on backplanes -06 and -07 are identical.

  • Page 244: Overview Of The Control Shelf Backplane Connectors

    Appendix B Control Shelf Connectors Figure B-2 Control Shelf Backplane 06/07) B.1.3 Overview of the Control Shelf Backplane Connectors Table B-1 compares the connectors of Control Shelf backplane 04 with the connectors of Control Shelf backplane 06/07.
  • Page 245 Appendix B Control Shelf Connectors Table B-1 Control Shelf Backplanes -04 and -06/07 Control Shelf Backplane Control Shelf Backplane (P/N 850-0330-04) (P/N 850-0330-06/07) J-1 B POWER J-1 B POWER PRIMARY J-2 B FAN POWER J-8 B FAN POWER J-3 A FAN POWER J-9 A FAN POWER J-10 A POWER SECONDARY J-2 B POWER SECONDARY...
  • Page 246 Appendix B Control Shelf Connectors Table B-1 (Cont.) Control Shelf Backplanes -04 and -06/07 Control Shelf Backplane Control Shelf Backplane (P/N 850-0330-04) (P/N 850-0330-06/07) J-32 PORT 7A J-39 PORT 7A J-33 PORT 6A J-40 PORT 6A J-34 PORT 5A J-41 PORT 5A J-35 PORT 4A J-42 PORT 4A J-36 PORT 3A...

  • Page 247: Power Connectors

    Appendix B Control Shelf Connectors Table B-1 (Cont.) Control Shelf Backplanes -04 and -06/07 Control Shelf Backplane Control Shelf Backplane (P/N 850-0330-04) (P/N 850-0330-06/07) J-66 MMI 9 J-77 MMI 9 J-67 MMI 10 J-78 MMI 10 J-68 MMI 11 J-79 MMI 11 J-69 MMI 12 J-80 MMI 12 J-70 MMI 13...

  • Page 248: Fuse And Alarm Panel 870-2320-01/03

    Appendix B Control Shelf Connectors Table B-2 (Cont.) Power Connector Signal Signal P4$48RTN P2$48RTN LGND P2$48VDC P3$48RTN P1$48RTN P3$48VDC P1$48RTN P2$48RTN P1$48VDC P2$48VDC P1$48VDC P5$48VDC PF$48RTN P5$48RTN PF$48RTN P4$48VDC PF$48VDC P4$48RTN PF$48VDC $= A or B, A POWER (J4) or B POWER (J1) B.1.4.1 Fuse and Alarm Panel 870-2320-01/03 The FAP provides protected distribution of power to the system.
  • Page 249 Appendix B Control Shelf Connectors Table B-3 Alarm Interface Connector Circuit Descriptions 1 / 2 / 3 / 4 Critical Alarm 6 / 7 Fuse Normally Closed Minor Alarm Major Alarm Common Test Fuse Normally Open B.1.4.1.1 Shelf Power The Fuse and Alarm Panel powers up to three shelves in the frame through the FAP connectors P1, P2, and P3.

  • Page 250: Rack Alarm (Alarm Interface

    Appendix B Control Shelf Connectors Table B-4 (Cont.) Shelf Power Connector Connector Fuse Position Pin Numbers Circuit Descriptions 7 and 16 +48VDC 25 and 26 48VDC return 3 and 12 +48VDC (to middle shelf in 2 and 11 48VDC return frame) 1 and 10 +48VDC...

  • Page 251: Fan Power

    Appendix B Control Shelf Connectors Table B-5 Rack Alarm Connector Circuit Descriptions 1 / 2 / 3 / 4 Critical Alarm 6 / 7 Fuse Normally Closed Minor Alarm Major Alarm Common Test Fuse Normally Open B.1.4.3 Fan Power J2, J3 on Control Shelf backplane 04 and J8, J9 on Control Shelf backplane 06/07 Figure B-8 Fan Power Connector Table B-6...

  • Page 252: Remote Maintenance Center Alarm Connector

    Appendix B Control Shelf Connectors Figure B-9 Local Maintenance Center Alarm Connector Table B-7 Local Maintenance Center Alarm Connector Signal 1, 3, 4, 5, 11, 12 Not used LMCANC - Local Maintenance Center Audible Alarm, Normally Closed LMCVMJNC - Local Maintenance Center Major Alarm, Normally Closed LMCVMNNC - Local Maintenance Center Minor Alarm, Normally Closed LMCVCRNC - Local Maintenance Center Critical Alarm, Normally Closed LMCACOM - Local Maintenance Center Audible Alarm Common...

  • Page 253: Rack Alarm Connectors

    Appendix B Control Shelf Connectors Table B-8 (Cont.) Remote Maintenance Center Alarm Connector Signal RMCANO - Remote Maintenance Center Audible Alarm, Normally Open RMCCOM - Remote Maintenance Center Common RMCMJNO - Remote Maintenance Center Major Alarm, Normally Open RMCMNNO - Remote Maintenance Center Minor Alarm, Normally Open B.1.5.3 Rack Alarm Connectors The output of the Rack Alarm Connectors control the alarm condition indicators on each control or extension frame fuse and alarm panel.

  • Page 254: External Alarm Connector

    Appendix B Control Shelf Connectors Figure B-12 Row Alarm Connector Table B-10 Row Alarm Connector Signal 1, 2, 3, 6, 7, 8, 9, Not used 13, 14, 15 –48VDC RACRNC - Row Alarm, Critical, Normally Closed RAMNNO - Row Alarm, Minor, Normally Open RAMJNO - Row Alarm, Major, Normally Open 48VDC return B.1.5.5 External Alarm Connector...

  • Page 255: Oap Alarm Connector

    Appendix B Control Shelf Connectors Table B-11 (Cont.) External Alarm Connector Signal Description CUFA2 Signals a holdover clock critical alarm to the system when connected to P5A48RTN (pin 10) or P4B48RTN (pin 11). Signals a customer defined critical alarm (trouble #4) to the CUFA4 system when connected to P5A48RTN (pin 10) or P4B48RTN (pin 11).

  • Page 256: System Clock Connectors

    Appendix B Control Shelf Connectors Table B-12 OAP Alarm Connector Signal 1, 2, 6, 7, 13, 14 Not used OAPMNNC - OAP Alarm, Minor, Normally Closed OAPMJNC - OAP Alarm, Major, Normally Closed OAPCRNC - OAP Alarm, Critical, Normally Closed OAPFA+ - OAP Fuse Alarm (+)* OAPBNO - OAP Alarm, busy, Normally Open* OAPMNNO - OAP Alarm, minor, normally Open...

  • Page 257: B Clock 0 Through B Clock

    Appendix B Control Shelf Connectors Table B-13 (Cont.) A Clock 0 Through A Clock 5 Connectors Connector Signal Signal Signal Signal MBUS0 MBUS2 A56KHZ RX+_50 RX-_50 1-_50 A8KHZ1 MBUS1 MBUS2 TX-_50 RX+_50 +_50 MBUS1 A56KHZ A8KHZ1 TX+_50 0+_50 -_50 850-0330-06/07 not currently supported J64, J65, J72 B.1.6.2 B Clock 0 through B Clock 5...

  • Page 258: Shelf Clock Connectors (For Control Shelf Backplane -04 Only

    Appendix B Control Shelf Connectors B.1.7 Shelf Clock Connectors (for Control Shelf Backplane -04 only) Connectors for both A and B clocks are provided using 25 pin D type connectors at J9, J10, J59, and J60 on Control Shelf backplane 04. System clock connectors are used on Control Shelf backplane 06/07.

  • Page 259: Clock B In Connector

    Appendix B Control Shelf Connectors Table B-16 Clock A Out Connector Signal Signal SH2A56KHZ+_50 SH2MBUSTX-_50 SH2A56KHZ-_50 SH2MBUSTX+_50 SH2A8KHZ+_50 SH2MBUSRX-_50 SH2A8KHZ-_50 SH2MBUSRX+_50 SH3A56KHZ+_50 SH3MBUSTX-_50 SH3A56KHZ-_50 SH3MBUSTX+_50 SH3A8KHZ+_50 SH3MBUSRX-_50 SH3A8KHZ-_50 SH3MBUSRX+_50 B.1.7.3 Clock B In Connector J59 on Control Shelf backplane 04 Figure B-19 Clock B In Connector on Backplane Table B-17...

  • Page 260: Clock B Out Connector

    Appendix B Control Shelf Connectors Table B-17 (Cont.) Clock B In Connector on Control Shelf backplane 04 Signal Signal SH3B8KHZ+_50 SH3B8KHZ-_50 FANBALM- B.1.7.4 Clock B Out Connector J60 on Control Shelf backplane 04. Figure B-20 Clock B Out Connector on Backplane Table B-18 Clock B Out Connector on Control Shelf backplane 04 Signal...

  • Page 261: Serial Port Connectors

    Appendix B Control Shelf Connectors Figure B-21 BITS Clock Connector Table B-19 BITS Clock Connector Signal Signal $BITSIN-_60 $BITSIN+_60 $= P for primary BITS clock (J42), S for secondary BITS clock (J41) B.1.9 Serial Port Connectors The control shelf backplane provides an interface for 16 separate serial port connections from the TDMs.

  • Page 262: Interface Connectors

    Appendix B Control Shelf Connectors Table B-20 (Cont.) Serial Port Connector Signal Signal CTS$ DTR$ RTS$ logic ground $= 0 through 15, MMI0 through MMI15 respectively, J17 through J24 and J65 through J72 respectively B.1.10 Interface Connectors For slots 1 through 8, 11, and 12 on the control shelf backplane, there are two associated DB-26 interface connectors for each slot.

  • Page 263: Control Shelf Modules

    Appendix B Control Shelf Connectors Table B-21 (Cont.) Interface Connector Pins and Signal DS0A/ DB-26 DB-26 DS0A/OCU Signal ATM Signal Table B-22 Interface Connectors, Ports, and Card Slots Card slot Port Connector Port Connector B.1.10.1 Control Shelf Modules This section details the backplane circuit board connectors used for •...
  • Page 264 Appendix B Control Shelf Connectors Figure B-24 Control Shelf Backplane Pin-Outs, Top Connector Table B-23 Control Shelf Backplane Pin-Outs, Top Connector Signal Signal Signal Signal LGND LGND LGND LGND ASEROE-_50 D02 ASEROD- LGND LGND ASEROD+_5 LGND ASEROE+_5 LGND LGND ASELD- LGND ASELE- ASERID-_50...
  • Page 265 Appendix B Control Shelf Connectors Table B-23 (Cont.) Control Shelf Backplane Pin-Outs, Top Connector Signal Signal Signal Signal ASEROA+_5 LGND ASEROI+_50 D27 LGND LGND ASELA- LGND ASELI- ASERIA-_50 LGND ASERII-_50 LGND ASERIA+_50 B30 LGND ASERII+_50 LGND LGND AINA- LGND AINI- LGND ASEROJ-_50 D32 LGND...
  • Page 266 Appendix B Control Shelf Connectors B.1.10.1.2 Control Shelf Backplane Pin-Outs, Bottom Connector Table B-24 Pinouts for DCM/DSM/LIM/MPL/TSM Control Shelf Backplane bottom connectors P22, P23, and P25 through P32 Figure B-25 Control Shelf Backplane Pin-Outs, Bottom Connector Table B-24 Control Shelf Backplane Pin-Outs, Bottom Connector Signal Signal Signal...
  • Page 267 Appendix B Control Shelf Connectors Table B-24 (Cont.) Control Shelf Backplane Pin-Outs, Bottom Connector Signal Signal Signal Signal LGND LGND EBI_^XCAS0 EBI_^XD13 BSERI@-_50 B25 LGND EBI_^XCAS1 EBI_^XD14 BSERI@+_5 LGND EBI_^XCAS2 EBI_^XD15 LGND LGND LGND LGND LGND LGND MB56KHZ+_ MB56KHZ- LGND LGND MB8KHZ+_5 MB8KHZ-_50 D34...

  • Page 268: Maintenance Disk And Alarm Connector

    Appendix B Control Shelf Connectors Table B-25 (Cont.) Backplane Pin-Out Symbols Slot/Connector Interface Address Signal Symbol Values Port & 7 top / P10 7 bottom / P26 8 top / P9 8 bottom / P25 11 top/P7 11 bottom/P23 12 top/P6 12 bottom/P22 B.1.10.2 Maintenance Disk and Alarm Connector B.1.10.2.1 MDAL Pin-Outs, Top Connector...
  • Page 269 Appendix B Control Shelf Connectors Table B-26 (Cont.) MDAL Backplane, Top Signal Signal Signal Signal AALMEN3- AALMD3- LGND LGND AALMEN4- AALMD4- LGND AALMCK- AALMD5- LGND LGND AALMD7- AALMD6- LGND CHASSIS CHASSIS CHASSIS CHASSIS LGND LGND LGND LGND LGND LGND R0FBALM- R1FBALM- R0FAALM- LGND...
  • Page 270 Appendix B Control Shelf Connectors Table B-27 MDAL Backplane, Bottom Signal Signal Signal Signal LMCANO LMCACOM LMCANC LMCVMJNC LMCVCOM LMCVCRNC LMCVMNNC LMCVMJNO LMCVMNNO R3FANCTRL LGND R4FANCTRL R4FBALM- R3CRNC R3COM R4FAALM- R3MJNC R3MJNO R3FBALM- R3MNNC R3MNNO R3FAALM- R3BNC R3BNO LGND LGND LGND R4CRNC R4COM...

  • Page 271: Terminal Disk Module

    Appendix B Control Shelf Connectors B.1.10.3 Terminal Disk Module Terminal Disk Module P2, P4, P18, P20 B.1.10.3.1 TDM Pin-Outs, Top Connectors TDM, Top Connectors P2, P4 Figure B-28 TDM, Top Table B-28 TDM Backplane, Top Signal Signal Signal Signal LGND R0FA+ $ALMEN0- $ALMD0-...
  • Page 272 Appendix B Control Shelf Connectors Table B-28 (Cont.) TDM Backplane, Top Signal Signal Signal Signal MBUS0TX- $56KHZ0- EBI_$XA10 EBI_$XA22 $56KHZ0+_ CUFA13 EBI_$XA23 LGND CUFA14 EBI_$XA24 CUFA3 CUFA9 HST/GST EBI_$XA25 CUFA4 CUFA10 EBI_$XA26 LGND LGND LGND EBI_$XA27 CUFA5 CUFA11 MBUS8RX+ CUFA6 CUFA12 LGND $8KHZ8-_50...
  • Page 273 Appendix B Control Shelf Connectors Table B-28 (Cont.) TDM Backplane, Top Signal Signal Signal Signal MBUS4TX+ $56KHZ4- DCD0 DCD4 MBUS4TX- $56KHZ4+_ RTS1 RTS5 MBUS3RX+ $8KHZ3-_50 C42 CTS1 CTS5 MBUS3RX- $8KHZ3+_5 MBUS3TX+ $56KHZ3- MBUS3TX- $56KHZ3+_ DCD1 DCD5 RTS2 RTS6 CTS2 CTS6 LGND LGND LGND...
  • Page 274 Appendix B Control Shelf Connectors Table B-29 TDM Backplane Pin-outs, Bottom Signal Signal Signal Signal CHASSIS CHASSIS CHASSIS CHASSIS LGND PBITSIN+_60 B03 SBITSIN+_60 D03 LGND LGND PBITSIN-_60 B04 SBITSIN-_60 D04 LGND LGND LGND SPARE1 R3FA+ LGND LGND R3FA- R4FA+ R4FA- LGND LGND LGND...
  • Page 275 Appendix B Control Shelf Connectors Table B-29 (Cont.) TDM Backplane Pin-outs, Bottom Signal Signal Signal Signal EBI_$XD04 EBI_$XBS8- LGND TPWR EBI_$XD05 EBI_$XBS16 AUDCTOFF- EBI_$XD06 EBI_$ADS0- ALMTRANS- EBI_$XD07 EBI_$ADS1- SDB0-_100 AMS/BMS EBI_$XD08 EBI_$XW/R SDB1-_100 MASASAN- EBI_$XD09 EBI_$XM/IO SDB2-_100 MASBSAN- R5FA+ EBI_$XD10 EBI_$XSP1 SDB3-_100 EBI_$XD11...

  • Page 276: Interprocessor Message Transport Connectors

    Appendix B Control Shelf Connectors B.1.11 Interprocessor Message Transport Connectors Inter-processor Message Transport (IMT) connectors on the control shelf backplane provide connections between the system shelves as part of the two high speed IMT buses. J8, J16, J58, J64 on Control Shelf backplane 04 and J23, J22, J75, J74 on Control Shelf backplane 06/07 Figure B-30 IMT Connector...

  • Page 277: Gp02

    Appendix B Control Shelf Connectors Table B-31 General Purpose Relay Connector 01 Signal 4, 8, 10, 15 not used GPRNO0 - General Purpose Relay 0, Normally Open GPRCOM0 - General Purpose Relay 0, Common GPRNC0 - General Purpose Relay 0, Normally Closed GPRNO1 - General Purpose Relay 1, Normally Open GPRCOM1 - General Purpose Relay 1, Common GPRNC1 - General Purpose Relay 1, Normally Closed...

  • Page 278: General Purpose Serial Interface Connectors

    Appendix B Extension Shelf Table B-32 (Cont.) General Purpose Relay Connector 02 Signal GPRNC2 - General Purpose Relay 5, Normally Closed GPRCOM2 - General Purpose Relay 5, Common GPRNO2 - General Purpose Relay 5, Normally Open GPRNC2 - General Purpose Relay 6, Normally Closed GPRCOM2 - General Purpose Relay 6, Common GPRNO2 - General Purpose Relay 6, Normally Open GPRNC2 - General Purpose Relay 7, Normally Closed...

  • Page 279: Extension Shelf Backplane

    Appendix B Extension Shelf • Power connectors • System clock connectors • Interface connectors • IMT connectors B.2.1 Extension Shelf Backplane 04 Figure B-34 Extension Shelf Backplane 04 B.2.2 Power Connectors The extension shelf backplane provides –48VDC power and return to all card positions.

  • Page 280: System Clock Connectors

    Appendix B Extension Shelf Figure B-35 Power Connector Table B-34 Power Connector Signal Signal P5$48VDC LGND P5$48RTN P3$48RTN P4$48VDC P3$48VDC P4$48RTN P2$48RTN LGND P2$48VDC P3$48RTN P1$48RTN P3$48VDC P1$48RTN P2$48RTN P1$48VDC P2$48VDC P1$48VDC P5$48VDC PF$48RTN P5$48RTN PF$48RTN P4$48VDC PF$48VDC P4$48RTN PF$48VDC $= A or B, A POWER (J4) or B POWER (J1) B.2.3 System Clock Connectors Each extension shelf receives and passes along Clock signals A (J5 and J6) and B (J41and...

  • Page 281: Clock A Out Connector J6

    Appendix B Extension Shelf Table B-35 (Cont.) Clock A In Extension Shelf Connector Signal Signal MBUSSTX-_50 MA56KHZ-_50 MBUSSTX+_50 MA8KHZ+_50 MBUSSRX-_50 MA8KHZ-_50 MBUSSRX+_50 SH2A56KHZ+_50 SH2MBUSTX-_50 SH2A56KHZ-_50 SH2MBUSTX+_50 SH2A8KHZ+_50 SH2MBUSRX-_50 SH2A8KHZ-_50 SH2MBUSRX+_50 SH3A56KHZ+_50 SH3MBUSTX-_50 SH3A56KHZ-_50 SH3MBUSTX-_50 SH3A8KHZ+_50 SH3MBUSRX-_50 SH3A8KHZ-_50 SH3MBUSRX+_50 B.2.3.2 Clock A Out Connector J6 Figure B-37 Clock A Out Extension Shelf Connector Table B-36...

  • Page 282: Clock B In Extension Shelf Connector J41

    Appendix B Extension Shelf Table B-36 (Cont.) Clock A Out Extension Shelf Connector Signal Signal B.2.3.3 Clock B In Extension Shelf Connector J41 Figure B-38 Clock B In Extension Shelf Connector Table B-37 Clock B In Extension Shelf Connector Pin Number Signal Pin Number Signal...

  • Page 283: Interface Connectors

    Appendix B Extension Shelf Table B-38 Clock B Out Extension Shelf Connector Pin Number Signal Pin Number Signal FANAALM SH2B56KHZ+_50 SH2B56KHZ-_50 SH2B8KHZ+_50 SH2B8KHZ-_50 SH3B56KHZ+_50 SH3B56KHZ-_50 FANCNTRL SH3B8KHZ+_50 SH3B8KHZ-_50 FANBALM B.2.4 Interface Connectors Behind each slot on the extension shelf backplane are two DB-26 connectors. These provide connection to the outside world in the form of TCP/IP networks or SS7 links networks.

  • Page 284: Extension Shelf Modules

    Appendix B Extension Shelf Table B-39 (Cont.) Extension Shelf Interface Connector Pins and Signals DS0A/OCU DS0A/OCU Signal ATM Signal ATM TX-RING TX-TIP RX-RING RX-TIP Table B-40 Connectors, Ports, and Card Slots Card Slot Port Connector Port Connector B.2.4.1 Extension Shelf Modules This section details the Extension Shelf backplane circuit board pin-outs used for •...
  • Page 285 Appendix B Extension Shelf B.2.4.1.1 Extension Shelf Backplane Pin-Outs, Top Connector Table B-41 lists pinouts for DCM/DSM/LIM/MPL/TSM Extension Shelf Backplane Top Connectors P1 through P8 and P10 through P17. Figure B-41 Extension Shelf Backplane Pin-Outs, Top Connector Table B-41 Extension Shelf Backplane Pin-Outs, Top Connector Signal Signal Signal...
  • Page 286 Appendix B Extension Shelf Table B-41 (Cont.) Extension Shelf Backplane Pin-Outs, Top Connector Signal Signal Signal Signal MBUSSTX- MA56KHZ- LGND LGND MA8KHZ+_ &-IF1_60 MA8KHZ- LGND LGND EBI_^XSP4 EBI_^XSP5 &-IF2_60 EBI_^XA11 LGND EBI_^XA12 &-IF3_60 &-IF10_60 EBI_^XA13 LGND LGND &-IF19_60 EBI_^BREQ &-IF4_60 &-IF20_60 EBI_^BG- LGND...
  • Page 287 Appendix B Extension Shelf Table B-42 (Cont.) Extension Shelf Backplane Pin-Outs, Bottom Connector Signal Signal Signal Signal &-IF4_60 &-IF21_60 LGND &-IF5_60 &-IF22_60 LGND &-IF6_60 &-IF24_60 &-IF23_60 LGND &-IF7_60 &-IF26_60 @-IF25_60 &-IF8_60 &-IF9_60 &-IF18_60 LGND LGND LGND EBI_^XSP2 EBI_^XSP3 LGND LGND EBI_^XBE0- EBI_^XD00 BSERO@-...
  • Page 288 Appendix B Extension Shelf Table B-42 (Cont.) Extension Shelf Backplane Pin-Outs, Bottom Connector Signal Signal Signal Signal CHASSIS CHASSIS CHASSIS CHASSIS P$48VDC LGND B.2.4.1.3 Extension Shelf Backplane Pin-Out Symbols Table B-43 lists the signal symbol values used in Table B-23 through Table B-43.

  • Page 289: Interprocessor Message Transport Connectors

    Appendix B Extension Shelf Table B-43 (Cont.) Extension Shelf Backplane Pin-Out Symbols Slot/Connector Interfac Addres Signal Symbol Values & 15 bottom / P21 16 top / P3 16 bottom / P20 17 top / P2 17 bottom / P19 18 top / P1 18 bottom / P18 B.2.5 Interprocessor Message Transport Connectors The extension shelf backplane provides connections for the two high speed Inter-...

  • Page 290: Cables And Adapters

    • All cables listed in Installer’s Cable Running List • Any non-Oracle cables • Cable labels (including blank labels for non-Oracle cables) • Fine point marker C.1.1 Procedure - Cable Labeling Perform this procedure to label cables. Locate the Installer’s Cable Running List in the Equipment Specification for the site.
  • Page 291 Appendix C Labeling Cables Figure C-1 Installer’s Cable Running List Example Locate the labels included with the cable shipment. Take one cable and identify the cable’s part number in the Cable Type column of the cable running list. Match the cable with its corresponding pair of labels: Go to the cable’s From column of the cable running list.

  • Page 292: Cables And Adapters

    Appendix C Cables and Adapters For cables not ordered through Oracle, confirm source, part number, and origination/ destination points before labeling them. Note: All cables must be labeled with “TO” and “FROM” destinations After you have labeled all cables, you are ready for cable installation.
  • Page 293 Appendix C Cables and Adapters Table C-1 (Cont.) Cable/Adapter Use - New Installation Card Applica Adapter Cable tion E5-ENET-B IPLIM 830-1102-XX 830-1174-XX 870-2971-xx IPGW IPSG FAST COPY E5-SM8G-B SCCP 830-1104-XX 830-1174-XX (ExAP 870-2990-01 Interface No adapters No cables required required E5-ENET-B IPSM 870-2971-xx...

  • Page 294: Alarm Cable (Holdover Clock

    Appendix C Cables and Adapters All references to ROHS are ROHS compliant. If these older cables exist, they may be used in lieu of newer cables. • Non-ROHS 830-0788-XX/ROHS 830-1177-XX DB26 – RJ45 (Straight thru Shielded) • Non-ROHS 830-0789-XX/ROHS 830-1178-XX DB26 – RJ45 (Crossover Shielded) Backplane connector A (must be used with adapter 870-1343-02).

  • Page 295: B-Clock Cable

    Appendix C Cables and Adapters C.2.3 B-Clock Cable Table C-2 Clock Cable Part Number Length Part Number Length (inche (inche North American International North American International 830-0398-01 830-1150-01 830-0398-12 830-0398-02 830-0398-13 830-1150-13 830-0398-03 830-0398-14 830-1150-14 830-0398-04 830-1150-04 830-0398-15 830-0398-05 830-0398-16 830-0398-06 830-1150-06 830-0398-17...

  • Page 296: Crossover (Cat-5) Cable

    Appendix C Cables and Adapters C.2.4 Crossover (CAT-5) Cable Table C-3 Crossover CAT-5 Cable Part Number Length North American International meters feet 830-0723-01 830-1173-01 0.30 830-0723-02 830-1173-02 0.90 830-0723-03 830-1173-03 1.37 830-0723-xx 830-1173-xx available in many more lenghts Figure C-4 Crossover CAT-5 Cable C.2.5 E5-ENET ADAPTER (DB26 Male-to-Dual RJ45) The Ethernet cable pinouts differ between the E5-ENET card and the DCM or single-slot...

  • Page 297: External Alarm Cable (Custom

    Appendix C Cables and Adapters Figure C-5 DB26 Male to Dual RJ45 Adapter C.2.6 External Alarm Cable (Custom) Table C-4 External Alarm Cable (Custom) Part Number Length North American International feet meters 830-0435-01 830-1151-01 15.24 830-0435-02 830-1151-02 22.86 830-0435-03 830-1151-03 30.48 830-0435-04 830-1151-04...

  • Page 298: Fan Power And Alarm Cable

    Appendix C Cables and Adapters Table C-4 (Cont.) External Alarm Cable (Custom) Part Number Length North American International feet meters 830-0435-07 830-1151-07 61.96 830-0435-08 830-1151-08 76.20 830-0435-09 830-1151-09 91.40 830-0435-10 830-1151-10 152.40 830-0435-11 830-1151-11 1000 304.80 Figure C-6 External Alarm Cable (Custom) C.2.7 Fan Power and Alarm Cable The fan power and alarm cable is part of the fan assembly.

  • Page 299: Filter Rack Alarm Cable

    Appendix C Cables and Adapters C.2.8 Filter Rack Alarm Cable Table C-5 Filter Rack Alarm Cable Part Number Length North American International feet meters 830-0638-01 830-1163-01 1.524 830-0638-02 830-1163-02 2.438 830-0638-03 830-1163-03 11.0 3.352 830-0638-04 830-1163-04 14.0 4.267 830-0638-05 830-1163-05 17.0 5.182 830-0638-06...

  • Page 300: Imt Cable High Speed

    Appendix C Cables and Adapters C.2.9 IMT Cable High Speed Table C-6 Interface Cable High Speed Part Number Length International feet meters 830-1344-01 5.75 1.75 830-1344-02 7.67 2.34 830-1344-04 0.15 830-1344-05 14.0 4.27 830-1344-06 12.0 3.66 830-1344-07 13.0 3.96 830-1344-08 16.0 4.88 830-1344-09...

  • Page 301: Source Clock Cable (Bits/High-Speed

    Appendix C Cables and Adapters C.2.10 Source Clock Cable (BITS/High-speed) Figure C-9 Source Clock Cable (BITS/High-speed) C.2.11 Power Cable Table C-7 Power Cable Part Number Length feet meters 830-1147-04 1.22 830-1147-05 1.98 830-1147-06 2.58 C-12...

  • Page 302: Row Alarm Cable

    Appendix C Cables and Adapters Figure C-10 Power Cable C.2.12 Row Alarm Cable Table C-8 Row Alarm Cable Part Number Length feet meters 830-1145-12 C-13...
  • Page 303 Appendix C Cables and Adapters Figure C-11 Row Alarm Cable C-14...

  • Page 304: Serial Interface, Terminal, And Printer Adapter

    Appendix C Cables and Adapters C.2.13 Serial Interface, Terminal, and Printer Adapter Figure C-12 Serial Interface, Adapter C.2.14 Shielded Straight Through Cable (CAT-5) Table C-9 Shielded Straight Through CAT-5 Cable Part Number Length meters feet 830-1174-10 30.48 100.0 830-1174-43 60.96 200.0 830-1174-63 91.44...

  • Page 305: Switch-To-Frame Ground Cable

    Appendix C Cables and Adapters Figure C-13 Straight Through Cable (CAT-5) C.2.15 Switch-to-Frame Ground Cable Figure C-14 Switch to Frame Ground Cable C-16...

  • Page 306: Part Numbers

    Note: Oracle reserves the right to ship compatible part numbers or revisions for new installations and replacements. Always check the latest Hardware Baseline for your release. The latest hardware baseline can be found in the Feature Notice of your release.

  • Page 307: Cables, Adapters

    Appendix D Cables, Adapters D.2 Cables, Adapters Table D-1 EAGLE Cables, Connectors, and Power Cords Part Numbers Name North America International Note Adapter, 15-Pin to 26- 830-0425-01 Adapter cables 830-0846-01 830-1183-01 backplanes -03 and -04 for source timing and HS clock cable...
  • Page 308 Appendix D Cables, Adapters Table D-1 (Cont.) EAGLE Cables, Connectors, and Power Cords Part Numbers Name North America International Note DB-26 to RJ-45 830-1102-02 830-1102-02 for new installations, with shielded Cat 5E cable; E5-ENET DB-26 to DB-26 830-1103-02 830-1103-02 for current...
  • Page 309 Appendix D Cables, Adapters Table D-1 (Cont.) EAGLE Cables, Connectors, and Power Cords Part Numbers Name North America International Note Filter Rack Alarm 830-0638-xx 830-1163-xx Cable Force Transition Card 850-0496-01 Frame Ground cable 830-0715-xx 830-1171-xx Ground Breaker 830-0830-01 830-1181-01 Panel-to-Frame cable...
  • Page 310 Appendix D Cables, Adapters Table D-1 (Cont.) EAGLE Cables, Connectors, and Power Cords Part Numbers Name North America International Note Pin Protector 830-0880-01 use with clock cable Assembly replacement (66 min for 6 shelves) Power Cable 830-0315-xx 830-1147-xx Power Cable, –48V...

  • Page 311: Components

    Appendix D Components Table D-1 (Cont.) EAGLE Cables, Connectors, and Power Cords Part Numbers Name North America International Note Straight Through see DCM 100BASE Cable (Patch Panel) TX Interface_DB26 to RJ45 Plus to Minus Switch-to-Frame 830-0884-01 Ground Cable Terminal/Converter 830-0528-01...
  • Page 312 Appendix D Components Table D-2 (Cont.) EAGLE Components Part Numbers Acronym Name North America International Note Clock Interface 804-0165-01 Card (Holdover Clock) Database 870-2371-08 870-2371-13 Service Module E5-APP-B EAGLE 870-3096-XX See EAGLE Application B Application B Card Card Hardware and Installation...

  • Page 313: Frames, Backplanes, Faps, And Fans

    Runs multiple Interface Card applications TOCA Timing Output 804-0166-xx Composite Automatic (Holdover Clock) D.4 Frames, Backplanes, FAPs, and Fans Table D-3 EAGLE Frames, Backplanes, FAPs, and Fans Part Numbers Acrony Name North America International Note Breaker Panel 804-1423-01 804-1423-R01 Breaker Panel...
  • Page 314 Appendix D Frames, Backplanes, FAPs, and Fans Table D-3 (Cont.) EAGLE Frames, Backplanes, FAPs, and Fans Part Numbers Acrony Name North America International Note Extension Shelf 850-0356-01 inactive Backplane 850-0356-02 inactive Extension Shelf Backplane Extension Shelf 850-0356-03 inactive Backplane Extension Shelf...

  • Page 315: Labels

    Appendix D Labels Table D-3 (Cont.) EAGLE Frames, Backplanes, FAPs, and Fans Part Numbers Acrony Name North America International Note FAP Jumper Board 870-2806-01 870-2806-01 D.5 Labels Table D-4 EAGLE Labels Name Part Numbers Label, Control frame 658-0486-01 Label, Extension frame 00...

  • Page 316: Miscellaneous Parts

    Appendix D Miscellaneous Parts D.6 Miscellaneous Parts Table D-5 EAGLE Miscellaneous Part Numbers Part Numbers Name North America International Note Drives Dual CD-RW\DVD-ROM 870-2746-01 870-2746-02 T1x00 AS Disk Drive, 120GB 804-1804-01 804-1804-R01 ULTRAATA/100/133_72 00RPM Panels 870-0259-02 Alarm side panel Alarm indicator lamps...
  • Page 317 Appendix D Power Cords for Peripherals Table D-5 (Cont.) EAGLE Miscellaneous Part Numbers Part Numbers Name North America International Note Heat-shrink 804-0228-01 Lugs, # 6 two-hole 502-0085-01 502-0085-R01 FAP connector #6 AWG 690-0131-01 690-0131-R01 1/0 pink lug 804-0977-01 804-0977-R01 Pin Protector Assembly...

  • Page 318: Power Cords For Peripherals

    Appendix D Power Cords for Peripherals Table D-6 (Cont.) Power Cords for Peripherals Country Part Number Country Part Number Hong Kong 804-1185-R03 South Africa 804-1185-R06 Hungary 804-1185-R01 South Korea 804-1185-R01 Iceland 804-1185-R01 Spain 804-1185-R01 India 804-1185-R06 Sweden 804-1185-R01 Ireland 804-1185-R03 Switzerland 804-1185-R11 Israel...

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