Page 1 Copyright 2009 Tekelec. All Rights Reserved. Printed in USA. Legal Information can be accessed from the Main Menu of the optical disc or on the Tekelec Customer Support web site in the Legal Information folder of the Product Support tab.
Page 2: Table Of Contents
Maintenance and Administration Subsystem............26 Communication Subsystem..................30 Application Subsystem....................34 Timing Systems......................40 Multi-Platform Server (MPS) Systems.................43 Embedded Operations Applications Processor..............43 OEM Products.........................44 Chapter 3: Hardware Descriptions - EAGLE 5 ISS......46 Introduction..........................47 EAGLE 5 ISS..........................47 Multi-purpose Server (MPS)....................48 Embedded OSS Application Processor (EOAP)..............52 Hardware Baselines........................54 Frames............................54...
Page 3 Extension Frame......................57 Miscellaneous Frame....................61 OAP Frame........................62 Control Frame......................63 Control Shelf........................64 Control Shelf Backplanes...................65 Extension Shelf......................68 Extension Shelf Backplanes..................71 Modules............................71 High Speed IMT Packet Router 2................73 High Speed IMT Packet Router.................78 High-Speed Multiplexer Card...................81 E5 Maintenance and Administration Subsystem Processor (E5-MASP) Card.........................83 E5-MDAL........................90 Maintenance Disk and Alarm Card................93...
Page 4 Extended Services Platform (ESP) Host Servers...............162 OEM-Based Networking Elements..................165 Ethernet Hubs......................166 Routers........................167 Ethernet Switches......................168 OEM-Based Peripheral Elements..................170 Breaker Panels......................170 Eight-Port Connector Box..................172 Chapter 5: Site Engineering - EAGLE 5 ISS........173 Safety and Cautionary Information..................174 Introduction...........................174 Location..........................174 Space Requirements....................174 Lighting........................175 Building Requirements.....................175 Earthquake Resistance....................175 Environmental Requirements.................175...
Page 5 EAGLE 5 ISS Release 37.0 Through 40.1................184 EAGLE 5 ISS Release 41.0 Through 41.1................195 EAGLE 5 ISS Cable Assemblies and Adapters..............202 Notes............................205 Glossary........................207 910-5798-001 Revision C, December 2009...
Page 6 Figure 6: Legacy Maintenance and Administration Subsystem Block Diagram ......29 Figure 7: Clock Routing........................41 Figure 8: EOAP Hosts in an EAGLE 5 ISS..................43 Figure 9: MPS on T1000 AS/EAGLE 5 ISS Overview..............48 Figure 10: Layered Design for MPS and Applications..............50 Figure 11: MPS Hardware Overview....................50...
Page 7 Figure 38: E5-MASP Card........................84 Figure 39: E5-MASP LEDs.........................88 Figure 40: E5-MDAL LEDs........................91 Figure 41: Maintenance Disk and Alarm Card................93 Figure 42: Terminal Disk Module.....................95 Figure 43: Link Interface Module (LIM) Main Assembly............101 Figure 44: AATM Applique (T1).....................104 Figure 45: E1-ATM Applique......................104 Figure 46: HCAP Main Assembly (P/N 850-0419-xx)..............105 Figure 47: Multi-Port Link Interface Module (MPL) (P/N 870-2061-01)........106 Figure 48: Database Communications Module................109...
Page 8 Figure 79: Front View Routers......................167 Figure 80: Rear View Isolation Router...................168 Figure 81: Rear View Dial-in Router....................168 Figure 82: Ethernet Switch.......................168 Figure 83: Telect Breaker Panel Front View..................171 Figure 84: Telect Breaker Panel Rear View..................171 Figure 85: Telect Breaker Panel Alarms..................171 Figure 86: Eight Port Breakout Box....................172 Figure 87: Logic Grounding with FAP (P/N 870-0243-08)............177 Figure 88: Logic Grounding with FAP (P/N 870-1606-xx/870-2320-xx)........177...
Page 9 List of Tables Table 1: Admonishments........................16 Table 2: Basic RMA Types........................20 Table 3: RMA Reasons for Return.....................20 Table 4: EOAP Frame Fuse Assignment..................53 Table 5: Card Specifications.......................73 Table 6: HIPR2 Technical Specifications..................78 Table 7: HIPR Technical Specifications....................81 Table 8: HMUX Technical Specifications..................83 Table 9: Thermal Alarm Conditions....................88 Table 10: E5-MASP Technical Specifications...................89 Table 11: TDM Technical Specifications..................97...
Page 10 Table 48: Router Rear LEDs......................168 Table 49: Ethernet Switch LEDs......................169 Table 50: Breaker Panel LEDs......................171 Table 51: Hardware Baseline EAGLE 5 ISS Release 37.0 through 40.1........184 Table 52: Hardware Baseline EAGLE 5 ISS Release 41.0 Through 41.1........195 Table 53: E1 Cable Assemblies......................202 Table 54: T1 MIM LIM Cable Assemblies..................203...
Page 11: Chapter 1: Introduction
Chapter Introduction Topics: Overview..12 Scope and Audience..12 Manual Organization and Conventions..12 Related Publications..13 Documentation Availability, Packaging, and Updates..13 Locate Product Documentation on the Customer Support Site..14 Regulatory Compliance and Certification..14 Documentation Admonishments..15 Customer Care Center..16 Hardware Repair and Return..19 910-5798-001 Revision C, December 2009...
Page 12: Overview
Overview This manual provides hardware descriptions for Tekelec signaling systems or components based on the EAGLE 5 Integrated Signaling System (ISS) for releases 40.0 and later. For hardware descriptions of earlier releases, contact your sales representative. This manual provides an overview of each system and its subsystems including details of standard and optional hardware components.
Page 13: Related Publications
Documentation Bulletins announce a new or updated release. The Tekelec EAGLE 5 ISS documentation set is released on an optical disc. This format allows for easy searches through all parts of the documentation set. Tekelec Customer Support The electronic file of each manual is also available from the site.
Page 14: Locate Product Documentation On The Customer Support Site
Access to Tekelec's Customer Support site is restricted to current Tekelec customers only. This section describes how to log into the Tekelec Customer Support site and locate a document. Viewing the document requires Adobe Acrobat Reader, which can be downloaded at www.adobe.com.
Page 15: Documentation Admonishments
Hardware Introduction Relevant standards in ElectroMagnetic Compatibility (EMC) directive 89/336/EEC. Relevant standards in Safety directive 73/23/EEC, supported by Certified Body (CB) Test Certificates US/5923/UL or US/5451/UL issued by the National Certification Body as tested to IEC 60950 with national differences for European countries . Underwriters Laboratories (UL) listed under UL File E200146 for USA and c-UL for Canada.
Page 16: Customer Care Center
(This icon and text indicate the possibility of service interruption.) Customer Care Center The Tekelec Customer Care Center is your initial point of contact for all product support needs. A representative takes your call or email, creates a Customer Service Request (CSR) and directs your requests to the Tekelec Technical Assistance Center (TAC).
Page 17 Hardware Introduction TAC Regional Support Office Hours (except Brazil): 10:00 a.m. through 7:00 p.m. (GMT minus 6 hours), Monday through Friday, excluding holidays Argentina Phone: 0-800-555-5246 (toll-free) Brazil Phone: 0-800-891-4341 (toll-free) TAC Regional Support Office Hours: 8:30 a.m. through 6:30 p.m. (GMT minus 3 hours), Monday through Friday, excluding holidays Chile Phone: 1230-020-555-5468...
Page 18: Problem Report (Pr)
Hardware Introduction Phone: +44 1784 467 804 (within UK) Software Solutions Phone: +33 3 89 33 54 00 Asia India Phone: +91 124 436 8552 or +91 124 436 8553 TAC Regional Support Office Hours: 10:00 a.m. through 7:00 p.m. (GMT plus 5 1/2 hours), Monday through Saturday, excluding holidays Singapore Phone:...
Page 19: Emergency Response
A critical situation is defined as a problem with an EAGLE 5 ISS that severely affects service, traffic, or maintenance capabilities, and requires immediate corrective action. Critical problems affect service...
Page 20: Table 2: Basic Rma Types
Hardware Introduction returned to Tekelec due to a failure, with the returned item being repaired and returned to the customer. It is essential that serial numbers are recorded correctly. RMAs cannot be created without a valid serial number. All repair and quality information is tracked by serial number.
Page 21: Repair And Return Shipping Instructions
Anything returned without the product being defective. Repair and Return Shipping Instructions All returned equipment, assemblies, or subassemblies must be shipped to the Tekelec Repair and Return Facility specified by the Technical Services engineer. 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 22: Returning A Crate
If the equipment is being immediately installed ship the dollies back to Tekelec in the crate after use. After installing the equipment bolt the dollies securely in the crate and return to Tekelec.
Page 23 Hardware Introduction Note: It is the site supervisor’s responsibility to assure the crate and dollies are returned to Tekelec. 910-5798-001 Revision C, December 2009...
Page 24: Chapter 2: System Overview
Chapter System Overview Topics: Introduction..25 EAGLE 5 ISS..25 Multi-Platform Server (MPS) Systems..43 Embedded Operations Applications Processor...43 OEM Products..44 910-5798-001 Revision C, December 2009...
Page 25: Introduction
Note: The term “module” refers to a hardware card provisioned with software. In some cases, EAGLE 5 ISS cards are referred to by the name of the module in which they function, rather than the card name that appears on the label of the card. For ordering or service purposes, customers should use the card name and part number printed on the card itself.
Page 26: Maintenance And Administration Subsystem
Maintenance Disk and Alarm card (collectively referred to as control cards). The control cards are located in slots 1113 through 1118 of the EAGLE 5 ISS Control Shelf. The control cards may be either E5-based cards or legacy cards.
Page 27: Figure 5: E5-Based Maintenance And Administration Subsystem Block Diagram
System Overview Note: E5-based control cards are those cards for the EAGLE 5 available for use as of Release 40.1. Note: Legacy control cards are those cards for the EAGLE 5 that are based on the GPSM-II, TDM, and MDAL cards.
Page 28 EAGLE 5 with 16 user-accessible terminals, distributes Composite Clocks and High Speed Master clocks throughout the EAGLE 5, distributes Shelf ID to the EAGLE 5, and disk storage for an E5-MCAP card. The E5-TDM card provides an interface to the E5-MDAL card for system alarms.
Page 29: Figure 6: Legacy Maintenance And Administration Subsystem Block Diagram
The TDM card also distributes Composite Clocks and High Speed Master clocks throughout the EAGLE 5 ISS. The legacy TDM card is a single-slot card occupying slots 1114 and 1116 of the control shelf.
Page 30: Communication Subsystem
LAN, the EAGLE 5 ISS and the Integrated Monitoring feature allows monitoring of SS7 links without external connections. SS7 link information from the EAGLE 5 ISS LIM cards is collected by the Signaling Transport Cards (STCs) and is transferred to Expanded Service Platform (ESP) subassemblies.
Page 31 IMT ring is possible, provided HIPR is installed on both IMT A and IMT B on a given shelf. HMUX and HIPR cards are installed at the factory or by Tekelec Technical Support and are not installed by customers.
Page 32 Traffic between EAGLE 5 ISS cards on the same shelf will be switched directly to the destination slot and will not transit any other cards in the shelf. Traffic between shelves is not required to pass onto an intra-shelf IMT channel if it is not necessary.
Page 33 Note: A mixture of cards within a shelf is allowable only during upgrade for a temporary period. HIPR2 supports a 1.0625 Gbps inter-shelf bus rate and is compatible with the existing HIPR when operating at the low-rate. When the high-rate is required, all shelves within an EAGLE 5 ISS node must be equipped with HIPR2.
Page 34: Application Subsystem
IMT ring is possible, provided HIPR is installed on both IMT A and IMT B on a given shelf. HMUX and HIPR cards are installed at the factory or by Tekelec Technical Support and are not installed by customers.
Page 35 Application software is downloaded to individual application cards by means of Generic Program Loads (GPLs). Hardware is defined to EAGLE 5 ISS by means of a series of administration commands. Software is then loaded from the fixed disk over the IMT bus directly to the cards. The type of the GPL loaded depends on the card that is chosen.
Page 36 (P/N 850-0356-01/02/03/04/06). DCM cards are provisioned in pairs for redundancy. Note: Unique cabling needs restrict placement of DCM cards in EAGLE 5 ISS systems. The DCM requires a unique cable interface that is not compatible with current LIM cables on fully wired but unequipped shelves.
Page 37 (P/N 850-0356-01/02/03). The GPSM-II is a required replacement for the MCAP cards to support the large system feature (up to 1500 links) in the EAGLE 5 ISS or to support the Time Slot Counter (TSC) Synchronization and Integrated Sentinel Monitoring features.
Page 38 TSM-1024 with four 256 MByte appliques is P/N 870-1292-xx E5-TSM Module The E5-TSM card (P/N 870-2943-01) is a single slot card providing the EAGLE 5 ISS system with Gateway Screening Binder/Generic Loading Services. The GLS function provides in-memory storage of Gateway Screening (GWS) data and downloads the data automatically to link cards where the GWS feature is executed.
Page 39 Hardware System Overview cables/patch panels. If it is desired to move the second E1/T1 port to the Port B backplane connector, then an adapter and another cable (1-, 2-, or 4-port) must be used. E5-E1T1 Module The E5-E1T1 card (P/N 870-1873-xx) is a single slot card providing eight trunk terminations processing up to 32 signaling links of configurable channelized E1 or T1 connectivity.
Page 40: Timing Systems
MASPs. Each MASP selects between two BITS clock signals to provide a system clock to the rest of the EAGLE 5 ISS. The system clock is used by Link Interface Modules (LIMs) and Signaling System #7 (SS7) Digital Service level-0 Applique (DS0A) signaling links, with each LIM selecting either clock A or clock B for its own use.
Page 41: Figure 7: Clock Routing
Hardware System Overview EAGLE 5 ISS also distributes system clocks to all frames. All shelves, both extension shelves and control shelves, provide “clock in” and “clock out” connections. Clock cables from the control shelf connect to the “clock in” connector on the top shelf of each frame. From the “clock out” connector on the top shelf of each frame, the clock signals are connected to the “clock in”...
Page 42 System Overview High-Speed Master Timing The EAGLE 5 ISS can be configured with high-speed master timing capabilities. High-speed master timing allows synchronization of LIM cards at E1 or T1 rates. For more information about installing or upgrading to high-speed timing see the section on Master Timing in the “Installation Manual”.
Page 43: Multi-Platform Server (Mps) Systems
As the customer’s data is updated, the MPS stores the data and updates the DSM cards. An MPS is usually co-located with an EAGLE 5 ISS. If you need to install an MPS at a distance from the Customer Care Center EAGLE 5 ISS, contact the for assistance.
Page 44: Oem Products
Hardware System Overview OEM Products OEM-Based Servers OEM-based products use Commercial Off-The-Shelf (COTS) servers, network elements, and peripheral components. Server hosts provide processing power and database storage capacity to deliver a scalable range of application specific services. Components can be configured redundantly to provide a high level of reliability in processing applications.
Page 45 Hardware System Overview Optional components OEM-Based Peripheral Components OEM-based products use COTS peripheral components to support the server and network elements. Peripheral components can include: Breaker panels Workstations Terminals Switch boxes Break-out boxes 910-5798-001 Revision C, December 2009...
Page 46: Chapter 3: Hardware Descriptions - Eagle 5 Iss
Chapter Hardware Descriptions - EAGLE 5 ISS Topics: Introduction..47 EAGLE 5 ISS..47 Multi-purpose Server (MPS)..48 Embedded OSS Application Processor (EOAP)..52 Hardware Baselines..54 Frames..54 Modules..71 Fuse and Alarm Panels..147 Holdover Clock..156 910-5798-001 Revision C, December 2009...
Page 47: Introduction
EAGLE 5 ISS is a large-capacity, multi-functional, fully scalable Signaling Transfer Point (STP). The EAGLE 5 ISS is NEBS-compliant (GR-63-CORE, Network Equipment-Building Systems). High capacity and scalability allow the EAGLE 5 ISS to grow from a single-shelf, 80-link STP to a multi-frame, 2000-link STP.
Page 48: Multi-Purpose Server (Mps)
AS is used with the EAGLE 5 ISS. The MPS provides an interface between the customer provisioning network and the EAGLE 5 ISSDSM cards. As the customer’s data is updated, the MPS stores the data and updates the DSM cards. An MPS is usually co-located with an EAGLE 5 ISS.
Page 49 Hardware Hardware Descriptions - EAGLE 5 ISS Layered Design MPS is based on the T1000 AS and uses a layered design (see Figure 10: Layered Design for MPS and Applications) with defined interfaces to enable application and platform changes to be made...
Page 50: Figure 10: Layered Design For Mps And Applications
Hardware Hardware Descriptions - EAGLE 5 ISS independently. This design provides an environment in which changes made to platform components need not cause changes in application. Figure 10: Layered Design for MPS and Applications Hardware Components This section includes a description of MPS hardware components and an overview of the disks and file systems.
Page 51 Hardware Hardware Descriptions - EAGLE 5 ISS DANGER: DO NOT install AC powered equipment in the MPS frame. No commercially powered AC equipment should be used or placed within 7 feet of -48VDC equipment. Doing so can create a shock hazard to personnel and equipment.
Page 52: Embedded Oss Application Processor (Eoap)
Hardware Hardware Descriptions - EAGLE 5 ISS Embedded OSS Application Processor (EOAP) The Embedded Operations Support System Application Processor (EOAP) is a general purpose interface module that provides the STP system with a generic platform to develop and run software for feature-specific interfaces to the STP.
Page 53: Figure 13: Dual Eoap Host Configuration
Hardware Hardware Descriptions - EAGLE 5 ISS EOAP host assemblies connect to the system control shelf through two serial interface ports that allow the system to send a reset command to the hosts. The EOAP host is server, Ultrasparc 2I, with 300 MHz processor, and contains the following...
Page 54: Hardware Baselines
Note: With the large system feature, depending on configuration, the system can accommodate up to 1024 links. The large system feature applies to the EAGLE 5 ISS systems only. Additional frames may be required for optional items, such as Embedded OAP (EOAP) which are configured in OAP frames (OAPF).
Page 55: Figure 15: Frame End Panel With Lamp Indicators
Hardware Hardware Descriptions - EAGLE 5 ISS Lamp indicators (P/N 525-0067-R01) can be mounted on either side of the row of frames on the end panels (as shown in Figure 15: Frame End Panel with Lamp Indicators), which show three levels of alarm...
Page 56 Hardware Hardware Descriptions - EAGLE 5 ISS The doors on the front of each frame provide electromagnetic interference shielding and lock in place with a screw lock. Mounted on the inside of the doors are card locators, used to record the location of each card in a shelf and important data regarding the application that each card provides.
Page 57: Extension Frame
The EAGLE 5 ISS systems are delivered with customer-specific locations for the Database Communications Module (DCM) cards and DCMX cards. DCM and DCMX cards must be inserted into odd numbered slots in EAGLE 5 ISS systems. DCM, double-slot EDCM, single-slot EDCM and EDCM-A cards can be configured in EAGLE 5 ISS systems.
Page 58: Figure 17: Extension Frame Ef-00 Numbering Plan
Hardware Hardware Descriptions - EAGLE 5 ISS The system can have up to five Extension Frames, EF-00 to EF-04. EF-04 supports only one extension shelf. The numbering of the shelves is shown, with the shelf identification backplane wiring, circuit card location, and the Inter-processor Message Transport (IMT) address in small print at the bottom of the faceplate.
Page 59: Figure 19: Extension Frame Ef-03 Numbering Plan
Hardware Hardware Descriptions - EAGLE 5 ISS Figure 19: Extension Frame EF-03 Numbering Plan Figure 20: Extension Frame EF-04 Numbering Plan 910-5798-001 Revision C, December 2009...
Page 60: Figure 21: Extension Shelf Backplane Id (P/N 850-0356-03)
Hardware Hardware Descriptions - EAGLE 5 ISS Figure 21: Extension Shelf Backplane ID (P/N 850-0356-03) Figure 22: Extension Shelf Backplane ID (P/N 850-0356-04/06) 910-5798-001 Revision C, December 2009...
Page 61: Miscellaneous Frame
Hardware Hardware Descriptions - EAGLE 5 ISS Miscellaneous Frame The Miscellaneous Frame (MF) is an optional frame that can be used to mount holdover clocks, test equipment, jack panels, spare cards, and other customer-specified accessories or equipment. The optional spare card storage shelf is equipped with card guides and doors for safe storage of all system cards.
Page 62: Oap Frame
Hardware Hardware Descriptions - EAGLE 5 ISS OAP Frame The Operation Support System Application Processor Frame (OAPF) is an optional frame for mounting the processors hosting optional Embedded Operations Support System Applications Processors (EOAPs). This frame is typically located next to the system’s control frame, but may be customer engineered in other locations under special circumstances.
Page 63: Control Frame
Hardware Hardware Descriptions - EAGLE 5 ISS Control Frame The Control Frame (CF) is the principle frame for the system. The top shelf is the control shelf, containing all the components of the Maintenance and Administration Subsystem (MAS), and up to...
Page 64: Control Shelf
Two HIPR2 or HIPR or HMUX cards provide Inter-processor Message Transport ( IMT) bus continuity for all cards connected to the IMT bus. Note: HIPR2, HMUX and HIPR cards are installed at the factory or by Tekelec Technical Support and are not installed by customers.
Page 65: Control Shelf Backplanes
Note: Control Shelf Backplane (P/N 850-0330-03/04) can be used with the HMUX and HIPR and HIPR2 in the EAGLE 5 ISS system with minor modifications and the addition of adapter cable (P/N 830-1185-01). The adapter cable is not necessary for customers not wanting high speed links.
Page 66: Figure 26: Control Shelf Backplane (P/N 850-0330-03/04)
GPSM-II cards are connected in slots 13 and 15. The MDAL card is connected in slot 17 and 18. The HCMIM, DCM, DSM, and E5-SM4G cards, used in EAGLE 5 ISS systems, are mounted only in available odd numbered slots 1, 3, 5, 7, and 11.
Page 67: Figure 27: Control Shelf Backplane (P/N 850-0330-06)
Hardware Hardware Descriptions - EAGLE 5 ISS Figure 27: Control Shelf Backplane (P/N 850-0330-06) 910-5798-001 Revision C, December 2009...
Page 68: Extension Shelf
LIMs (MPLs), E1/T1 MIMs, Translation Service Modules (TSMs), Database Communications Modules ( DCMs) and Database Service Modules (DSMs) (mounted in odd numbered slots, requiring two slots). The shelf also contains two HMUX (EAGLE 5 ISS) cards, in card locations 9 and 10 (refer to the figures below).
Page 69: Figure 29: Shelves With Dcm And Lim Cards In Control Frame
Hardware Hardware Descriptions - EAGLE 5 ISS Figure 29: Shelves with DCM and LIM Cards in Control Frame 910-5798-001 Revision C, December 2009...
Page 70 Hardware Hardware Descriptions - EAGLE 5 ISS The extension shelf consists of die-formed top and bottom assemblies with die-formed channel slots to accept the top and bottom edges of the cards. The assemblies are anchored to the side panels which are equipped with integral flanges for attaching the shelf to a 23-inch rack in a 26-inch frame.
Page 71: Extension Shelf Backplanes
Each extension shelf receives and passes along Clock signals A (J5 and J6) and B (J41and J42). Modules The EAGLE 5 ISS frames are configured with card modules (also known as “cards”) that provide specific functions and services. Cards are connected to the shelf backplane through connectors located on the rear of the card.
Page 72: Figure 30: Cam-Out/Lock-In Levers On Cards
High Speed IMT Packet Router (HIPR) Note: The HIPR card is installed by the factory or by Tekelec Technical Support, not by the customer. Note: Shelves must contain either HMUX or HIPR cards. A mixture of HMUX and HIPR cards within one IMT ring is possible, provided HIPR is installed on both IMT A and IMT B on a given shelf.
Page 73: High Speed Imt Packet Router 2
Hardware Descriptions - EAGLE 5 ISS Note: GPSM-II cards are required for the Integrated Sentinel and Time Slot Counter (TSC) synchronization features. Note: TheGPSM-II card is installed by the factory or by Tekelec Technical Support, not by the customer. Database Communications Module (DCM) and Database Service Module (DSM) can only be located in odd numbered slots and requires two slots.
Page 74 (FC) bandwidth operating at either 1.0625 Gbps or 2.5 Gbps. Traffic between EAGLE 5 ISS cards on the same shelf will be switched directly to the destination slot and will not transit any other cards in the shelf. Traffic between shelves is not required to pass onto an intra-shelf IMT channel if it is not necessary.
Page 75: Figure 31: Hipr2 Switch Mixed Topology
Figure 31: HIPR2 Switch Mixed Topology., in a mixed topology where a HIPR2 is used in an EAGLE 5 ISS along with HMUX and HIPR, the Fibre channel ring runs at the low speed. Figure 31: HIPR2 Switch Mixed Topology.
Page 76 Two HIPR2 (or two HIPR) modules are required in shelves equipped with high-performance LIMs, such as the High-Capacity MIM, and for interfacing to application servers (such as the Tekelec 1x00 series of Application Servers) through IMT Bridge and IMT PCI modules. HIPR2 requires all other shelves be equipped with either all HIPR2 cards or HMUX/HIPR cards (each shelf cannot contain a mix of HMUX/HIPR and HIPR2).
Page 77: Figure 33: Hipr2 Leds
Cabling If the EAGLE 5 ISS does not have the correct cabling to support the HIPR2 card high rate (2.5 Gbps) operation, the cards will operate at low-rate (1.0625 Gbps) and will not be able to run at the high rate.
Page 78: High Speed Imt Packet Router
The High Speed IMT Packet Router (HIPR, P/N 870-2574-02) interfaces and operates with the high speed fiber channel ring and all EAGLE 5 ISS cards. The HIPR card features a key architectural improvement over existing shelf level switch cards such as HMUX by replacing the legacy low speed shelf ring with a switched design.
Page 79: Figure 34: Hipr Switch Topology, Single Imt Bus
Figure 34: HIPR Switch Topology, Single IMT Bus., each HMUX-based intra-shelf ring in an EAGLE 5 ISS is replaced with one HIPR switch, which connects directly to each card in the shelf. This change allows 16 times more bandwidth than in the HMUX-based ring architecture. The fibre-channel inter-shelf ring is the same as for HMUX.
Page 80: Figure 35: Hipr Leds
HIPR is required in shelves equipped with high-performance LIMs, such as the High-Capacity MIM (HCMIM), and for interfacing to Tekelec 1000 Application Servers through IMT Bridge and IMT PCI modules. HIPR requires all other shelves be equipped with either all HMUX cards or all HIPR cards (shelves cannot contain a mix of HMUX and HIPR).
Page 81: High-Speed Multiplexer Card
The HMUX Card acts as a gateway between the shelf's IMT ring and the inter-shelf ring. Using the HMUX card transforms the EAGLE 5 ISS from a single 125 Mbps ring to a centralized intra-shelf ring running at 1.0625 Gbps, connecting a maximum of sixteen secondary, 125 Mbps shelf rings.
Page 82 HMUX cards on a per-shelf basis. The A-bus and B-bus HMUX cards for a given shelf share the same physical address. Physical Layout The HMUX (EAGLE 5 ISS) is designed to plug into the existing shelf backplane, using the same slots the IPMX cards have occupied. Figure 37: HMUX Side View HMUX shows a side view of the HMUX card.
Page 83: E5 Maintenance And Administration Subsystem Processor (E5-Masp) Card
Hardware Hardware Descriptions - EAGLE 5 ISS matches stored address, amber when complete code initialization is achieved and programming is complete, and red when ID addresses do not match. The Processor health LED illuminates red when power on reset, amber while programming, and green when programming completes, code initialization completes, and code is running.
Page 84: Figure 38: E5-Masp Card
Hardware Hardware Descriptions - EAGLE 5 ISS provided by the EAGLE 5. The card provides connections to the IMT bus through the backplane and all of the necessary logic to perform both application and communication processing of the data streams through the EAGLE 5.
Page 85 Hardware Hardware Descriptions - EAGLE 5 ISS E5-MCAP The E5-MCAP card provides increased processor and memory performance over the legacy GPSM-II card. The E5-MCAP card is equipped with 4 GB of physical application processor memory. The primary data interface to the E5-MCAP is RS-232 interfaces (i.e.: terminals) through the E5-TDM.
Page 86 The TSC Synchronization feature does not require any physical hardware changes to any of the boards in the EAGLE 5 ISS. TSC Synchronization is an optional feature for the EAGLE 5 ISS that will allow all cards in the system, which contain a Time Slot Counter, to synchronize with one another. The ability to have synchronized timing between cards is used in applications such as system wide message time stamping.
Page 87 The E5-MASP is designed to operate in the EAGLE 5 ISS shelf with natural convection cooling and does not require a fan tray for cooling.
Page 88: Figure 39: E5-Masp Leds
Hardware Hardware Descriptions - EAGLE 5 ISS Table 9: Thermal Alarm Conditions Board Temperature E5-MASP Actions Temp Level 1 Exceeded Major alarm raised Temp Level 2 Exceeded Critical alarm raised; the application software responds to the notification by either preventing database updates or failing...
Page 89: Table 10: E5-Masp Technical Specifications
Hardware Hardware Descriptions - EAGLE 5 ISS Cabling and Technical Specifications The E5-MASP card utilizes an RS-232 cable for manufacturing and customer service installation diagnostics. The cable part number is 830-1327-XX. Table 10: E5-MASP Technical Specifications Power Requirements Voltage -48 VDC...
Page 90: E5-Mdal
Hardware Hardware Descriptions - EAGLE 5 ISS Power Requirements Current 1.17 A - 1.29 A Power 48 - 53 W Physical Characteristics Height 14.43 in. (36.65 cm) Width 2.06 in. (5.23 cm) Depth 12.80 in. (32.51 cm) E5-MDAL The E5-MDAL card (P/N 870-2900-01) processes alarm requests, provides general purpose relays, and provides fan control.
Page 91: Figure 40: E5-Mdal Leds
Hardware Hardware Descriptions - EAGLE 5 ISS When the AlarmTransfer signal is active, the RMC signals are set to the output relays. When the AlarmTransfer signal is inactive, the RMC alarm signals are blocked. Optocouplers on the RMC alarms sense current when the alarms are active. If the alarm is active and there is no current sensed then it is assumed that the bulb/led on the row end panel is either burned out or missing.
Page 92 Hardware Hardware Descriptions - EAGLE 5 ISS 910-5798-001 Revision C, December 2009...
Page 93: Maintenance Disk And Alarm Card
Hardware Hardware Descriptions - EAGLE 5 ISS Maintenance Disk and Alarm Card The Maintenance Disk and Alarm (MDAL) card (P/N 870-0773-xx) is a multi-layered circuit card that provides the system with removable cartridge data storage, alarm processing from the currently active MASP, and an audible alarm.
Page 94: Terminal Disk Module
Hardware Hardware Descriptions - EAGLE 5 ISS Terminal Disk Module The Terminal Disk Module (TDM) (P/N 870-0774-xx) provides the following functions for the EAGLE 5 ISS: Building Integrated Timing System Interfaces Fuse Alarm Interface External/Customer Alarm Interface Maintenance Disk and Alarm Interface...
Page 95: Figure 42: Terminal Disk Module
Hardware Hardware Descriptions - EAGLE 5 ISS Note: The EAGLE 5 ISS internal composite clock sourced from the high speed clock feature of the TDM-GTI (P/N 870-0774-18) is not available to systems with DS0 cards. Customers with DS0 links can use BITS clocks as the TSC synchronization clock source.
Page 96 Global Timing Interface The EAGLE 5 ISS internal composite clock sourced from the high speed clock feature of the TDM-GTI is not available to systems with DS0 cards. Customers with DS0 links can use the BITS clocks as the TSC clock source.
Page 97: Table 11: Tdm Technical Specifications
Hardware Hardware Descriptions - EAGLE 5 ISS 1. The type of external clock introduced into the EAGLE 5 ISS must be compatible with the EAGLE 5 ISS. 2. The location where the external clock is introduced must be recognized by the EAGLE 5 ISS.
Page 98: Time Slot Counter Synchronization
The TSC Synchronization feature does not require any physical hardware changes to any of the boards in the EAGLE 5 ISS. TSC Synchronization is an optional feature for the EAGLE 5 ISS that will allow all cards in the system, which contain a Time Slot Counter, to synchronize with one another. The ability to have synchronized timing between cards is used in applications such as system wide message time stamping.
Page 99: Link Interface Modules
The MPL card improves the functionality of SS7 routing within the EAGLE 5 ISS by increasing the number of SS7 links the EAGLE 5 ISS can handle for each LIM card. This allows the EAGLE 5 ISS to interact in larger SS7 networks as well as decreasing the size of an EAGLE 5 ISS (for example, previously 250 cards would be required to support 500 links, now only 63 cards are required).
Page 100: Table 12: Hardware Requirements-Maximum Number Of Links
Maximum Numbers of Links A maximum of 1500 links can be configured in the EAGLE 5 ISS depending on the hardware, software release level, and features that are installed. A mixture of high-speed and low-speed signaling links is supported.
Page 101: Figure 43: Link Interface Module (Lim) Main Assembly
Hardware Hardware Descriptions - EAGLE 5 ISS Number of Links Required Hardware Note: A Maximum 100 High-speed LIM cards (of TDM cards in locations 1114 and 1116 which up to 41 can be IPLIMx cards) can be Note: There are only enough slots to support 500 installed links using just 2-port LIMs.
Page 102 Hardware Hardware Descriptions - EAGLE 5 ISS Applications Processor The Application Processor (AP) section of the LIM interfaces and controls the operation of the interface applique. The AP’s operations are controlled by an 80486 processor and peripherals. Communications Processor The Communications Processor (CP) is made up of an 80386/80486 microprocessors and peripherals.
Page 103: High-Capacity Application Processor-Based Lims
Hardware Hardware Descriptions - EAGLE 5 ISS The CP also controls the selection of the IMT buses, A or B. In the other direction, the CP forwards data received from the IMT buses through the AP to the interface port (DB15) connector on the shelf backplane.
Page 104: Figure 44: Aatm Applique (T1)
LIM but has increased data throughput. The E1-ATM can perform gateway screening, copy and redirect, conversion and any of the other EAGLE 5 ISS features that an ANSI LIM can perform with the exception of Link Fault Sectionalization (LFS) which is not a requirement for E1 links.
Page 105: Figure 46: Hcap Main Assembly (P/N 850-0419-Xx)
Hardware Hardware Descriptions - EAGLE 5 ISS HCAP or HCAP-T Main Assembly The High-Capacity Application Processor (P/N 850-0419-xx) or HCAP-T (P/N 850-0615-xx) provides the interface between the IMT bus and LIM-ATM or E1-ATM appliques. Figure 46: HCAP Main Assembly (P/N 850-0419-xx)
Page 106: Figure 47: Multi-Port Link Interface Module (Mpl) (P/N 870-2061-01)
A2, A3, B1, B2, B3). Note: The MPL is backward compatible with existing two-port DS0 LIMs. Attempts to provision the MPL ports as any type other than a DS0 interface will be rejected. The MPL card is used in EAGLE 5 ISS systems only.
Page 107: Table 13: Lim Card Specifications
Hardware Hardware Descriptions - EAGLE 5 ISS LIM Cards Technical Specifications The technical specifications of the LIM cards are listed in Table 13: LIM Card Specifications. Table 13: LIM Card Specifications Power Requirements Voltage -48VDC Current 0.6A E1/T1 LIM (P/N 870-2198-01) –20 watts Power ATM (T1) (P/N870-1293-xx) –14 watts...
Page 108: Database Communications Module
Hardware Hardware Descriptions - EAGLE 5 ISS Power Requirements Interfaces DS0A 64 and 56 kbps 64 and 56 kbps ATM (T1) 1.544 Mbps E1 ATM 2.048 Mbps 2.048 Mbps 1.544 Mbps HMUX 125 Mbps and 1 Gbps HIPR 125 Mbps and 1 Gbps...
Page 109: Figure 48: Database Communications Module
Hardware Hardware Descriptions - EAGLE 5 ISS The DCM card (P/N 870-1984-01) supports one to four plug-in memory cards. The primary board DCM with the addition of memory boards and software creates the Database Service Modules (DSMs). The DCM card and DSM card can be mounted in the control shelf, require two slots for mounting, and must be assigned to an odd numbered slots with the next higher-numbered even slot left open.
Page 110: Database Service Module
Hardware Hardware Descriptions - EAGLE 5 ISS Database Service Module In the EAGLE 5 ISS system primary board DCMX (P/N 870-1984-01) plus memory boards equal Database Service Modules (DSMs). Memory Boards are stacked as indicated in Figure 49: DSMs with Memory Boards.
Page 111: Single-Slot Edcm And Edcm-A
Hardware Hardware Descriptions - EAGLE 5 ISS Table 14: DCM and DSM Technical Specifications Power Requirements Voltage -48VDC Current 0.32A Power 21 watts Dimensions Height 14.4 in. (36.6 cm) Width 1.8 in. (2 cm) Depth 12.8 in. (32.5 cm) Single-Slot EDCM and EDCM-A The single-slot EDCM (P/N 870-2372-01) is a version of the EDCM which requires only a single frame slot.
Page 112 Hardware Hardware Descriptions - EAGLE 5 ISS The single-slot EDCM is the base for the following card types: Signaling transport card (STC) General Purpose Service Module (GPSM-II) Measurements Collection and Polling Module (MCPM) IPLIMx feature with eight point capabilities IPGW EDCM-A Replacement Cards Any EDCM cards that needs to be replaced will be replaced with EDCM-A cards (P/N 870-2508-02).
Page 113: Signaling Transport Card
The STC is based on the single-slot EDCM card. The STC card functions as an IP router between the IMT bus internal to an EAGLE 5 ISS and the ethernet networks used to communicate with an associated Extended Services Platform (ESP).
Page 114: Measurements Collection And Polling Module
The E586 and E586-T primary boards provide all logic required to support the TSM MCAP-256 functions. The E586 functions will include: An Applications Processor for MCAP applications in the EAGLE 5 ISS. A Communication Processor for the high speed bus interface (IMT bus).
Page 115: Figure 51: Translation Service Module (P/N 870-1289-Xx)
CAUTION: It is Tekelec's recommendation that cards running the SCCP application be uniformly distributed in the EAGLE 5 ISS to provide a more even SCCP load distribution. During normal operation unevenly distributed SCCP cards in an EAGLE 5 ISS would not have any network or system impacts.
Page 116: Figure 52: Translation Service Module (P/N 870-1292-Xx)
Hardware Hardware Descriptions - EAGLE 5 ISS Figure 52: Translation Service Module (P/N 870-1292-xx) 910-5798-001 Revision C, December 2009...
Page 117: High-Capacity Multichannel Interface Module
Hardware Hardware Descriptions - EAGLE 5 ISS High-Capacity Multichannel Interface Module The High-Capacity Multichannel Interface Module (HCMIM P/N 870-2671-01) is a dual slot card providing eight trunk terminations processing up to 64 signaling links of configurable channelized E1 or T1 connectivity. The eight E1/T1 ports reside on backplane connectors A and B.
Page 118 Total system signaling link capacity depends on other cards within the system and must not exceed the provisioning limit of the EAGLE 5 ISS . Since the HCMIM has the capacity to process a full T1 or E1 on a single card, daisy chaining or channel card operation is not needed. Interoperation with E1/T1MIMs operating in channel mode is not supported.
Page 119: Figure 54: Channelized Hcmim Interfaces
Hardware Hardware Descriptions - EAGLE 5 ISS manner. Each channel occupies a unique timeslot in the data stream and can be selected as a local signaling link on the interface card. Each card can select up to a total of 64 signaling links. The default configuration is 16 signaling links.
Page 120: Table 15: Channel Bridging E1/T1 Port Pairing
Timeslots located on the bridging slave E1/T1 port, (timeslots that have been dropped from the bridging master E1/T1 port), contain idle patterns provided by the EAGLE 5 ISS. All other idle timeslots that are not dropped must contain an idle pattern provided by the remote network elements connected to both E1/T1 ports (bridging master and slave).
Page 121: Table 16: Channelized Hcmim Leds
Channel alarm LEDs for the bridging slave E1/T1 port are amber to indicate the Channel Bridging mode of operation. Three LEDs provide conventional EAGLE 5 ISS card indications of APPL Proc operation, and IMT A and IMT B operation. Sixteen (16) LEDs, two for each E1/T1 port are used to indicate port and channel (signaling link) status.
Page 122: E5-Atm Module
Hardware Hardware Descriptions - EAGLE 5 ISS Aggregated Channel Status Color Port Status LED Red blinking Loss of signal and remaining All channels provisioned = OOS errors Port not provisioned No channels are provisioned Technical Specifications Table 17: HCMIM Technical Specifications...
Page 123 Hardware Hardware Descriptions - EAGLE 5 ISS TVG based load sharing STP/LAN (SLAN) Integrated Sentinel (e-route) Integrated Message Feeder Higher throughput than current HCAP-based LIMATM and LIME1ATM cards Automatic on/off CRC4 detection for E1 framing (default is on) Two ATM signaling links operating at 1 Erlang...
Page 124: Figure 56: E5-Atm
Hardware Hardware Descriptions - EAGLE 5 ISS Table 18: Thermal Alarm Conditions Board Temperature Actions Temp1 Exceeded Major alarm raised Temp2 Exceeded Critical alarm raised; failover initiated, traffic rerouted Temperature abated Normal operation restored Thermtrip - shutdown temperature CPU shuts down automatically. Card must be reseated to...
Page 125 Hardware Hardware Descriptions - EAGLE 5 ISS Interface Adapter The E5-ATM provides connectivity for two E1/T1 ports on the Port A backplane connector, allowing up to two links that may be provisioned. Both E1/T1ports can be accessed with a 2-port or 4-port cable.
Page 126: E5-E1T1 Module
Hardware Hardware Descriptions - EAGLE 5 ISS Technical Specifications Table 19: E5-ATM Technical Specifications Power Requirements Voltage -48VDC Current 712mA - 736mA Power 29.2W typical, 30.2W max. Physical Characteristics Height 14.43 in. (36.65 cm) Width 1.013 in. (2.57 cm) Depth 12.80 in.
Page 127: Figure 57: Channelized E5-E1T1 Interfaces
Hardware Hardware Descriptions - EAGLE 5 ISS Channelized Mode The E5-E1T1 provides access to eight E1/T1 ports residing on backplane connectors A and B. Each data stream consists of 24 T1 or 31 E1 DS0 signaling links assigned in a time-division multiplex (TDM) manner.
Page 128: Table 20: Channel Bridging E1/T1 Port Pairing
Hardware Hardware Descriptions - EAGLE 5 ISS Timeslots located on the bridging slave E1/T1 port, (timeslots that have been dropped from the bridging master E1/T1 port), contain idle patterns provided by the EAGLE. All other idle timeslots that are not dropped must contain an idle pattern provided by the remote network elements connected to both E1/T1 ports (bridging master and slave).
Page 129: Figure 59: E5-E1T1
Hardware Hardware Descriptions - EAGLE 5 ISS Primary E1/T1 Port Paired E1/T1 Port Signaling Processed Unprocessed Signaling Processed Unprocessed Signaling Processed Unprocessed Signaling Processed Unprocessed Timing In order to use channel bridging without facility errors, both bridging master and bridging slave E1/T1 ports must be synchronous;...
Page 130: Table 21: E5-E1T1 Leds
Hardware Hardware Descriptions - EAGLE 5 ISS Table 21: E5-E1T1 LEDs Color Port Status LED Aggregated Channel Status LED Green No alarms, port has acquired timing All channels provisioned =IS-NR and framing synchronization Amber blinking Loss of Frame Synchronization Any channels provisioned = OOS...
Page 131: E5-Enet Module
Hardware Hardware Descriptions - EAGLE 5 ISS Color Port Status LED Aggregated Channel Status LED Port not provisioned No channels are provisioned Technical Specifications Table 22: E5-E1T1 Technical Specifications Power Requirements Voltage -48VDC Current 646mA Power Physical Characteristics Height 14.43 in. (36.65 cm) Width 2.06 in.
Page 132: Table 24: E5-Enet Capacities
Hardware Hardware Descriptions - EAGLE 5 ISS Feature Protocols Supported IPSG M2PA, M3UA SLAN TCP/IP EROUTE TCP/IP Table 24: E5-ENET Capacities Parameter IPLIM IPGWY E5-ENET cards per node SCTP entities per E5-ENET module 16 SCTP/IP Associations 50 SCTP Connections The maximum possible connections is (100*16) + (64*50) = 4800. EAGLE currently supports 4000 in the link table.
Page 133: Figure 60: E5-Enet
Hardware Hardware Descriptions - EAGLE 5 ISS Board Temperature Actions Temperature abated Normal operation restored Thermtrip - shutdown temperature CPU shuts down automatically. Card must be reseated to exceeded restore operation once temperature returns to normal operating conditions LED Indicators The E5-ENET includes three front panel indicators (LEDs) for APPL Proc operation, IMT A, and IMT B status.
Page 134 Hardware Hardware Descriptions - EAGLE 5 ISS Interface Cable Differences The PMC ports A0 and B0 are utilized as IP signaling link ports while PMC ports A1 and B1 support the Fast Copy feature when enabled. Each interface is independent of the others. The E5-ENET card...
Page 135: Table 26: Interface Cable/Adapter
Hardware Hardware Descriptions - EAGLE 5 ISS and other DCM-class cards have backplane cable pinout differences requiring an adapter for the Table 26: Interface Cable/Adapter E5-ENET card. See The Ethernet cable pinouts differ between the card and the DCM/SSEDCM cards.
Page 136: E5-Ipsm Module
TCP/IP connection to an external host. A maximum of three (3) cards either E5-IPSM or IPSM or a combination of both cards is supported for a single EAGLE 5 ISS node, on any shelf or combination of shelves. Thermal Management The E5-IPSM includes thermal management and alarming provisions to protect the card from damage if environmental conditions hinder thermal stability.
Page 137: Figure 61: E5-Ipsm
Hardware Hardware Descriptions - EAGLE 5 ISS application is notified from the OS. The application software auto inhibits all telnet terminals allowed on that card (refer to the table below) Once the temperature recedes under the Temperature Level 2 threshold, the application allows all telnet terminals previously allowed on the card and sets their state to IS-NR/Idle.
Page 138: Table 29: E5-Ipsm Leds
Hardware Hardware Descriptions - EAGLE 5 ISS Table 29: E5-IPSM LEDs Color Descriptions APPL Application processor is not running or is failing diagnostics. PROC Amber Card is loading an application or is being polled (may be prevented from loading by maintenance-out-of-service condition).
Page 139: Table 30: E5-Ipsm Technical Specifications
Hardware Hardware Descriptions - EAGLE 5 ISS Color Descriptions Amber Card is on IMT bus, but testing is not complete. Green Card is on IMT bus. Blank Communication processor is not operating. No active connection. Green Actuive connection. Port non-functional.
Page 140: E5-Sm4G Module
These interrupts require the mitigation of the temperature rise to resume normal card operations interrupted by the threshold crossings. The E5-SM4G is designed to operate in the EAGLE 5 ISS shelf with natural convection cooling and does not require a fan tray for cooling. 910-5798-001 Revision C, December 2009...
Page 141: Figure 62: E5-Sm4G
Hardware Hardware Descriptions - EAGLE 5 ISS Table 31: Thermal Alarm Conditions Board Temperature E5-SM4G Actions Temp Level 1 Exceeded Major alarm raised Temp Level 2 Exceeded Critical alarm raised; outstanding grant requests shall be completed but no new grant requests shall be accepted.
Page 142: Table 33: E5-Sm4G Technical Specifications
Hardware Hardware Descriptions - EAGLE 5 ISS Interface Cable Adapter An adapter, P/N 830-1104-03, and a CAT 5E cable may be used in place of the existing DCM cable. The adapter is connected to the backplane and the RJ-45 CAT 5E cable is connected from the other side of the adapter to a switch, or a hub, or a patch panel (same place the DCM cable was terminated).
Page 143: E5-Tsm (Translation Services Module)
Note: Hot swapping to install an E5-TSM is supported provided the shelf is HIPR equipped. EAGLE 5 ISS nodes may be comprised of one of each type of module for the required redundant configuration. This allows the E5-TSM to serve as a replacement module for the TSM-256 card running GLS.
Page 144: Figure 63: E5-Tsm Leds
Hardware Hardware Descriptions - EAGLE 5 ISS Technical Specifications Table 35: E5-TSM Technical Specifications Power Requirements Voltage -48VDC Current 624mA Power 25.6W Physical Characteristics Height 14.43 in. (36.65 cm) Width 1.013 in. (2.57 cm) Depth 12.80 in. (32.51 cm) E5-TSM LEDs The E5-TSM includes three front panel indicators (LEDs) for APPL Proc operation, IMT A, and IMT B status.
Page 145: Air Management Card
Hardware Hardware Descriptions - EAGLE 5 ISS Air Management Card The Air Management (P/N 870-1824-02) card is an unpowered filler card used to ensure efficient air flow in shelves equipped with fans. Air Management cards are required in all empty slots in the shelf above the 890-0001-04 fan assembly used with HCMIM cards.
Page 146: Fan Tray
The EAGLE 5 ISS fan tray P/N 890-0001-04 contains three -48V fans that provide a redundant airflow for thermal management of the shelf. The EAGLE 5 ISS fan tray is powered by –48 VDC, at a fused rating of 3A. It has redundant power inputs (A and B). Each input is provided by a DB-9, keyed, positive locking connector.
Page 147: Fuse And Alarm Panels
GR-1089-CORE when mounted in a Tekelec Heavy Duty Frame or standard frame. The EAGLE 5 ISS fan tray is also designed to be UL and CE compliant. The EAGLE 5 ISS fan tray is designed to operate in a Central Office environment with continuous operation at -5C to 50C and 5% to 90% RH in compliance with GR-63-CORE.
Page 148: Fuses
Hardware Hardware Descriptions - EAGLE 5 ISS 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 870-1831-01. The FAP P/N 870-2320-01 Revs A-I can be upgraded to FAP P/N 870-2320-01 Rev J with FAP upgrade kit P/N 870-1831-02.
Page 149: Fuse And Alarm Panel (P/N 870-2804-01)
Hardware Hardware Descriptions - EAGLE 5 ISS Fuse Amp Fuse Flag Color Fuse Amp Fuse Flag Color 0.375A White-Green White -Brown 0.5A Green 0.65A Black 7.5A Black-White 0.75A Brown Red-White Gray Yellow-Green 1.33A White Red-Blue 1.5A White-Yellow Fuse and Alarm Panel (P/N 870-2804-01) The FAP (P/N 870-2804-01) is a low-profile (1U) unit that can be installed in the Control Frame (CF) and the Extension Frame (EF).
Page 150: Table 37: Fuse And Alarm Panel Front Items (P/N 870-2804-Xx)
Hardware Hardware Descriptions - EAGLE 5 ISS Table 37: Fuse and Alarm Panel Front Items (P/N 870-2804-xx) Fuse Panel Item Description Fuse Positions Two groups of 20 GMT fuses Shorting Board LED LED indicator for shorting board. Fuse Alarm LED indicator for fuse fail alarm...
Page 151: Figure 68: Fuse And Alarm Panel Rear (P/N870-2804-01)
Hardware Hardware Descriptions - EAGLE 5 ISS Fuse State A side Fuse State B side Fuse LEDs A side Fuse LEDs B side Shorting board LED is green. Shorting board in Green Green normal operational mode, Shorting board LED is off. No fuses blown.
Page 152: Fuse And Alarm Panel (P/N 870-1606-Xx/870-2320-Xx)
Hardware Hardware Descriptions - EAGLE 5 ISS Fuse Panel Item Description P3 - Fuses 13 through 18 Alarm Interface 15-pin “D” connectors: P1 to the EAGLE P2 to a power distribution breaker panel Table 40: Fuse and Alarm Panel Specifications (P/N870-2804-01).
Page 153: Figure 69: Fuse And Alarm Panel (P/N 870-1606-Xx/870-2320-Xx) Front
Hardware Hardware Descriptions - EAGLE 5 ISS The Maintenance (Jumper) board allows the removal of one or both diode boards without taking down the system. The Jumper board has two connectors and a connector plug. During normal operation, the connector plug is seated on the first connector. For maintenance operation, the jumper board has to be removed and the connector plug moved to the second connector.
Page 154: Figure 70: Fuse And Alarm Panel (P/N 870-1606-Xx/870-2320-Xx) Rear
Hardware Hardware Descriptions - EAGLE 5 ISS CRITICAL LED indicator for frame critical alarm MAJOR LED indicator for frame major alarm MINOR LED indicator for frame minor alarm Figure 70: Fuse and Alarm Panel (P/N 870-1606-xx/870-2320-xx) Rear Table 42: Fuse and Alarm Panel...
Page 155: Provision Rules For Fap Fuse Locations
Hardware Hardware Descriptions - EAGLE 5 ISS Fuse Panel Item Description 48VDC, Chassis Ground, and RTN 26-pin “D” connectors, P1, P2, and P3 for B-side outputs. Outputs B Table 43: Fuse and Alarm Panel (P/N 870-1606-xx/870-2320-xx) Specifications Power Requirements Voltage 48VDC 40 amp “A”...
Page 156: Holdover Clock
Hardware Hardware Descriptions - EAGLE 5 ISS Note: For fuse locations 12, 18, 19, and 20, the fuse maximum is 10 amp when adjacent locations are used. Power feed must originate from the same power source. Fuse and Alarm Panel, Jumper Board (P/N 870-1641-01) fuse size on boards 40 amp per side for P/N 870-1606-02 Rev A and B, and for P/N 870-2320-03 Rev A through I.
Page 157: Figure 72: Holdover Clock, Frame Connections
Hardware Hardware Descriptions - EAGLE 5 ISS Figure 72: Holdover Clock, Frame Connections Maintenance Interface System Card The Maintenance Interface System (MIS)(P/N 804-0175-01) card provides local and remote command and control for the holdover clock. The MIS card is installed in the far right slot of the holdover clock...
Page 158: Figure 73: Maintenance Interface System Card Block Diagram
Hardware Hardware Descriptions - EAGLE 5 ISS Output alarms from the Timing Output Composite Clock Automatic (TOCA) cards, input reference alarms from the clock inputs, and failure alarms from any card in the shelf are sent to the MIS card.
Page 159 Hardware Hardware Descriptions - EAGLE 5 ISS switches to the other CI card, which then supplies both clock cards until the failed reference is restored. The SOURCE ACTIVE lamp on the front panel indicates which CI card is on-line. The CI card contains a source control circuit that causes the card to switch to the redundant CI card if the primary card, defined as the card currently in operation, fails.
Page 160: Figure 74: Mca-5 Card And Output Protection Matrix
Hardware Hardware Descriptions - EAGLE 5 ISS Whenever manual or automatic protection switching takes place, the TOCA cards automatically transfer option switch settings to the hot spare, TOCA card. Note: An OEM purchased Timing Output Logic Automatic (TOLA) can be used as a composite clock source.
Page 161: Chapter 4: Hardware Descriptions - Oem-Based Products
Chapter Hardware Descriptions - OEM-Based Products Topics: OEM-Based Product Descriptions..162 Extended Services Platform (ESP) Host Servers..162 OEM-Based Networking Elements..165 OEM-Based Peripheral Elements..170 910-5798-001 Revision C, December 2009...
Page 162: Oem-Based Product Descriptions
OEM-Based Product Descriptions Original Equipment Manufacturer (OEM)-based products use Common Off-The-Shelf (COTS) components configured in a Tekelec standard or heavy-duty frame. Systems are configured at Tekelec for NEBS compliance and typically have redundant components for reliability and maintainability. OEM-based products support application specific services that interact with the SS7 and IP networks.
Page 163: Figure 75: Esp Server Front And Rear Views
Hardware Hardware Descriptions - OEM-Based Products Server Node Specifications Width 487.4 mm (19.19 in.) Depth 10kg (22 lbs.) Weight (unpackaged but fully configured) UltraSPARC-II 650 MHz Processor type Clock rate One Processor (NEBS level 3 compliant) 256 Kbyte Internal CPU provided Cache on module Memory 4 GB maximum...
Page 164: Table 45: Esp Server Leds
Hardware Hardware Descriptions - OEM-Based Products ESP Server LEDs Table 45: ESP Server LEDs lists the LED indicators of the ESP servers. The LEDs are located on the front and back of the ESP servers. Table 45: ESP Server LEDs Location LED Name Color...
Page 165: Oem-Based Networking Elements
Hardware Hardware Descriptions - OEM-Based Products SAI/P Card The Sun SAI/P card (Serial Asynchronous Interface PCI Adapter) is used with the 8-Port Connector Box to provide eight programmable ports for low-speed devices for 50 bps to 115,200 bps transmission for the ESP subsystem. This module is installed in the expansion slot in ESP server 1A only. 8-Port Connector Box The 8-Port Connector Box segments the output of the Sun SAI/P card into eight ports for the ESP subsystem.
Page 166: Ethernet Hubs
Hardware Hardware Descriptions - OEM-Based Products Ethernet Switches OEM-Based Peripheral Elements Ethernet Hubs The following section provides an overview of the Ethernet hubs used in OEM-based products. The hubs cross-connect the components in OEM-based products functioning as an internal Local Area Network (LAN).
Page 167: Routers
(Per Port) Routers The routers used in OEM-based products are configured by Tekelec for NEBS compliancy. Two types can be configured; isolation routers and dial-in routers. Note: Some OEM-based products do not use routers, for example, the MPS systems. Use...
Page 168: Ethernet Switches
Hardware Hardware Descriptions - OEM-Based Products Figure 80: Rear View Isolation Router Figure 81: Rear View Dial-in Router show rear views of the Isolation and Dial-In routers. Link (LNK) and activity (ACT) LEDs are located near each ethernet port at the rear of the routers. Table 48: Router Rear LEDs describes the LED indicators on the rear of the routers.
Page 169: Table 49: Ethernet Switch Leds
Hardware Hardware Descriptions - OEM-Based Products Table 49: Ethernet Switch LEDs describes the LEDs located on the front of the switches. Table 49: Ethernet Switch LEDs Description System Green-Indicates when power is present to the switch and the power switch is in the ON position.
Page 170: Oem-Based Peripheral Elements
Hardware Hardware Descriptions - OEM-Based Products Description Solid amber-Port is not forwarding. Port was disabled by management or an address violation or was blocked by Spanning Tree Protocol (STP). Note: After a port is reconfigured, the port LED can remain amber for up to 30 seconds as STP checks the switch for possible loops.
Page 171: Figure 83: Telect Breaker Panel Front View
Hardware Hardware Descriptions - OEM-Based Products Figure 83: Telect Breaker Panel Front View shows the details of the front view of the breaker panel Figure 83: Telect Breaker Panel Front View Figure 84: Telect Breaker Panel Rear View shows the rear details of the breaker panel. Figure 84: Telect Breaker Panel Rear View Note: When breakers trip to the half-way position as a result of an overload they must be switched completely OFF then ON to reset.
Page 172: Eight-Port Connector Box
Hardware Hardware Descriptions - OEM-Based Products Color Description Breaker Lights whenever an output circuit breaker has tripped or turned off Alarm Input Breaker Green Lights whenever Side A/B is receiving input power (Not lit if input breaker is tripped) Note: If all breakers are not turned on, the alarm LED will light. To turn off the alarm LED, press RESET and the alarm LED will reset and turn off.
Page 173: Chapter 5: Site Engineering - Eagle 5 Iss
Chapter Site Engineering - EAGLE 5 ISS Topics: Safety and Cautionary Information..174 Introduction..174 Location..174 Populating the System..179 910-5798-001 Revision C, December 2009...
Page 174: Safety And Cautionary Information
Introduction This chapter contains procedures for preparing the site for the installation of Tekelec signaling products and is intended for use by personnel involved in planning and executing an installation. This chapter also provides power, environmental, and floor plan requirements relating to that installation.
Page 175: Lighting
Hardware Site Engineering - EAGLE 5 ISS 5 frames = 158 inches wide by 22 inches deep = 3476 square inches (24.1 square feet) 6 frames = 190 inches wide by 22 inches deep = 4180 square inches (29 square feet) The number of frames required for an installation is described in the Initial Sales Order for that site.
Page 176: Heating Ventilation And Air Condition Requirements
Total equipment weight/floor area = distributed floor capacity. Following are the maximum weights of Tekelec frames: Maximum weight of EAGLE 5 ISS Control or Extension frames: 850 lbs (386 kg). Maximum weight of a two T1000/T1100 server frame (for example, the MPS frame), including AC and DC LSMS frames: 600 lbs (273 kg).
Page 177: Figure 87: Logic Grounding With Fap (P/N 870-0243-08)
Hardware Site Engineering - EAGLE 5 ISS The frame/chassis ground path provides a low impedance connection for all metal parts of the entire system, including the frame, doors, card cages, and end panels. Each frame/chassis connection within the system lineup terminates to the frame and connects to the main ground bar by way of Htaps, #6 American Wire Gauge (AWG) to 1/0 cable.
Page 178: Power Requirements
Hardware Site Engineering - EAGLE 5 ISS The doors installed are grounded to the frame through a double lug ground wire (see Figure 89: Door Grounding) and through a screw-down latch. Figure 89: Door Grounding Power Requirements Each frame requires that power be provided from two fuses/breakers at –48VDC. Additional peripherals that require alternating current (for example but not limited to, terminals, printers, and modems) must be compatible with the system and have a separate ground from the frames.
Page 179: Populating The System
Group Ticket Voucher (TVG) allows the EAGLE 5 ISS to assign transactions to available resources. With TVG, EAGLE 5 ISS provisioning for SCCP cards is defined on a transactions per second (TPS) basis, where the desired TPS of the system will be determined by the amount of TSM and DSM cards configured.
Page 180: Database Communications Module (Dcm) And Double-Slot Enhanced Dcm (Edcm)
Note: The MPL card improves the functionality of SS7 routing within the EAGLE 5 ISS by increasing the number of SS7 links theEAGLE 5 ISS can handle for each LIM card. This allows the EAGLE 5 ISS to interact in larger SS7 networks as well as decreasing the size of an EAGLE 5 ISS (for example, previously 250 cards would be required to support 500 links, now only 63 MPL cards are required).
Page 181: Figure 90: Database Communications Cabling In System
Hardware Site Engineering - EAGLE 5 ISS point-to-point connection or a connection to a hub/router. This must be identified to the customer who may be preparing the location. The figure that follows shows the cable types and part numbers. The maximum cable length has not been determined but will be less than 100 meters.
Page 182: Single-Slot Edcm And Edcm-A
“A” and “B” power feeds. Note: In EAGLE 5 ISS systems care must be taken to be sure the DCM card is inserted into the correct odd numbered slots. Cards may be provisioned in any slot where they physically fit except for the HMUX and MAS dedicated card slots.
Page 183: Appendix A: Hardware Baselines
Appendix Hardware Baselines Topics: Baseline Tables..184 EAGLE 5 ISS Release 37.0 Through 40.1..184 EAGLE 5 ISS Release 41.0 Through 41.1..195 EAGLE 5 ISS Cable Assemblies and Adapters.202 Notes..205 910-5798-001 Revision C, December 2009...
Page 184: Baseline Tables
For example, a table cell with X would indicate that notes 1 and 2 are applicable to that component being configurable in that release. EAGLE 5 ISS Release 37.0 Through 40.1 Table 51: Hardware Baseline EAGLE 5 ISS Release 37.0 through 40.1 NAME PART 37.0 37.5...
Page 185 Hardware Hardware Baselines NAME PART 37.0 37.5 38.0 39.0 40.0 40.1 NUMBER Step 14 Step 14 Step 14 Step 14 Step 14 Step 14 CTRL SHELF 870-0775-03 Step Step Step Step Step Step CTRL SHELF 870-2321-02 Step 7 Step 7 Step 7 Step 7 Step 7...
Page 186 Hardware Hardware Baselines NAME PART 37.0 37.5 38.0 39.0 40.0 40.1 NUMBER DSM, (1) GB Step 21 Step 21 Step 21 Step 21 Step 21 Step 21 870-2371-06 GPSM-II Based Step Step Step Step Step Step DSM, (1) GB 870-2371-08 Step 22 Step 22 Step 22...
Page 187 Hardware Hardware Baselines NAME PART 37.0 37.5 38.0 39.0 40.0 40.1 NUMBER Step 22 Step 22 Step 22 Step 22 Step 22 Step 22 E1-ATM 870-2455-05 Step 24 Step 24 Step 24 Step 24 E5-ATM 870-1872-01 Step 24 Step 24 Step 24 Step 24 E5-ATM...
Page 188 Hardware Hardware Baselines NAME PART 37.0 37.5 38.0 39.0 40.0 40.1 NUMBER (Single-slot) Step Step Step Step Step Step EDCM 870-2372-08 Step 25 Step 25 Step 25 Step 25 Step 25 Step 25 (Single-slot) Step Step Step Step Step Step EDCM 870-2372-13 Step 25...
Page 189 Hardware Hardware Baselines NAME PART 37.0 37.5 38.0 39.0 40.0 40.1 NUMBER EXTN SHELF 870-0776-06 EXTN SHELF 870-0776-07 EXTN SHELF 870-0776-08 EXTN SHELF 870-0776-11 Step 5 Step 5 Step 5 Step 5 Step 5 Step 5 EXTN SHELF 870-2378-01 Step 5 Step 5 Step 5 Step 5...
Page 190 Hardware Hardware Baselines NAME PART 37.0 37.5 38.0 39.0 40.0 40.1 NUMBER Step Step Step Step Step Step GPSM-II 870-2360-08 Step 22 Step 22 Step 22 Step 22 Step 22 Step 22 Step Step Step Step GPSM-II 870-2360-09 Step 22 Step 22 Step 22 Step 22...
Page 191 Hardware Hardware Baselines NAME PART 37.0 37.5 38.0 39.0 40.0 40.1 NUMBER LIM-AINF 870-1488-05 LIM-AINF 870-1488-06 LIM-ATM Step 8 Step 8 Step 8 Step 8 Step 8 Step 8 870-1293-02 (1) 4Mb RAM LIM-ATM Step 8 Step 8 Step 8 Step 8 Step 8 Step 8...
Page 192 Hardware Hardware Baselines NAME PART 37.0 37.5 38.0 39.0 40.0 40.1 NUMBER LIM-OCU 870-1010-03 LIM-OCU 870-1010-04 LIM-OCU 870-1010-05 LIM-OCU 870-1486-02 LIM-OCU 870-1486-03 LIM-OCU 870-1486-04 LIM-V.35 870-1012-02 LIM-V.35 870-1012-03 LIM-V.35 870-1012-04 LIM-V.35 870-1487-01 LIM-V.35 870-1487-02 LIM-V.35 870-1487-03 MDAL 870-0773-04 MDAL 870-0773-05 MDAL 870-0773-06 MDAL...
Page 193 Hardware Hardware Baselines NAME PART 37.0 37.5 38.0 39.0 40.0 40.1 NUMBER Step Step Step Step Step Step 870-2061-04 Step 23 Step 23 Step 23 Step 23 Step 23 Step 23 Step Step Step Step Step Step 870-2061-06 Step 23 Step 23 Step 23 Step 23...
Page 194 MPS in Heavy Duty 890-1801-01 Frame MPS in Heavy Duty 890-1801-02 Frame MPS DC Frame 890-1843-01 MPS DC Frame 890-1843-02 MPS Netra-to- 870-2735-01 Tekelec 1000 Field Upgrade Kit MPS Netra-to- 870-2735-02 Tekelec 1000 Field Upgrade Kit 910-5798-001 Revision C, December 2009...
Page 195: Eagle 5 Iss Release 41.0 Through 41.1
Hardware Hardware Baselines EAGLE 5 ISS Release 41.0 Through 41.1 Table 52: Hardware Baseline EAGLE 5 ISS Release 41.0 Through 41.1 NAME PART NUMBER 41.0 41.1 Step 18 Step 18 Air Management Card 870-1824-01 Step 18 Step 18 Air Management Card...
Page 196 Hardware Hardware Baselines NAME PART NUMBER 41.0 41.1 GPSM-II Based DSM, (1) GB Step 21 Step 21 870-2371-06 GPSM-II Based DSM, (1) GB Step Step 22 Step Step 22 870-2371-08 GPSM-II Based DSM, (1) GB Step Step 22 Step Step 22 870-2371-13 GPSM-II Based DSM, (2) GB MEM...
Page 197 Hardware Hardware Baselines NAME PART NUMBER 41.0 41.1 Step 24 Step 24 E5-ATM 870-1872-01 Step 24 Step 24 E5-ATM 870-1872-02 Step 24 Step 24 E5-E1T1 870-1873-02 Step 24 Step 24 E5-E1T1 870-1873-03 Step 24 Step 24 E5-E1T1 870-1873-04 Step 24 Step 24 E5-ENET 870-2212-02...
Page 198 Hardware Hardware Baselines NAME PART NUMBER 41.0 41.1 EDCM Step Step 25 Step Step 25 870-2372-13 (Single-slot) EDCM-A Step Step 26 Step Step 26 870-2508-01 (Single-slot) EDCM-A Step Step 26 Step Step 26 870-2508-02 (Single-slot) EDSM-2G 870-2372-03 (MCPM) EDSM-2G Step 21 Step 21 870-2372-07 (MCPM)
Page 199 Hardware Hardware Baselines NAME PART NUMBER 41.0 41.1 870-1606-01 Step 4 Step 4 870-1606-02 Step 16 Step 16 870-1606-02 Step 16 Step 16 870-1606-05 870-1823-01 Step 5 Step 5 870-2320-01 Step 15 Step 15 870-2320-01 Step 5 Step 5 870-2320-03 FAP- CF/EF 870-0243-08 FAP- MISC...
Page 200 Hardware Hardware Baselines NAME PART NUMBER 41.0 41.1 Step Step 28 HIPR2 870-2872-01 Step 12 Step 12 HMUX 870-1965-01 Step 12 Step 12 HMUX 870-1965-03 LIM-ATM Step 8 Step 8 870-1293-02 (1) 4Mb RAM LIM-ATM Step 8 Step 8 870-1293-03 (2) 4Mb RAM Step 9 Step 9...
Page 201 Hardware Hardware Baselines NAME PART NUMBER 41.0 41.1 Step Step 23 Step Step 23 870-2061-06 Step Step Step Step 870-0774-10 Step 13 Step 13 Step 13 Step 13 870-0774-11 Step 13 Step 13 TDM-GTI 870-0774-15 Step 13 Step 13 TDM-GTI 870-0774-18 TSM-256 870-1289-02...
Page 202: Eagle 5 Iss Cable Assemblies And Adapters
MPS DC Frame 890-1843-02 MPS Netra-to- 870-2735-01 Tekelec 1000 Field Upgrade Kit MPS Netra-to- 870-2735-02 Tekelec 1000 Field Upgrade Kit EAGLE 5 ISS Cable Assemblies and Adapters Table 53: E1 Cable Assemblies Tekelec P/N Description non-ROHS ROHS 910-5798-001 Revision C, December 2009...
Page 203: Table 54: T1 Mim Lim Cable Assemblies
Hardware Hardware Baselines Tekelec P/N Description 830-0622-xx 830-1233-xx E1 Dual TX/RX, XX ft., NTW 830-0623-xx 830-1256-xx E1 Patch, D26M to D26M, 120 OHM, XX ft., NTW Table 54: T1 MIM LIM Cable Assemblies Tekelec P/N Description non-ROHS ROHS 830-0949-xx 830-1198-01...
Page 204: Table 57: Fast Copy Adapters
830-0394-xx 830-0531-03 830-0535-xx 830-0531-04 830-1154-xx (ROHS) 830-1153-04 (ROHS) 830-0680-01 None 830-1165-01 (ROHS) None Table 60: Tekelec Application Server Site Specific Cables Tekelec P/N Description non-ROHS ROHS 830-0963-xx 830-1201-xx Optional DB9F/DB25M Serial w/Flow Control 830-0964-xx 830-1202-xx DB9/DB25 M/M Site Specific Null Modem Serial Cable...
Page 205: Notes
9. Uses HCAP-T (P/N 850-0615-xx) main assembly boards. 10. Does not support E1 Master Timing. 11. Beginning with EAGLE 5 ISS Software Release 30.0 all MCAP cards must be replaced by GPSM-II cards (P/N 870-2360-01). GPSM-II cards are installed at the factory or by Tekelec Technical Support and are not installed by customers.
Page 206 Hardware Hardware Baselines 22. Has COMM processor adapter. 23. Has PQFP processor. 24. Requires HIPR 870-2574-xx. 25. Has K6 III processor. 26. Set of qualified features may be limited. Confirm feature set compatibility and performance ratings prior to use or upgrade. 27.
Page 207: Glossary
AATM ATM Appliqué Alternating Current Application Context Authentication Center Application Communications Module A card in the EAGLE 5 ISS that provides a communications interface to a remote host across an Ethernet LAN. Activate AINF Application Interface Appliqué An integrated appliqué that supports the DS0A, DSCS and V.35 interfaces...
Page 208 Hardware Glossary corporations, professional bodies, and enterprises. Application Processor Application Server A logical entity serving a specific Routing Key. An example of an Application Server is a virtual switch element handling all call processing for a unique range of PSTN trunks, identified by an SS7 DPC/OPC/CIC_range.
Page 209 Hardware Glossary ATMANSI The application used for high-speed ANSI ATM signaling links. BITS Building Integrated Timing System 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.
Page 210 E5-MASP card (the E5-MCAP module and the E5-TDM module) and the dual-slot E5-MDAL card. Control Shelf The shelf in the EAGLE 5 ISS that contains the Maintenance and Administration Subsystem. The Maintenance and Administration Subsystem contains 5 cards: 2 CAM...
Page 211 Hardware Glossary COTS Commercial Off-the-Shelf Communications Processor Central Processing Unit Cyclic Redundancy Check A number derived from, and stored or transmitted with, a block of data in order to detect corruption. By recalculating the CRC and comparing it to the value originally transmitted, the receiver can detect some types of transmission errors.
Page 212 Hardware Glossary DIMM Dual Inline Memory Module Direct Memory Access Derived Object Differentiated Service Directory Server Digit String Digital Signal Level-0 (64 Kbits/sec or 56 Kbits/sec) A basic digital signaling rate of 64 Kbits/sec, corresponding to the capacity of one voice-frequency-equivalent channel.
Page 213 An EPM-based card that provides E1 and T1 connectivity. The E5 indicates the card is for existing EAGLE 5 control and extension shelves. E1T1 is an abbreviation for the ITU E1 and ANSI T1 interfaces. Thus the nomenclature defines the...
Page 214 Hardware Glossary A local bus and not connected to the IMT bus. This allows every two card locations to communicate with each other without going over the IMT bus. EDCM Enhanced Database Communication Module Extension Frame EILA Enhanced Integrated LIM Appliqué ELAP EAGLE Local Number Portability Application Processor...
Page 215 Hardware Glossary A single-slot card that is similar to the high-capacity blade except that it uses a lower-power CPU and thus does not require external fan trays or extra power. Embedded Processor Module A card that contains an Intel Celeron 1GHz processor, 256MB RAM, and other enhancements, intended as replacement for K6 DCM-class cards.
Page 216 Hardware Glossary Command for cooling fan feature. The EAGLE 5 ISS will report on the alarm conditions of the fan assemblies. Once you have turned on the feature, you cannot turn it off. The feature applies to any and all fans installed within the system.
Page 217 Global Title Translation A feature of the signaling connection control part (SCCP) of the SS7 protocol that the EAGLE 5 ISS uses to determine which service database to send the query message when an MSU enters the EAGLE 5 ISS and more information is needed to route the MSU.
Page 218 Hardware Glossary HCAP High-Speed Communications & Applications Processor High Density Interconnect HDLC High Level Data Link Control High Speed IMT Packet Router See HIPR. High-Speed Multiplexer See HMUX. HIPR High-Speed IMT Packet Router A card that provides increased system throughput and traffic capacity.
Page 219 LIMATM, DCM, DSM, and HMUX. IMTA Internal Message Transport Address INAP Intelligent Network Application Protocol INAP-based Number Portability Tekelec’s INP can be deployed as a stand-alone or an integrated 910-5798-001 Revision C, December 2009...
Page 220 Hardware Glossary signal transfer point/number portability solution. With Tekelec’s stand-alone NP server, no network reconfiguration is required to implement number portability. The NP server delivers a much greater signaling capability than the conventional SCP-based approach. Intelligent Network (IN) Portability Integrated Sentinel...
Page 221 Hardware Glossary IPLIMx Point-to-point MTP3 and MTP3-User signaling over IP capability. Typically used for B-C-D links but can be used for A links but does not have routing key functionality. Far End required to support MTP3. The IPLIMx GPL (IPLIMI, IPLIM) run on the SSEDCM/E5-ENET hardware.
Page 222 An electrical device that glows a particular color when a specified voltage is applied to it. Link Fault Sectionalization A feature in the EAGLE 5 ISS that allows the maintenance personnel to perform a series of far end loopback tests, from the EAGLE 5...
Page 223 Hardware Glossary assembly and possibly, an interface appliqué board. These appliqués provide level one and some level two functionality on SS7 signaling links. LIM-AINF A link interface module (LIM) with the AINF interface. LIM-ATM A link interface module (LIM) with the ATM interface.
Page 224 IP transport. Maintenance and Administration Subsystem A set of cards located in the Control Shelf, used to provide a central management point for the EAGLE 5 ISS. The MAS provides user interface, maintenance communication, peripheral services, alarm processing, system disk...
Page 225 Hardware Glossary and it is shared between the two MASPs. Megabyte — A unit of computer information storage capacity equal to 1,048, 576 bytes. Matrix Controller Assembly MCAP Maintenance Communications & Applications Processor MCPM Measurement Collection and Polling Module The Measurement Collection and Polling Module (MCPM) provides comma delimited core STP measurement data to a remote server...
Page 226 Hardware Glossary this SLTM record are designated “special” maintenance messages. regular - All SLTMs generated by the links in the link set associated with this SLTM record are designated “regular” maintenance messages. Multi-port LIM Multi-Purpose Server The Multi-Purpose Server provides database/reload functionality and a variety of high capacity/high speed offboard database functions for...
Page 227 (destination point code), and the signaling link selector which the EAGLE 5 ISS uses to pick which link set and signaling link to use to route the message. Network Cluster Network Code...
Page 228 Hardware Glossary ISS and OSS (operation support system) devices using standard interfaces and converting the communications to the EAGLE 5 ISS proprietary serial interface. OAPF Operations System Support / Applications Processor Frame Office Channel Unit The interface used with the LIMOCU card.
Page 229 Hardware Glossary A type of computer memory that can be accessed randomly; that is, any byte of memory can be accessed without touching the preceding bytes. Request for Information Relative Humidity Return Material Authorization Read Only Memory Requirement Specification Receive SAAL Signaling ATM Adaptation Layer SCCP...
Page 230 Hardware Glossary SCSI Small Computer System Interface There are two independent Small Computer System Interface (SCSI) buses, one to the fixed disks on TDM cards and the other to the shared administration SCSI bus that runs on the backplane between TDMs and the MDAL card.
Page 231 Hardware Glossary SLAN Signaling Transfer Point Local Area Network A feature in the EAGLE 5 ISS that copies MSUs selected through the gateway screening process and sends these MSUs over the Ethernet to an external host computer for further processing.
Page 232 Hardware Glossary functions are to provide access to SS7 networks and to provide routing of signaling messages within and among signaling networks. STPLAN Signaling Transfer Point Local Area Network The generic program load and application used by the STPLAN card to support the STP LAN application.
Page 233 Hardware Glossary Timing Output TOCA Timing Output Composite Automatic Transactions Per Second Time Slot Counter Translation Services Module Provides translation capability and Global Title Translation (GTT) implementation for the Local Number Portability (LNP) function and is used for downloading gateway screening tables to link interface modules (LIMs).
Page 234 Hardware Glossary specifications in order to describe how a voice call can be persisted, as a mobile phone moves between circuit switched and packet switched radio domains. 910-5798-001 Revision C, December 2009...

Tekelec EAGLE 5 Hardware Manual

Chapter 1: Introduction

Chapter 2: System Overview

Chapter 3: Hardware Descriptions - EAGLE 5 ISS

Chapter 4: Hardware Descriptions - OEM-Based Products

Chapter 5: Site Engineering - EAGLE 5 ISS

Appendix A: Hardware Baselines

Glossary

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Summary of Contents for Tekelec EAGLE 5