Vanguard 7300 Series Installation Manual
Notice ©2004 Vanguard Networks 25 Forbes Boulevard Foxboro, Massachusetts 02035 (508) 964-6200 All rights reserved Printed in U.S.A. Restricted Rights Notification for U.S. Government Users The software (including firmware) addressed in this manual is provided to the U.S.
Notice (continued) Proprietary Material Information and software in this document are proprietary to Vanguard Networks (or its Suppliers) and without the express prior permission of an officer of Vanguard Networks, may not be copied, reproduced, disclosed to others, published, or used, in whole or in part, for any purpose other than that for which it is being made available. Use of software described in this document is subject to the terms and conditions of the Software License Agreement.
Telecommunications Regulations Equipment that complies with Part 68 of the FCC rules includes a label or permanent marking on the printed circuit board that connects to the network that contains, among other information, the FCC registration number and ringer equivalence number (REN) for this equipment. If requested, this information must be provided to the telephone company.
Contents Chapter 1. About Vanguard 7300 Vanguard 7300 Functions and Features ........................................................ Advanced Encryption Card (AEC) .......................................................... Compression ............................................................................................. Vanguard 7300 Applications ........................................................................ Vanguard 7300 Platform Version 1 ................................................
Contents (continued) Chapter 3. Vanguard 7300 Installation Before You Begin ......................................................................................... Checking Your Shipment Contents .......................................................... How to Choose a Site ................................................................................... Thermal Considerations ........................................................................... Electrostatic Discharge Precautions...............
Contents (continued) Chapter 5. Modifying Your Vanguard 7300 General Card Replacement Guidelines ........................................................ Vanguard 7300 Card Installation Order ................................................... Removing and Replacing the CPU Card and CPU Mezzanine Card (PMC) ................................................................... Removing and Replacing the MPC750 CPU Card ..................................
Contents (continued) Appendix A. Specifications Vanguard 7310 Version 1 Product Specifications ........................................ Vanguard 7330 Version 1 Product Specifications ........................................ Vanguard 7310 and 7330 Version 2 Product Specifications ......................... A-2 A-5 A-8 Appendix B. Vanguard 7300 Cable Connectors and Pinouts CPU Card Connector and Cable Details ......................................................
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Chapter 1 About Vanguard 7300 Overview Introduction This chapter describes the hardware and software functions and applications for Vanguard 7300 Series Version 1 and Version 2 products.
Vanguard 7300 Functions and Features Vanguard 7300 Functions and Features Introduction Vanguard 7300 Series products are high-speed, high-density multiservice routers capable of supporting hundreds to thousands of remote branches and sites in medium-to-large networks. In an end-to-end network solution, Vanguard 7300 routers, along with Vanguard branch networking products, support enterprise Vanguard Applications Ware functions.
Vanguard 7300 Functions and Features Scalable Hardware The Vanguard 7300 Series Version 2 has a new redesigned chassis available in the Platforms following models: Version 2 • The 5-slot Vanguard 7310 with built-in dual redundant power supplies • The 8-slot Vanguard 7330 with built-in dual redundant power supplies With the Version 2 redesign the Vanguard 7310 5-slot and the Vanguard 7330 8-slot use the same enclosure, power supplies and fan unit.
Vanguard 7300 Functions and Features Feature Cards and Mezzanine Cards Vanguard 7300 Series products are highly scalable with Vanguard Networkssupplied option cards and half-size Mezzanine Cards.
Vanguard 7300 Functions and Features Software Support The Vanguard 7300 operates under the Vanguard Applications Ware software and supports the following licensing packages: Base Licenses: • IP+ Applications Ware (includes IP, IPX, and Voice) • SNA+ Applications Ware (includes IP, IPX, SNA, and Voice) • Multiservice Applications Ware Note For more information on the license upgrades available for the Vanguard 7300 Series, refer to the Software Release Notice.
Vanguard 7300 Functions and Features Advanced Encryption Card (AEC) Data Encryption Data encryption is a very CPU intensive process and is best implemented in hardware. Vanguard Managed Solution’s provides a secure hardware-based encryption and compression. Release 6.4 and greater supports the Advanced Encryption Card (AEC). Note Data compression is not supported on the Vanguard 7300 Advanced Encryption Card. The Advanced Encryption Card information is located in Chapter Two of this manual.
Vanguard 7300 Functions and Features Compression When compressed traffic is sent over a Frame Relay link on the Vanguard 7300 Series, some compressed transmitted frames might corrupt. Vanguard Networks recommends that you change the maximum frame size in the Node Record Configuration from the default of 1620 to 2200. This is the recommended default whenever compression is activated on a frame relay bypass station on a Vanguard 7300.
Vanguard 7300 Applications Vanguard 7300 Applications Introduction This section describes a few typical applications for Vanguard 7300 Series products. Frame Relay to ATM Environment Figure 1-3 shows a Vanguard Series router used to support T3/E3 Access for IP and voice traffic over a frame relay to ATM network.
Vanguard 7300 Applications IP Routing Traffic Figure 1-4 shows a Vanguard 7300 Series router used to provide support for high-speed LAN IP routing in a Frame Relay, IP network environment. The Vanguard 7310 is equipped with 10/100BaseT Ethernet PMCs and T1/E1/PRI cards. Vanguard 6400 10/100BaseT Ethernet T1 Frame Relay or IP Network 7310 Vanguard 7330 T1 Vanguard 6400 T1 Host Server Multiple T1/E1 Lines Vanguard 6400 Figure 1-4.
Vanguard 7300 Applications Multiservice IP, SNA, Serial and Voice Traffic Figure 1-5 shows a Vanguard Series router used to support mixed IP, SNA, serial, and voice traffic.
Vanguard 7300 Applications Regional Concentrator with Multiple LowSpeed WAN Ports Figure 1-6 shows a Vanguard 7300 Series router used in a regional concentration application. As a regional concentrator, the 7330 is located in large branch offices to terminate branch traffic and provide regional switching and routing functions. In addition, the 7330 can concentrate regional traffic onto a single high-speed link for transmission to the head office.
Vanguard 7300 Applications Large Networking Solution Using Multiple Vanguard 7300’s Figure 1-7 illustrates multiple Vanguard 7300 devices in very large networks. In this example, traffic is distributed across a numbers of Vanguard 7300’s for load-balancing and redundancy. Network connections are made via multiple T1/E1 interfaces. The example shows redundant Vanguard 7330s, each connected to multiple applications.
Vanguard 7300 Platform Version 1 Vanguard 7300 Platform Version 1 Introduction This section describes the Vanguard 7300 Platform. The Vanguard 7300 The Vanguard 7300 Version 1 Series chassis with its standardized CompactPCI bus Platform architecture permits high-speed, high-availability, compute-intensive telecommunication applications. With its extremely high bandwidth and hot-swap capability, the CompactPCI bus is ideal for high-speed data communication telecommunication industry applications.
Vanguard 7300 Platform Version 1 The Vanguard 7300 Chassis Version 1 Introduction Vanguard 7300 Series chassis fit standard equipment racks, and the cards have PICMG standardized telecom-grade connectors. Hot-swappable boards and power supplies can be removed and replaced without taking the router out its rack and without disconnecting unrelated cables.
Vanguard 7300 Platform Version 1 Chassis Rear Version 1 Chassis Front Figure 1-10.
Vanguard 7300 Platform Version 2 Introduction This section describes the Vanguard 7300 Platform. The Vanguard 7300 The Vanguard 7300 Version 2 Series chassis with its standardized CompactPCI bus Platform architecture permits high-speed, high-availability, compute-intensive telecommunication applications. With its extremely high bandwidth and hot-swap capability, the CompactPCI bus is ideal for high-speed data communication telecommunication industry applications.
Vanguard 7300 Platform Version 2 The Vanguard 7300 Chassis - Version 2 Introduction Vanguard 7300 Series chassis fit standard equipment racks, and the cards have PICMG standardized telecom-grade connectors. Hot-swappable boards and power supplies can be removed and replaced without taking the router out its rack and without disconnecting unrelated cables.
Vanguard 7300 Platform Version 2 Vanguard 7300 Cards Description The Vanguard 7300’s midplane slots hold special-purpose printed circuit cards and rear transition modules accessible from both the front and the rear of the rack-mounted chassis. Card-swapping time is minimized, port cabling is organized, and low-level software customizing is eliminated.
Vanguard 7300 Platform Version 2 CompactPCI Connectors Description The CompactPCI midplane is located toward the middle of the chassis, and each card slot is equipped with male J1 connectors (pins). The plug-in cards use socket (female) connectors. The same type of connectors are used on the rear side of the midplane to accept rear I/O transition modules. Midplane connectors have external metal shields for proper shielding and grounding in noisy environments.
Vanguard 7300 Platform Version 2 CompactPCI cards and rear transition modules plug into the midplane’s front and rear pin connectors. Each card or module uses IEC-approved 110-pin connectors for power, ground, and all 32-bit and 64-bit PCI signals, rather than card-edge connectors. See Figure 1-14 for views of chassis slot female connector sockets. Individual 110Pin Connector Front Card Slot Connectors (5) Rear Transition Module Connector (32-bit, User I/O) Figure 1-14.
Chapter 2 Vanguard 7300 Enclosures and Components Overview Introduction This chapter describes Vanguard 7300 Series chassis enclosures and provides detailed descriptions of available hardware options and feature cards.
Enclosures Enclosures Introduction Vanguard 7300 Version 1 and Version 2 Series Routers have distinct enclosures: Vanguard 7300 Revision 1 Series routers: • The Vanguard 7310 has a horizontal five-slot chassis • The Vanguard 7330 has a vertical eight-slot vertical chassis Vanguard 7300 Version 2 Series routers: • The Vanguard 7310 has a horizontal five-slot chassis • The Vanguard 7330 has a horizontal eight-slot chassis Figure 2-1 show the Vanguard 7300 Version 1 Series enclosures.
Enclosures width = 17.5 in depth = 16.5 in height = 5.25 in Vanguard 7310 Version 1 width = 17.3 in depth = 16.0 in height = 14.0 in Vanguard 7330 Version 1 Figure 2-1. Vanguard 7300 Version 1 Series Enclosure Views Vanguard 7310 and 7330 Version 2 depth = 13.4 in. height = 7 in. width = 17.3 in. Figure 2-2.
Enclosures Vanguard 7310 Version 1 Enclosure Vanguard 7310 The Vanguard Model 7310 Version 1 enclosure offers these features: Enclosure Features • Five horizontal card slots Version 1 • 3U (5.
Enclosures Rear of the Vanguard 7310 Version 1 Enclosure The rear of the Vanguard 7310 Version 1 (Figure 2-4) provides access to: • Power connections and power switch of the power input module • Serial number of the Vanguard 7310 enclosure • Rear panel connectors for installed T1/E1/PRI, T3/E3 ATM, and Serial Rear Transition Modules Note Vanguard Series router cards have front and/or rear connectors. Refer to the “Vanguard 7300 Cards” section on page 2-12 for specific card connector details.
Enclosures Vanguard 7330 Version 1 Enclosure Vanguard 7330 The Vanguard Model 7330 Version 1 router enclosure has the following features: Version 1 • Eight vertical card slots Enclosure Features • 8U vertical rack height • Rack-mountable in standard 19-inch rack • CPU card (purchased separately) • Two hot-swappable AC or DC power supply modules • Hot-swap fan tray • Front access for installation, service, fan tray access and cabling • Rear access to the power supplies, card interface connectors, and cablin
Enclosures Rear View The Vanguard 7330 Version 1 rear panel (Figure 2-6) provides access to AC power cord receptacles and T1/E1/PRI, T3/E3 ATM and Serial Rear Transition Module connectors. T3/E3 Rear Transition Module T1/E1/PRI Rear Transition Module Serial Rear Transition Module ESD Bond Point Serial No. Location AC Power Cord Receptacles Figure 2-6.
Enclosures Vanguard 7330 You can install and remove the fan tray from the front of the Vanguard 7330 Version 1 Fan Tray enclosure. The fan tray is hot-swappable; it can be removed without turning off the system power and without disrupting system service. Caution To prevent the Vanguard Model 7330 from overheating, install the replacement fan tray immediately. Vanguard 7330 Version 1 Removable Filler Panels Front and rear filler panels can be removed to install card and transition modules.
Enclosures Vanguard 7310 and 7330 Version 2 Enclosure Vanguard 7310 and The Vanguard Model 7310 and 7330 Version 2 router enclosure has the following 7330 Version 2 features: Enclosure Features • Eight horizontal card slots - 7330 • Five horizontal card slots - 7310 • 4U vertical rack height • Rack-mountable in standard 19-inch rack • CPU card (purchased separately) • Two hot-swappable AC or DC power supply modules • Hot-swap fan assemblies • Front access for installation, service, intake fan assemblies ac
Enclosures Rear View The Vanguard 7310 and 7330 Version 2 rear panel (Figure 2-8) provides access to AC power cord receptacles and T1/E1/PRI, T3/E3 ATM and Serial Rear Transition Module connectors. Figure 2-8.
Enclosures Vanguard 7310 and You can install and remove the intake fan assemblies from the front of the Vanguard 7330 Version 2 Fan 7310 and 7330 enclosure. The fan assemblies are hot-swappable; they can be assemblies removed without turning off the system power and without disrupting system service. You can install and remove the exhaust fan assembly from the rear. Caution To prevent the Vanguard Model 7310 and 7330 from overheating, install the replacement fan assemblies immediately.
Vanguard 7300 Cards Vanguard 7300 Cards Introduction These subsections describe the Vanguard Networks-supplied cards that are fully compatible and can be installed in the Vanguard 7300 Version 1 and Version 2 Series routers: • “Central Processor Unit (CPU) Cards” on page 2-13 - MPC750 CPU - IBM750FX CPU • “Carrier Expansion Card” on page 2-21 • “Dual-port 10/100BaseT Ethernet Mezzanine Card (PMC)” on page 2-23 • “T1/E1/PRI Card and Rear Transition Module” section on page 2-25 • “T3/E3 ATM Mezzanine Card (
Vanguard 7300 Cards Central Processor Unit (CPU) Cards Introduction There are two types of Central Processor Unit (CPU) cards that are supported in the Vanguard 7300 Series Platform: • MPC750 CPU card • IBM750FX CPU card CPU Card Product Code Part Number 53120 75836G02 MPC750 Software Release Bootprom 6.4 or earlier 6.4 or earlier IBM750FX 1112-10011 76361G01 Rev B 6.4 or greater 6.4 or greater IBM750FX 1112-10037 76361G01 Rev D 7.3 or greater 6.
Vanguard 7300 Cards CPU Board Layout Figure 2-9 shows the layout of the Vanguard 7300 Series CPU card. Note that there is room on the CPU card beside the Memory PMC for installing the two-port Ethernet PMC (described in Chapter 5). Pre-installed Memory PMC Flash Memory CPU Card Serial No. Location Figure 2-9. Vanguard 7300 Series CPU Card, MPC750 CPU Card Installation Information The MPC750 CPU card must reside in the system slot of Vanguard 7300 Series products.
Vanguard 7300 Cards Front Panel LEDs 10/100 BaseT PMC Connectors Serial No. Location PCI PMC 10/100 BaseT Ethernet Port DB9 CTP Abort Switch Port (not used) Reset Switch USB 1 USB 0 (not used) (not used) Figure 2-10. CPU Card Front Panel, MPC750 Front Panel LEDs Reset and Abort Switches The CPU card offers four LEDs to provide operation and system status information.
Vanguard 7300 Cards CPU Card Serial Number For Vanguard 7300 Series CPU card serial number location, see Figure 2-9. Refer to this serial number when contacting Vanguard Networks Service Representatives. Central Processor Unit (CPU) Card - IBM750FX Functions The IBM750FX Series 7300 Central Processor Unit (CPU) card provides: • • • • Increased processor functions Second Ethernet port Two PMC slots On-board memory Note The IBM750FX CPU card requires Release 6.
Vanguard 7300 Cards Port Operating Mode The “Port Operating Mode” parameter includes a range selection of 1000FD: Port Operating Mode Range: AUTO, 1000FD, 100FD, 100HD, 10FD, 10HD Default: AUTO Description: Specifies whether this LAN port runs in 1000Mbit Full-Duplex, 100Mbit Full-Duplex, 100Mbit Half-Duplex, 10Mbit Full-Duplex, 10Mbit Half-Duplex, or Auto-Negotiation Mode. Note Release 6.4 and greater software supports 1000FD on ports 101 and 103. ETH1 is port 101, ETH2 is port 103.
Vanguard 7300 Cards PCI Mezzanine Card (PMC) Support The IBM750FX CPU card provides two slots for installation of two 2-port 10/100BaseT Ethernet PMC’s in the available PMC slots. Front Panel The CPU card front panel (Figure 2-12) provides access to the Ethernet port, CTP port, and PMC connectors. The front panel also provides four indicator LEDs.
Vanguard 7300 Cards Front Panel LEDs The IBM750FX CPU card offers four LEDs and a reset switch to provide operation and system status information.
Vanguard 7300 Cards (A/R) Abort/Reset Switch The Abort Reset Switch (A/R) has the following functionality: • Momentary depression (2 seconds) results in an NMI Interrupt to the CPU • Longer depression results in the reset of the card Cable and The Ethernet address of the CPU card’s on-board Ethernet ports appears on a barConnector Pinouts code label just behind the Ethernet PMC slot on the CPU card front panel. See Appendix B, Vanguard 7300 Cable Connectors and Pinouts for pinouts for the CPU card ports.
Vanguard 7300 Cards Carrier Expansion Card Introduction Vanguard 7300 Series products support a variety of interfaces using optional PCI Mezzanine Cards (PMCs). Carrier Expansion Card PMCs install on top of the card. The Carrier Expansion Card offers two slots to support two dual-port Ethernet PMCs as shown in Figure 2-13. For configuration port numbers, see the “Vanguard 7300 Port Configuration” section in Chapter 4. Ethernet PMC Serial No. Locations PMC Slot1 PMC Slot2 Serial No.
Vanguard 7300 Cards Front Panel LEDs This table describes the two LEDs located on the front panel of the Carrier Expansion Card: LED Pinouts 2-22 Color Indication PWR Green ON - Receiving power EXT Blue Not Used See Appendix B, Vanguard 7300 Cable Connectors and Pinouts for PMC pinouts.
Vanguard 7300 Cards PCI Mezzanine Card (PMC) Introduction 10/100BaseT Ethernet Mezzanine Cards (PMCs)can be installed in the PMC slot on the CPU card and in the two PMC slots on the Carrier Expansion Card. Because a PMC does not require a full slot, it is mounted on a full-size card that serves as its host.
Vanguard 7300 Cards LED Indicators This table describes the three LEDs associated with each Ethernet PMC port: LED Color Indication ACT - Activity White • ON - There is transmit or receive activity • OFF - No transmit or receive activity LINK - Link Status White • ON - Link status is good at either 10 or 100 Mbps • OFF - There is no link 100bT100BaseT White • ON - 100Mbps (100BaseT) data rate • OFF - 10Mbps (10BaseT) data rate Cable and Each 10/100BaseT Ethernet PMC has two RJ45 connectors, Por
Vanguard 7300 Cards T1/E1/PRI Card and Rear Transition Module Introduction T1/E1/PRI card functions are provided by a two-part card that occupies a single Vanguard 7300 chassis slot: the T1/E1/PRI card and the T1/E1/PRI Rear Transition Module, which is shielded with an attached metal jacket. The following versions of the T1/E1/PRI card are available: • 8-Port • 12-port Ports 1 and 2 can be cabled for either voice or data (but not both); ports 3 through 8 or 12 are data-only.
Vanguard 7300 Cards T1/E1/PRI Layout Figure 2-16 shows the position of a T1/E1/PRI card and rear transition module. T1/E1/PRI Card T1/E1/PRI Rear Transition Module Rear Panel Front Panel Serial No. Location Serial No. Location Midplane Figure 2-16. Installed T1/E1/PRI Card and Rear Transition Module T1/E1/PRI Card Front Panel The T1/E1/PRI card front panel is shown in Figure 2-17. The serial number label is on the underside of the card, near the left most PMC slot. Serial No.
Vanguard 7300 Cards T1/E1/PRI Rear The T1/E1/PRI Rear Transition Module connects to the T1/E1/PRI card at the Transition Module - Vanguard 7300 midplane. The T1/E1/PRI Rear Transition Module provides 12 Rear Panel RJ48C connectors accessible from the rear of the chassis and shown in Figure 2-18. Serial No. Location Figure 2-18. T1/E1/PRI Transition Module, Rear View Pinouts See Appendix B, Vanguard 7300 Cable Connectors and Pinouts for the port pinouts.
Vanguard 7300 Cards T3/E3 ATM Card Introduction The T3/E3 ATM Card is a Compact PCI card that provides an intelligent connection between the ATM layer and the T3/E3 physical data port. Functionality The T3/E3 ATM Card functionality is provided by a two-part card that occupies a single Vanguard 7300 chassis slot: a standard Carrier Expansion Card with the PMC mounted, and the T3/E3 Rear Transition Module.
Vanguard 7300 Cards T3/E3 Rear Transition Module The T3/E3 Rear Transition Module connects to the Carrier Expansion Card and provides a single port ATM Physical Interface (PHY) that includes: • T3/E3 Framer (receiver and transmitter) • ATM Cell Delineator block T3/E3 ATM Card Profile Figure 2-19 shows the position of the Carrier Expansion Card (with T3/E3 ATM Mezzanine Card installed) and T3/E3 Rear Transition Module.
Vanguard 7300 Cards Carrier Expansion Card - Front Panel The front panel of the Carrier Expansion Card is shown in Figure 2-20. The serial number label is on the underside of the card, near the leftmost PMC slot. Slot 2 Slot 1 Figure 2-20.
Vanguard 7300 Cards Rear Panel LEDs LED The T3/E3 Rear Transition Module offers four LEDs to provide operation and system status information: Color Indication CSU - Status Amber • OFF - The module has failed internal startup check • ON - Normal module operation • Flashing - loopback is active (internal or line) Rx - Status Amber • OFF - The module is currently booting and not active • ON - Normal receive • Flashing - Receive failure state.
Vanguard 7300 Cards T3/E3 ATM Mezzanine Card (PMC) Description To support T3/E3 ATM functions, a T3/E3 ATM PCI Mezzanine card (PMC) must be installed in slot 1 on the Carrier Expansion Card. The T3/E3 ATM PMC is a customized card designed to be mounted only on the Vanguard 7300 Carrier Expansion Card. This PMC cannot be installed anywhere else. Figure 2-19 on page 2-29 shows the PMC mounted on the Carrier Expansion Card. Note The T3 ATM PMC Card is only supported in slot 1 of the Carrier Expansion Card.
Vanguard 7300 Cards ATM Compression Follow the steps in the table below. This configuration allows the data from an LCON-1 to go out to an ATM station compressed. Step Action 1 Under the Configure Network Services Menu, select PVC Setup Table. Entries are: Source: aam-10s1 Destination: lcon-1 2 Under the Configure Network Services Menu select Network Services Feature Table.
Vanguard 7300 Cards Serial Card and Rear Transition Module Introduction The Serial Card and its Serial Rear Transition Module support multi-protocol highspeed serial data communications. The Serial Card and transition module support up to eight channels of serial data. They are typically used for LAN/WAN networking and telecommunications applications. Like the T1/E1/PRI card, the two-part Serial Card shown in Figure 2-23 occupies a single Vanguard 7300 chassis slot.
Vanguard 7300 Cards Serial Rear Transition Module Transition Module Each port has a dedicated connector and is independently configured and cabled. For Port Connector and each port, physical interface protocol selection is controlled by software and can be Configuration set to EIA 232, V.35, V.36, X.21, EIA 530, or EIA530A. The port’s interface cable determines DTE/DCE. All serial cable connections to this chassis slot are made at Transition Module ports.
Vanguard 7300 Cards Clock Timing Timing The 7300 serial cards can be clocked Internal, External, ExtInt, and ExtLp with no restrictions between ports or speeds up to 8,196,000bps. These timing modes are the same as other standard Vanguard products. The recommended Timing configuration for all applications is ExtInt on the DCE side and ExtLp on the DTE side (except for X.21). This is required for all higher speed connections to work reliably.
Vanguard 7300 Cards • There is one Card Clock on each card. Card Clock allows you to lock multiple Groups together and must be used for voice ports. • There is one System Clock bus in the node, which allows you to lock multiple cards together. You set each group on a card (four ports) as to whether it participates in Card Clock or not and you set the card as to whether it participates in System Clock. Figure 2-25 shows this arrangement, with X’s showing where the connections points are located.
Vanguard 7300 Cards Port Timing Sec-Ext Group Clock set to Group Clock External device provides a clock to this port and if it is the highest priority port that is synchronized, drives Group Clock Group Clock set to Card Clock External device provides a clock and if it is the first highest priority port synchronized, drives Card Clock. Card Clock set to System Clock External device provides a clock and if it is the first highest priority port synchronized, drives System Clock.
Vanguard 7300 Cards Token Ring Card Introduction This card provides two 4/16Mbps token ring ports for the 7300 platform. This card conforms to the IEEE802.5 standard for token ring. The 7300 supports one token ring card per box. Each port is independently operated at either 4 or 16Mbps. Either a UTP or STP cable can be used by connecting the cable to the appropriate port. The cable type is automatically selected.
Vanguard 7300 Cards Token Ring Card Figure 2-28 shows the Token Ring card. All connections are located on the front of the card. The Token Ring card has two ports and each port supports only one UTP or STP connection. The Token Ring card can be installed in any slot other than slot 1. Figure 2-28.
Vanguard 7300 Cards Advanced Encryption Card (AEC) Introduction Release 6.4 and greater supports the Advanced Encryption Standard (AES) encryption for the Vanguard 7300 Series using the Advanced Encryption Card (AEC). The 7300 AEC supports DES, 3DES, and AES. Advanced Encryption Standard (AES) The Advanced Encryption Standard is a Federal Information Processing Standard (FIPS), which specifies a cryptographic algorithm for use by organizations to protect sensitive, classified information.
Vanguard 7300 Cards Note Vanguard 7300 Series platforms do not support SAM encryption. Certain SAM specific menu items in Examine, List, Copy, Delete, Stats and Configuration menus are not shown.
Chapter 3 Vanguard 7300 Installation Overview Introduction This chapter explains how to install and cable your Vanguard 7300 Series router.
Before You Begin Before You Begin Introduction A Vanguard 7300 Series router comes with its CPU and other cards factory-installed. The on-site installation process involves rack-mounting the unit and attaching cables and AC power cords. Installation Checklist Use the checklist in this table when installing your Vanguard 7300: Completed Task Description Familiarize yourself with the component descriptions in Chapter 2, Vanguard 7300 Enclosures and Components.
Before You Begin Checking Your Shipment Contents Introduction This section describes the shipment contents for the Vanguard 7300. Vanguard 7300 Contents Before you install the Vanguard 7300 Series router, make sure your shipment contents are complete as follows: Typical shipment contents are shown in Figure 3-1 and Figure 3-2.
Before You Begin AC Power Cords (2) Figure 3-2. Typical Vanguard 7330 Version 1 Contents AC Power Cords (2) Figure 3-3.
Before You Begin In Case of Damaged or Missing Parts If the equipment is damaged, contact the shipper. If you have additional concerns about damaged or missing parts, contact your nearest Vanguard Networks representative. In the United States, contact: Vanguard Networks, Customer Administration, 25 Forbes Boulevard, Foxboro, MA 02035. Telephone: (508) 964-6200. Outside the United States, contact the nearest Vanguard Networks distributor.
How to Choose a Site How to Choose a Site Introduction Before you install a Vanguard 7300 Series router, select a site for the device. The site should be free of accumulated dust and environmental extremes. Refer to Appendix A, Specifications, for detailed dimensions. Power Requirements Choose a site that is within an appropriate distance (approximately six feet) of a power source.
How to Choose a Site Thermal Considerations Introduction This section describes some of the heat and temperature factors that can affect your Vanguard 7300 Series router. Fan After the unit is installed, power it up to be sure the fans are working properly. Inlet Temperature After the unit is running, check the ambient air temperature. Make sure it does not exceed the operating temperature limits specified in Appendix A.
Removing And Replacing Vanguard 7300 Front Covers Removing And Replacing Vanguard 7300 Front Covers Introduction The front cover panels on Vanguard 7300 Version 1 Series routers can be removed for ease in access and cabling. Figure 3-4 and Figure 3-5 show the hinged and the fixed front panels on 7300 Version 1 enclosures, along with the channel designated to hold front-connected cables. Figure 3-6 shows the front panel of the 7310 and 7330 Version 2 enclosure.
Removing And Replacing Vanguard 7300 Front Covers Figure 3-6.
Removing And Replacing Vanguard 7300 Front Covers Procedures Introduction This section provides instructions for removing and replacing the Vanguard 7310 Version 1 front covers.
Removing And Replacing Vanguard 7300 Front Covers The Vanguard 7310 The left-hand fixed Vanguard 7310 Version 1 front cover panel contains the cable Version 1 Front channel at the top. All front-connected interface cables run through the cable channel Cable Channel behind the fixed panel to exit on the left side of the chassis. For example, see the location of the shielded Ethernet cable in Figure 3-7.
Removing And Replacing Vanguard 7300 Front Covers Removing and Replacing Vanguard 7330 Version 1 Front Cover Panels Use the procedure in this table to remove and replace the 7330 Version 1 hinged front panel: Step 3-12 Action 1 Open the 7330 hinged front cover panel (left side) and locate the two self-contained hinge assemblies on the left side of the chassis. 2 Support the front cover while pushing down on the top spring-loaded hinge pin. Rotate the pin into its lock position.
Removing And Replacing Vanguard 7300 Front Covers The Vanguard 7330 The fixed right 7330 Version 1 front cover panel contains the cable channel at the Version 1 Front bottom. All front-connected interface cables run through the channel behind the Cable Channel fixed panel to exit on the right side of the chassis. For example, see the location of the shielded Ethernet cable in Figure 3-8.
Removing And Replacing Vanguard 7300 Front Covers Vanguard 7310 and Use the procedure in this table to remove and replace the 7310 and 7330 Version 2 7330 Version 2 front panel: Front Cover Panels Step Action 1 The front panel is held in place with a magnetic catch and can be easily removed for maintenance or recabling. Hold the two handles on the sides of the cover and pull straight out. 2 Place the cover panel on a flat level surface, painted side up.
Installing the Vanguard 7300 in a Rack Installing the Vanguard 7300 in a Rack Introduction This section explains how to install a Vanguard 7300 router chassis in an industrystandard 19-inch EIA equipment rack. Note Vanguard 7300 Series routers are not to be used standalone on a tabletop or stacked on top of one another. Warning Two people are required to install a Vanguard 7300 Series router in an equipment rack.
Installing the Vanguard 7300 in a Rack Procedure for Rack-mounting Figure 3-10 shows the mounting hardware locations on the flanges of the Vanguard 7310 Version 1. For the locations on the Vanguard 7330 Version 1, refer to Figure 3-11, For the locations on the Vanguard 7310 and 7330 Version 1, refer to Figure 3-12. Use standard rack-mounting hardware (not supplied) to secure the chassis in the rack.
Installing the Vanguard 7300 in a Rack Figure 3-11.
Installing the Vanguard 7300 in a Rack Version 2 Rackmounting Use these steps for rack-mounting a 7310 and 7330 Version 2 Series router: 1) Remove the front covers. (See the “Removing And Replacing Vanguard 7300 Front Covers” section on page 3-8.) 2) Two people are required to position the chassis and slide it into the front of the rack.
Attaching a Vanguard 7300 AC Power Cord Attaching a Vanguard 7300 AC Power Cord Introduction This section explains how to attach an AC Power Cord to a Vanguard 7310 or 7330. Attaching the Power Cord Attach the supplied power cord to the rear of the AC power supply and plug it in. The Vanguard 7310 Version 1 power receptacle is on the back of the enclosure. See Figure 3-13. Power Switch Dual Earth Ground ESD Bond Point AC Power Receptacle Figure 3-13.
Attaching a Vanguard 7300 AC Power Cord Version 2 For the Vanguard 7310 and 7330 Version 2 routers, there are two AC power cords on the back of the enclosure, one for each of the two AC power supplies, as shown in Figure 3-15. The power switch for the Vanguard 7310 and 7330 Version 2 is on the chassis front panel. Figure 3-15.
Connecting Vanguard 7300 DC Power Connecting Vanguard 7300 DC Power Introduction Vanguard 7300 Version 1 Series DC power connectors are located on the rear of the chassis. This section provides instructions for connecting power to Vanguard 7300 Version 1 Series routers that have DC power supplies. Note The two models have different DC power supply connectors and components.
Connecting Vanguard 7300 DC Power Connecting DC Power to a Vanguard 7310 Version 1 Introduction The Vanguard 7310 Version 1, DC power circuit breaker switch and DC power plug are located as shown in Figure 3-16. DC Power Input Module DC Power Breaker Switch Regulatory Label (side) Dual Earth Ground ESD Bond Point DC Power Plug Connector Serial No. Location Figure 3-16.
Connecting Vanguard 7300 DC Power DC Power Supply Connector Parts Parts for the connector are not supplied by Vanguard Networks. This table lists all required parts and pinouts for fabricating the connector: Quality Item AMP Part Number Description 1 Connector housing 206060-1 AMP CPC, 4-pin Socket (Female), Hood 3 Pins 66601-2 AMP gold-plated Type 111+ signal pins 1 Cable Clamp 206062-3 AMP Clamp, 2-screw, max. Cable Diam.: 8.36mm [.329 in.] (Variable) Wire (18AWG min.
Connecting Vanguard 7300 DC Power Connecting DC Power to a Vanguard 7330 Version 1 Introduction The DC-powered Vanguard 7330 has a pair of independent terminal blocks on each power supply, shown in Figure 3-18 and Figure 3-21. The detailed diagram, Figure 3-21, shows the upper block, labeled A; the lower block is labeled B. Note To ensure continuous power to the unit, it is recommended that you connect both terminal blocks of each power supply, each to a separate power source. ESD Bond Point Serial No.
Connecting Vanguard 7300 DC Power Wiring a Vanguard 7330 DC Power Supply Use the procedures in this table for connecting DC power to the dual input terminal blocks on a Vanguard 7330 Version 1 : Note Obtain UL/CSA-approved power cables and connectors with insulated crimp-on terminals. Power cables must be rated for at least 8A input current. Use cable harnesses and terminal-connector assemblies that conform to applicable electrical codes.
Connecting Vanguard 7300 DC Power Connecting DC Power to a Vanguard 7310 and 7330 Version 2 Version 2 The DC-powered Vanguard 7310 and 7330 Version 2 have a terminal block for each power module, shown in Figure 3-20. The detailed diagram, Figure 3-21, shows the two blocks. Figure 3-20. Vanguard 7310 and 7330 Version 2 - Power Connectors Vanguard 7300 Version 2 DC Power Terminal Block Figure 3-21.
Connecting Vanguard 7300 DC Power Wiring a Vanguard 7310 and 7330 Version 2 DC Power Supply Use the procedures in this table for connecting DC power to the input terminal blocks on a Vanguard 7310 and 7330 Version 2: Note Obtain UL/CSA-approved power cables and connectors with insulated crimp-on terminals. Power cables must be rated for at least 8A input current. Use cable harnesses and terminal-connector assemblies that conform to applicable electrical codes.
Cabling Procedures Cabling Procedures Introduction This section provides cabling procedures for the Vanguard 7300 Series CPU card and for any optional cards pre-installed in your 7300 router. Note Detailed cable descriptions including connector pinouts are provided in Appendix B, Vanguard 7300 Cable Connectors and Pinouts.
Cabling Procedures CPU Cards There are two types of Central Processor Unit (CPU) cards that are supported in the Vanguard 7300 Series Platform. • MPC750 • IBM750FX MPC750 CPU Card Introduction The connectors on the front of the MPC750 CPU card are show in Figure 3-22. The CPU always resides in chassis slot 1 of your Vanguard 7300.
Cabling Procedures Cabling the Operator Console There is a DB9 connector on the front of the MPC750 CPU card for connecting an operator console to the Vanguard 7300. An operator console can be an asynchronous VT100 terminal (or a PC with asynchronous VT100 terminal emulation capability.) The operator console is needed initially for configuring software and running diagnostic programs. See Figure 3-22 for the location of the DB9 CTP port.
Cabling Procedures Cable the IBM750FX CPU Use these steps to cable the IBM750FX CPU card front panel: 1) Attach a standard shielded Ethernet cable with an RJ45 plug connector to the RJ45 10/100/1000 BaseT Ethernet port. 2) If an Ethernet PCI PMC is installed, attach standard shielded Ethernet cables to the RJ45 socket connectors. 3) Cable the operator console to the CPU card’s RJ45 connector according to the procedure in the next section.
Cabling Procedures Carrier Expansion Card Introduction Connectors on the front of the Carrier expansion card (Figure 3-24) are PMC slot Ethernet ports of any installed Dual 10/100BaseT Ethernet PMCs. Slot 1 Slot 2 Figure 3-24. Carrier Expansion Card Connectors Cabling the 10/ The 10/100BaseT Ethernet PMC can be installed on either the CPU card or on the 100BaseT Ethernet Carrier Expansion Card. For both cards, the two ports on the PMC are cabled at the Mezzanine Card Vanguard 7300 front panel.
Cabling Procedures T1/E1/PRI Card Introduction The Vanguard 7300 T1/E1/PRI Card RJ48C data ports are at the rear of the chassis on the T1/E1/PRI Rear Transition Module. The rear module has 12 physical ports. Depending on the capacity purchased, either the first eight or all twelve ports are functional. Cabling the T1/E1 Rear Transition Module Each T1/E1/PRI transition module port is cabled with an optional 15-foot T1/E1/PRI cable.
Cabling Procedures T3/E3 ATM Card Introduction The Vanguard 7300 T3/E3 ATM Card has two, BNC 75-Ohm connectors. The connectors are located at the rear of the chassis on the T3/E3 Rear Transition Module as shown in Figure 3-27. Cabling the T3/E3 Rear Transition Module The T3/E3 Rear Transition Module uses two coaxial cables to provide T3/E3 functionality. Figure 3-27. T3/E3 Rear Transition Module Connectors Cabling T3/E3 Functions The Vanguard 7300 Series T3/E3 ATM PMC has no connectors.
Cabling Procedures Serial Card Introduction All cabling for the Serial card is done at the rear of the chassis on the 8-port rear panel shown in Figure 3-28. The eight ports support up to eight channels of serial data for WAN networking and telecommunications applications. Each Serial card port can be software configured for synchronous serial communication protocol. Software-configurable baud rates range from 1.2Kbps to 8Mbps.
Cabling Procedures Token Ring Card Cabling All cabling for the Token Ring card is done at the front of the card as shown in Figure 3-29. All connections are located on the front of the card. The Token Ring card has two ports and each port supports only one UTP or STP connection. The Token Ring card can be installed in any slot other than slot 1. Either a UTP or STP cable can be used by connecting the cable to the appropriate port. The cable type is automatically selected.
Chapter 4 Operating Your Vanguard 7300 Overview Introduction This chapter provides the various procedures necessary for starting your Vanguard 7300 platform and discusses these topics: • • • • • Operating Your Vanguard 7300 Power-Up Procedure Accessing the Control Terminal Port Loading Software Vanguard 7300 Port Configuration Board Management 4-1
Power-Up Procedure Power-Up Procedure Introduction This section explains how to power-up a Vanguard 7300 Series router. To power down your Vanguard 7300, set the power switch to the off position. Note Before you begin, be sure to review all applicable warnings and cautions in the “Electrostatic Discharge Precautions” section on page 3-7. Power-Up Instructions Use the procedure in this table to power-up your Vanguard 7300: Step Action 1 Check that all the cards are fully inserted and secured.
Accessing the Control Terminal Port Accessing the Control Terminal Port Introduction Once you power up a Vanguard 7300, you can access the Control Terminal Port (CTP) from the PC or terminal attached to the CTP port. To view the power-up diagnostics, connect to the CTP port before you power up the Vanguard 7300. Note For detailed information on accessing and using the CTP, refer to the Vanguard Basic Configuration Manual (Part Number T0113) on the Vanguide CD-ROM.
Accessing the Control Terminal Port Figure 4-1 shows a typical Vanguard 7300 CTP terminal power-up display for a Vanguard 7300 with T1/E/PRI cards. The power-up process can take two to three minutes to complete. *********************************************** Vanguard 7300 - Bootprom Program Loading - Copyright 2002 *********************************************** * BOOTPROM Revision: V1.
Accessing the Control Terminal Port Figure 4-2 shows a typical Vanguard 7300 CTP terminal power-up display for a Vanguard 7300 with Serial cards. . **************************************************** * Vanguard 7300 - Bootprom Program Loading * * Copyright 2002 **************************************************** * BOOTPROM Revision: V1.50, Creation Date: 20-May-2002 Copyright: Copyright (C) * Config - Requested to load alte_img * The Current Image identifies as V6.1.
Loading Software Loading Software Introduction This section briefly describes how to load the software into your Vanguard 7300 Series router. When you power up a Vanguard 7300, it initiates a node boot using previously loaded operating software (Applications Ware). Operating Software The operating software is stored compressed in Flash memory on the CPU Card. The software loads into SDRAM for execution. There are a variety of operating software feature sets available for the Vanguard 7300.
Vanguard 7300 Port Configuration Vanguard 7300 Port Configuration Introduction The Vanguard 7300’s unique port number system provides the physical and virtual port numbers required by the Applications Ware software for configuring the router on your network. These conventions accommodate the mix of cards that can be installed in a Vanguard 7300 chassis. This section described special-purpose Vanguard 7300 ports, their configuration, and programming considerations.
Vanguard 7300 Port Configuration CPU Card Port Numbers A CPU card is always present and always resides in chassis slot 1.
Vanguard 7300 Port Configuration Vanguard 7300 Card (continued) Configuration Port Numbers Carrier Expansion Card • 2-port Ethernet PMC in PMC Slot 1 • 2-port Ethernet PMC in PMC Slot 2 s51 and s52 s53 and s54 T1/E1/PRI Rear Transition Module • 8-port • 12-port s01 to s08 s01 to s12 T3/E3 ATM Card • T3/E3 ATM PMC in PMC Slot 1 s51 Serial Rear Transition Module Ports s01 to s08 Voice and Data Virtual Ports 2000 to 4000 WAN Virtual Ports 51 to 100 Token Ring Card s01-s02 Carrier Card Ports: 2
Vanguard 7300 Port Configuration T1/E1/PRI Ports: 312 311 310 309 308 307 306 305 304 303 302 301 Serial Ports: 407/408 405/406 403/404 401/402 Figure 4-4. Port Numbers -- Serial/T1/E1/PRI Rear Transition Modules Port 101 Port 102 Port 101 Port 102 Figure 4-5. Vanguard 7310 and 7330 Version 2 -- MPC750 CPU and Carrier Expansion Card Example Note The MPC750 CPU card ports are shown in the example above. The ports on the IBM750FX CPU card are not the same.
Vanguard 7300 Port Configuration Port Speed Description The Port Speed value in the FRI, PPP, X.25, SDLC, and TBOP statistics screen is the configured Port Speed for the Vanguard 7300 Serial Port, not the actual measured port speed. The configured Port Speed field is circled in Figure 4-6.
Vanguard 7300 Port Configuration Vanguard 7300 LLC-SDLC LAN Ports To run LLC-SDLC (SLAC) on a Vanguard 7300 Series router, you must use the first two Ethernet ports, the lowest numbered ports in the node.
Vanguard 7300 Port Configuration BSC 2780/3780-toSNA LU0 Conversion The BSC 2780/3780-to-SNA/LU0 Conversion is designed specifically for use in Tandem and IBM S/390 networks utilized by large financial institutions. SNA/LU0 was not designed for (batch) file transfer. For more information, refer to the BSC 2780/3780-to-SNA/LU0 Conversion Manual (Part Number T0101-09).
Vanguard 7300 Port Configuration Voice Port Configuration Introduction This section describes the H.323 Version 2 features. For more information on H.323 voice parameters, see the Vanguard Voice Manual (Part Number T0104-05). Dynamic Coder for H.323 Description H.323 Dynamic Coder lets you configure your 7300 device to ensure that your calls are successfully placed. This is done using coder negotiation between other H.323 devices. This feature is limited to H.323 calls only. How Does It Work? Using H.
Vanguard 7300 Port Configuration Node: Menu: Configure Address: Date:Time: Path: Port Configuration --*Port Number: 2006 --*Port Type: voice --*Access Type: Digital --Interface Type: E&M --Signaling Mode: Normal --Signaling Control: Immediate --PCM Mode: A-law --Compression Rate (KHz): 8GkB --VAD Control: Enabled --H.323 Dynamic Coder: Enabled --Smoothing Delay (msec): 70 Figure 4-8. Port Configuration Menu H.323 Dynamic Coder Parameter This is a description of the H.323 Dynamic Coder parameter: H.
Vanguard 7300 Port Configuration Dynamic Modem Dynamic Modem is a new configuration parameter created to Enable or Disable DSP dynamically, switching to codec G.711 after a high speed or fax modem is detected. An example of various high speed modems (which utilizes phase reversal in the answer tone) are the V.32, V.34 and V.90.
Vanguard 7300 Port Configuration Dynamic Modem Parameter This is a description of the Dynamic Modem parameter: Dynamic Modem Range: Enabled, Disabled Default: Disabled Description: Enable or Disable the feature of the dynamic switching to G.711 after modem detection. If Enabled, the DSP which detects the modem tone switches to codec G.711 regardless of the codec configured. Warning For digital interfaces the timing must be traceable back to the same clock source and/ or a Stratum 1 clock.
Alternate Gatekeeper Description The Alternate Gatekeeper feature provides redundancy for a gatekeeper in a network where gatekeepers are used. This functionality allows a gateway to use up to nine alternate gatekeepers as a backup in the case of primary gatekeeper failure. Block Alerting Description The Block Alerting option prevents the Q.931 message from being transmitted toward the IP Network. Block Alerting is accessed and configured from the H.323 Virtual Port Menu using the H.
Vanguard 7300 Port Configuration Configuring the Block Alerting Parameter The Block Alerting parameter is accessed using the H.323 Options. To configure your H.323 Virtual Port for Block Alerting, select H.323 Options from the Virtual Port Parameters, and then type BLOCK ALERTING. This table shows the range, default, and description of the H.323 Options: H.
Vanguard 7300 Port Configuration Registering E.164 Numbers The phone number used in the Local Subscriber Address parameter is registered as E.164 numbers. The Local Subscriber Address parameter is accessed from the Voice Port Record of the FXS/FXO interface types. Figure 4-11 shows the FXS Virtual Port Menu. Node: Menu: Configure Address: Date:Time: Path: Node Port Port Number: 2000 to 3000 (Enter a virtual port number.
Vanguard 7300 Port Configuration Configuring the Local Subscriber Address The Local Subscriber Address parameter is accessed using the Voice Port Record Options. To configure your Local Subscriber Address, select the Local Subscriber Address parameter, and then enter the phone number you wish to register. That value is registered with the gatekeeper as an E.164 address.
Board Management Board Management Introduction Board management is limited to board level actions, this includes resetting the hardware, testing the hardware, downloading any necessary software to the board, downloading any additional configuration information, activating and deactivating the board. The board management function supports recovery of T1-E1 boards on the 7300 platform. The purpose of the recovery mechanism is to allow for a method of recovery of faults which might occur in the T1/E1 card.
Board Management Keepalive Tries Range 0-3 Default 2 Description This is the number of consecutive keepalive failures that cause the trigger of a recovery procedure. A keepalive failure is counted when a keepalive timeout occurs and no response to the previous keepalive enquiry has been received. A lower tries count allows a more sensitive detection of failure, but with a higher chance of false trigger in high load conditions. A value of 0 disables the triggering of recovery procedures.
Board Management Control Board Management has its own control entry: Main->Control->Board Management. See Figure 4-13 for an example of the Board Management menu: Node: Menu: Control Address: Date:Time: Path: Board Management --Deactivate Board --Activate Board Figure 4-13. Board Management menu Deactivate Board When this item is selected, the CTP operator will be prompted for a board number.
Board Management Status Board Management has its own statistics entry: Main->Stats->Board-> Management. A node boot will reset all statistics. In the Board Management Statistics menu, the following menu items will be listed: Node: Menu: Statistics Address: Date:Time: Path: Board Management Statistics --Board Management Summary --Board Management History --Reset Board Management Statistics --Reset Board Management History Figure 4-14.
Board Management Board Management Board Management history keeps a detailed log of events occurring with respect to History Statistics individual boards. The history is for all non-host boards in the system. Currently, the only boards to be supported are T1-E1 boards. Here is an example of the Board Management History Statistics display: ...
Board Management Reset Board Management History Log When this menu item is selected, the CTP operator is asked to confirm the procedure before it is initiated. The operator selects Reset Board Management History and receives the prompt: Proceed? (y/n): No returns the operator to the Board Management menu. Yes clears all entries from the history log with the following message: Board Management History Reset. The operator is returned to the Board Management menu.
Chapter 5 Modifying Your Vanguard 7300 Overview Introduction This chapter provides procedures for removing and replacing Vanguard 7300 Series Cards.
General Card Replacement Guidelines General Card Replacement Guidelines Introduction This section describes guidelines for installing and replacing hardware components and cards into the Vanguard 7300 enclosure. Note These card installation guidelines apply to all Vanguard 7300 Series routers. Hot-Swapping All hardware, with the exception of the CPU card, supports insertion and removal Cards and Modules with the power on. Note Vanguard 7300 software does not support hot-swapping.
General Card Replacement Guidelines CPU Card Guide (Red, Slot 1) Card Guides (Tan) Figure 5-1. Chassis Card and Transition Module Guides 7330 Version 1 Figure 5-2.
General Card Replacement Guidelines Removing a CompactPCI Card or Transition Module Use the procedure in this table to remove your Vanguard 7300 cards and rear transition modules from the chassis. For your personal safety, be sure to review all of the preceding safety warnings and cautions before you begin to replace any Vanguard 7300 component. Note To meet FCC regulations and for thermal considerations, chassis slot covers always should be kept on empty chassis slots.
General Card Replacement Guidelines Inserting a CompactPCI Card or Transition Module Whether you are replacing an existing CompactPCI component or adding a new component to your Vanguard 7300, care must be taken when inserting a component’s midplane socket (female) connectors over the rows of male pin connectors on the CompactPCI midplane. Before replacing or adding a Vanguard 7300 card or transition module, be sure to familiarize yourself with CompactPCI midplane chassis design.
General Card Replacement Guidelines Step 1 Step 2 Step 4 Step 3 Figure 5-4.
General Card Replacement Guidelines Vanguard 7300 Card Installation Order Introduction Vanguard Networks recommends that you install cards in the numbered chassis slots in the following order: • CPU Card (always in chassis slot 1) - MPC750 - IBM750FX • Carrier Expansion Card • T3/E3 ATM Card • T1/E1/PRI Card • T1/E1/PRI Card with Voice DSP Card • Serial Card. • Token Ring Card Note When installing cards, always position the T3/E3 ATM Card closest to the CPU Card.
General Card Replacement Guidelines Caution ESD Bond Point ABT PCI COM 1 CPU 10/100 BASE T CPCI RST PCI MEZZANINE CARD BFL ACT 100bT LINK PORT 2 PORT 1 Some components used in the Vanguard 7300 are sensitive to static electric discharges; static electric discharges can cause damage to internal components. Use proper handling and grounding precautions whenever handling cards and components.
General Card Replacement Guidelines Figure 5-6. CPU Card Installation Guidelines - 7310 and 7330 Version 2 10/100BaseT Ethernet PMC When installing 10/100BaseT Ethernet PMC into a Vanguard 7300 enclosure, follow these guidelines: 1) Always install the first 10/100 BaseT Ethernet PMC into the mezzanine slot of the CPU card. 2) Install subsequent 10/100 BaseT Ethernet PMC into the PMC slots on Carrier Expansion Cards. 3) Always populate the Carrier Expansion Cards in this order, PMC Slot 1 then PMC Slot 2.
General Card Replacement Guidelines T1/E1/PRI Card If you are installing the T1/E1/PRI card without a Voice Server Card into a Vanguard 7300 enclosure it is recommended that you follow these guidelines: 1) Install the first T1/E1/PRI card into the slot beside the CPU Card or, if there are Carrier Expansion cards, in the first empty slot after the Carrier Expansion Cards. 2) Install the T1/E1 Rear Transition Module at the same slot location as the T1/E1/ PRI Card.
Removing and Replacing the CPU Card and CPU Mezzanine Card (PMC) Removing and Replacing the CPU Card and CPU Mezzanine Card (PMC) Introduction This section provides procedures that explain: • Removing and Replacing the CPU Card • Installing Mezzanine Cards (PMCs) on the CPU Card • Reinstalling the CPU Card Before You Begin Warning To prevent injury, be sure to power down the unit and disconnect the power cord before you remove the card.
Removing and Replacing the CPU Card and CPU Mezzanine Card (PMC) Removing and Replacing the MPC750 CPU Card Removing the The Vanguard 7300 MPC750 CPU card is illustrated in Figure 5-7. Use the steps in MPC750 CPU Card this table to remove the CPU card from the Vanguard 7300 enclosure: Step Action 1 Power off the Vanguard 7300. 2 Disconnect any cables attached to the front of the CPU card. 3 Using a screwdriver, loosen the captive screws from the front of the CPU card.
Removing and Replacing the CPU Card and CPU Mezzanine Card (PMC) Installing Mezzanine Cards (PMCs) on the MPC750 CPU Card Description This section describes how to install an Ethernet PCI PMC onto the MPC750 CPU card. The MPC750 CPU card provides two PMC connectors, one to support the pre-installed Memory PMC and one for a 2-Port 10/100 BaseT Ethernet PMC. Figure 5-8 show the location where PMCs can be installed: Ethernet PMC Memory PMC Figure 5-8.
Removing and Replacing the CPU Card and CPU Mezzanine Card (PMC) Installing an Ethernet PMC on the MPC750 CPU Card To add a 10/100BaseT Ethernet PMC, install the first PMC in the MPC750 CPU Card PCI PMC location beside the Memory PMC. Use the steps in this table to install the Ethernet PMC on the CPU Card: Note To remove a 10/100BaseT Ethernet PMC, reverse steps 4-6 in this table: Step Action 1 Turn off power to the Vanguard 7300. 2 Disconnect any cables attached to the front of the MPC750 CPU card.
Removing and Replacing the CPU Card and CPU Mezzanine Card (PMC) Installing Mezzanine Cards (PMCs) on the IBM750FX CPU Card Description This section describes how to install an Ethernet PCI PMC onto the IBM750FX CPU card. The IBM750FX CPU card provides two PMC connectors. Figure 5-10 shows the location where PMCs can be installed: Ethernet PMC 2 Ethernet PMC 1 Figure 5-10. PMC Locations on the Vanguard 7300 IBM750FX CPU Card Note Release 6.
Removing and Replacing the CPU Card and CPU Mezzanine Card (PMC) Step Action (continued) 7 Position the PMC on top of the card (PMC 1 or 2) as shown in Figure 5-11. Slide the front edge connectors into the opening labelled “PMC 1 or PMC 2”. 8 Press the PMC down onto the top of the CPU card. The connectors on the underside should connect smoothly with the J11/12/13/14 connectors. 9 Insert the short screws at the corners of the PMC and into the standoffs on the CPU Card. Tighten the screws.
Removing and Replacing the CPU Card and CPU Mezzanine Card (PMC) Reinstalling the CPU Card Reinstalling the CPU Card Use the steps in this table to reinstall the CPU card into the Vanguard 7300 enclosure: Step Action 1 Open the ejector levers. 2 Align the CPU card with the Slot 1 card rails on the chassis. Note The CPU card always must be installed in Slot 1. 3 Insert the card between the slot rails and push in until you feel resistance.
Removing and Replacing Carrier Expansion Cards and Mezzanine Cards (PMCs) Removing and Replacing Carrier Expansion Cards and Mezzanine Cards (PMCs) Introduction This section provides procedures that explain: • Removing the Carrier Expansion Card • Installing Ethernet PMCs on the Carrier Expansion Card • Replacing the Carrier Expansion Card Hot Swap Information The Carrier Expansion Card is hot-swappable and can be removed without powering down the router.
Removing and Replacing Carrier Expansion Cards and Mezzanine Cards (PMCs) Removing the Carrier Expansion Card Removing the Carrier Expansion Card Use the steps in this table to remove the Carrier Expansion Card from the Vanguard 7300 enclosure: Step Action 1 Disconnect any cables attached to the connectors on the front of the Carrier Expansion Card. 2 Begin pressing outward on the two ejector levers at the same time, then pause to wait for the blue LED on the front of the card to illuminate.
Removing and Replacing Carrier Expansion Cards and Mezzanine Cards (PMCs) Installing Ethernet PMCs on the Carrier Expansion Card Introduction This section describes how to install PMCs on the Carrier Expansion Card. The Carrier Expansion Card provides two slots for Ethernet PMCs. The PMCs that can be installed on the Carrier Expansion Card are 10/100 BaseT Ethernet PMCs. Figure 5-12 shows the Carrier Expansion Card PMC locations. Ethernet PMC Serial No. Locations Serial No.
Removing and Replacing Carrier Expansion Cards and Mezzanine Cards (PMCs) Step 2 Action (continued) Place the Carrier Expansion Card on a clean, grounded, and static-free surface. Caution Avoid touching areas of integrated circuitry to prevent static discharge to circuits. 3 Remove the filler panel from the front of the Carrier Expansion Card by pushing it out gently from the back side of the rail. 4 Position the PMC on top Carrier Expansion Card as shown in Figure 5-13.
Removing and Replacing Carrier Expansion Cards and Mezzanine Cards (PMCs) Replacing the Carrier Expansion Card Installing the Carrier Expansion Card When reinstalling a Carrier Expansion Card, the first Carrier Expansion card should be placed in card slot 2, the first slot beside the CPU Card. Install subsequent Carrier Expansion cards in subsequent slots. Use the steps in this table to install a Carrier Expansion Card in a Vanguard 7300 enclosure: Step 5-22 Action 1 Open the ejector levers.
Removing and Replacing the T1/E1/PRI Card and Rear Transition Module Removing and Replacing the T1/E1/PRI Card and Rear Transition Module Introduction This section provides procedures that explain: • Removing and Replacing the T1/E1/PRI Card • Removing and Replacing the T1/E1/PRI Rear Transition Module • Installing the Voice Server (DSP) Mezzanine Card (PMC) Card Orientation Figure 5-14 illustrates the card orientation for the T1/E1/PRI Card and Rear Transition Module pair.
Removing and Replacing the T1/E1/PRI Card and Rear Transition Module Removing and Replacing the T1/E1/PRI Card Introduction This section explains how to remove and reinstall the T1/E1/PRI Card. Note Be sure to review all applicable warnings and cautions in the “General Card Replacement Guidelines” section on page 5-2 before you begin.
Removing and Replacing the T1/E1/PRI Card and Rear Transition Module Removing and Replacing the T1/E1/PRI Rear Transition Module Introduction The T1/E1/PRI Rear Transition Module provides physical connector interfaces for T1/E1/PRI card data and voice functions. Note Review all applicable warnings and cautions in the “Hot-Swapping Cards and Modules” section on page 5-2 before you begin.
Removing and Replacing the T1/E1/PRI Card and Rear Transition Module Installing the Voice Server (DSP) Mezzanine Card (PMC) Installing a Voice Server PMC on a T1/E1/PRI Card Use the steps in this table to install the Voice Server PMC on the T1/E1/PRI Card: Note Be sure to review all applicable warnings and cautions in the “Hot-Swapping Cards and Modules” section on page 5-2 before you begin.
Removing and Replacing the T3/E3 ATM Card and Rear Transition Module Removing and Replacing the T3/E3 ATM Card and Rear Transition Module Introduction The T3/E3 ATM Card is comprised of these components; A standard Carrier Expansion Card with a T3/E3 ATM PMC installed and the T3/E3 Rear Transition Module.
Removing and Replacing the T3/E3 ATM Card and Rear Transition Module Removing and Replacing the T3/E3 ATM Card Introduction This section explains how to remove and reinstall the T3/E3 ATM Card. Note Be sure to review all applicable warnings and cautions in the “General Card Replacement Guidelines” section on page 5-2 before you begin.
Removing and Replacing the T3/E3 ATM Card and Rear Transition Module Removing and Replacing the T3/E3 Rear Transition Module Introduction The T3/E3 Rear Transition Module provides the physical connector interfaces for T3/E3 ATM Card functionality. Note Be sure to review all applicable warnings and cautions in the “Hot-Swapping Cards and Modules” section on page 5-2 before you begin.
Removing and Replacing the T3/E3 ATM Card and Rear Transition Module Installing the T3/E3 ATM Mezzanine Card (PMC) Installing a T3/E3 ATM PMC onto a Carrier Expansion Card Use the steps in this table to install the T3/E3 ATM PMC onto the Carrier Expansion Card. Note Be sure to review all applicable warnings and cautions in the “Hot-Swapping Cards and Modules” section on page 5-2 before you begin.
Removing and Replacing the Serial Card and Serial Rear Transition Module Removing and Replacing the Serial Card and Serial Rear Transition Module Introduction This section provides procedures that explain: • Removing and Replacing the Serial Card • Removing and Replacing the Serial Rear Transition Module Card Orientation Figure 5-16 illustrates the card orientation for the Serial Card and Rear Transition Module pair.
Removing and Replacing the Serial Card and Serial Rear Transition Module Removing the Serial Card Use the steps in this table to remove the Serial Card from the Vanguard 7300 enclosure: Step Action 1 Loosen the captive screws from the front of the Serial Card. 2 To eject the Serial Card, press the two ejector levers outward at the same time. 3 Pull the Serial Card from the enclosure. 4 Place the Serial Card on a clean, grounded, and static-free surface.
Removing and Replacing the Serial Card and Serial Rear Transition Module Removing and Replacing the Serial Rear Transition Module Introduction The Serial Rear Transition Module provides the physical connector interface for the Serial Card. Note Be sure to review all applicable warnings and cautions in the “Hot-Swapping Cards and Modules” section on page 5-2 before you begin.
Removing and Replacing the Token Ring Card Removing and Replacing the Token Ring Card Installing the Token When installing a Token Ring card, the first Token Ring card should be placed in Ring Card card slot 2, the first slot beside the CPU Card. Install subsequent Token Ring cards in subsequent slots. Use the steps in this table to install a Token Ring Card in a Vanguard 7300 enclosure: Step Removing the Token Ring Card Action 1 Open the ejector levers.
Installing and Removing the Advanced Encryption Card (AEC) Installing and Removing the Advanced Encryption Card (AEC) Installation Use the steps in this table to install the Advanced Encryption Card (AEC) on the IBM750FX CPU: Note To remove an Encryption Card, remove the four short screws at the corners of the module and remove the module from the card connectors. Step Action 1 Power off the Vanguard 7300. 2 Disconnect any cables attached to the front of the CPU card.
Installing and Removing the Advanced Encryption Card (AEC) Mounting Screw Holes Interface Connector AEC Daughtercard PMC 2 PMC 1 Figure 5-17. Advanced Encryption Card Installation (in PMC 1) on the IBM750FX CPU Note The Encryption Card can only be installed in PMC slot one. There is a limit of one Advanced Encryption Card (AEC) per router.
Chapter 6 Replacing Power Supplies and Cooling Fans Overview Introduction This chapter explains how to remove and replace the Vanguard 7300 Series power supplies and cooling fans.
Replacing Power Supplies and Cooling Fans, 7310 Version 1 Replacing Power Supplies and Cooling Fans, 7310 Version 1 Introduction Power to the Vanguard 7310 Version 1 is provided by two separate power system components: • The Power Input Module, which connects with the midplane and brings power to all of the components in the chassis.
Replacing Power Supplies and Cooling Fans, 7310 Version 1 Removing and Installing the Power Supply/Inlet Fan Module Introduction This section explains how to install and remove the Power Supply/Inlet Fan Module from both AC and DC-powered Vanguard 7310 routers. Note Be sure to review all applicable warnings and cautions in the “Hot-Swapping Cards and Modules” section on page 5-2 before you begin. The power supply is not hot-swappable on the Vanguard 7310 Version 1.
Replacing Power Supplies and Cooling Fans, 7310 Version 1 Removing and Installing the Power Input Module Introduction A Vanguard 7310 Version 1 power input module is accessible from the rear of the enclosure. See Figure 6-3. Details of AC-powered modules and DC-powered modules are provided in the power installation section in Chapter 3, Vanguard 7300 Installation. Note AC and DC power input modules are keyed differently. You cannot install the wrong power unit in the wrong Vanguard 7310 enclosure.
Replacing Power Supplies and Cooling Fans, 7310 Version 1 Removing and Installing the Exhaust Fan Module Introduction The Vanguard 7310 Version 1 Exhaust Fan Module contains the rear exhaust fans. The module is hot-swappable; it can be removed without turning off the system power and without disrupting system service. This section describes how to remove or install the Exhaust Fan Module.
Replacing Power Supplies and Cooling Fans, 7330 Version 1 Replacing Power Supplies and Cooling Fans, 7330 Version 1 Introduction This section provides procedures for the Vanguard 7330 Version 1 that explain: • Removing the Fan Tray • Removing and Replacing the Vanguard 7330 Version 1 Power Supplies Note Be sure to review all applicable warnings and cautions in the “Hot-Swapping Cards and Modules” section on page 5-2 before you begin.
Replacing Power Supplies and Cooling Fans, 7330 Version 1 Removing the Fan Tray Introduction This section explains how to remove and replace the two cooling fans in the hot swap fan tray beneath the module cage. The fan tray can be hot-swapped. Caution Avoid overheating by installing the replacement fan tray immediately. Procedure Refer to Figure 6-5 and the steps in this table to remove the cooling fan tray: Step Action 1 Loosen the two captive screws securing the fan tray vent to the chassis.
Replacing Power Supplies and Cooling Fans, 7330 Version 1 Removing and Replacing the Vanguard 7330 Version 1 Power Supplies Introduction This section explains how to remove and replace an AC or DC power supply assembly in the Vanguard 7330 Version 1chassis. Before You Begin Warning Only qualified Service personnel should perform the following procedure.
Replacing Power Supplies and Cooling Fans, 7330 Version 1 Installing a Power Supply Refer to Figure 6-6 and the steps in this table to install the AC power supply: Step Action 1 For units with AC power, verify that the power supply’s auto-sensing Voltage Selector Switch is correctly set for your country, 115V or 230V. 2 Insert the power supply into the slot and insure that it is seated firmly. 3 Insert the two mounting screws. Do not tighten the screws until both mounting screws are in place.
Replacing Power Supplies and Cooling Fans, 7310 and 7330 Version 2 Replacing Power Supplies and Cooling Fans, 7310 and 7330 Version 2 Introduction This section provides procedures for the Vanguard 7330 Series Version 2 routers that explain: • Removing and Replacing the Vanguard 7310 and 7330 Version 2 Power Supplies • Removing and Installing the Exhaust Fan Module • Removing and Installing the Intake Fan Module 6-10 Replacing Power Supplies and Cooling Fans
Replacing Power Supplies and Cooling Fans, 7310 and 7330 Version 2 Removing and Replacing the Vanguard 7310 and 7330 Version 2 Power Supplies Introduction This section explains how to remove and replace an AC or DC power supply assembly, exhaust fan, and intake fan in the Vanguard 7310 and 7330 Version 2 chassis. Before You Begin Warning Only qualified Service personnel should perform the following procedure.
Replacing Power Supplies and Cooling Fans, 7310 and 7330 Version 2 Removing and Replacing the AC Power Supply Use the procedures in this section to remove and replace an AC Power Supply in the Vanguard 7310 and 7330 Version 2 chassis. Refer to Figure 6-7 and the steps in this table: Step Action 1 Switch the power supply that is being replaced to “off” (o) using the front panel power switch. 2 Loosen the (1) mounting screw of the power supply.
Replacing Power Supplies and Cooling Fans, 7310 and 7330 Version 2 Removing and Installing the Exhaust Fan Module Introduction The Vanguard 7310 and 7330 Version 2 contains a rear exhaust module. The module is hot-swappable; it can be removed without turning off the system power and without disrupting system service. This section describes how to remove or install the Exhaust Fan Module.
Replacing Power Supplies and Cooling Fans, 7310 and 7330 Version 2 Removing and Installing the Intake Fan Module Introduction The Vanguard 7310 and 7330 Version 2 Intake Fan Module contains a single fan. The module is hot-swappable; it can be removed without turning off the system power and without disrupting system service. This section describes how to remove or install the Intake Fan Module.
Appendix A Specifications Overview Introduction This appendix describes the physical, electrical, and environmental specifications for the Vanguard 7300 Series of products. The appendix is divided into separate sections, one for each model of the Vanguard 7300 Series routers. • “Vanguard 7310 Version 1 Product Specifications” section on page A-2. • “Vanguard 7330 Version 1 Product Specifications” section on page A-5. • “Vanguard 7310 and 7330 Version 2 Product Specifications” section on page A-8.
Vanguard 7310 Version 1 Product Specifications Vanguard 7310 Version 1 Product Specifications Introduction This section provides product specification for the Vanguard 7310. Chassis Dimensions These are the chassis dimensions: Chassis Weight These are the chassis weights: • 5.25 inches high (133.35 mm) - referred to as 3U High. • 17.50 inches wide (444.50 mm). • 16.50 inches deep (419.1 mm). • Up to 35 lbs. (15.9 kg) fully loaded. • 30 lbs. (13.6 kg) without cards.
Vanguard 7310 Version 1 Product Specifications Electrical These are the electrical specifications: • Power Factor: 0.95 W/VA. • Inrush Current: - 35A peak at 230 VAC for one line cycle. - 35A peak at -72 VDC within 4 msec. • Efficiency: Less than 65% at full load, 110 VAC. • Output Power: 150 watts. • Hold-Over Storage: 20 msec at full load, 90 VAC. • Transient Response: All outputs return to 1% within 1 msec of a 50% load change.
Vanguard 7310 Version 1 Product Specifications Temperature and Environmental A-4 These are the temperature and environmental specifications: • Temperature: - Storage: -25 Degrees C to 55 Degrees C - Transit: -40 Degrees C to 70 Degrees C - Operating: -5 Degrees C to 45 Degrees C • Humidity (NC): - Storage: 10% to 100% RH - Transit: 95% @ -40 Degrees C to 45 Degrees C - Operating: 5% to 95% RH • Altitude: -471 to 3708 m ASL • Shock: - Storage, Type 1: 4 Gs @ 22 ms - Transit, Type 1: 30 Gs @ 11 ms - Operat
Vanguard 7330 Version 1 Product Specifications Vanguard 7330 Version 1 Product Specifications Introduction This section provides product specification for the Vanguard 7330. Chassis Dimensions These are the chassis dimensions: Chassis Weight The Vanguard 7330 is 40 lbs. (18 kg) with power supply and without cards.
Vanguard 7330 Version 1 Product Specifications Electrical These are the electrical specifications: • Power Factor: 0.98 W/VA • Inrush Current: - 40A peak at 115 VAC for one line cycle - 40A peak at -36 VDC within 4 msec. • Efficiency: Less than 65% at full load, nominal line • Output Power: 350 watts • Hold-Over Storage: 20 msec at full load, 90 VAC • Transient Response: - All outputs return to 1% within 2 msec of a 25% load change.
Vanguard 7330 Version 1 Product Specifications Temperature and Environmental These are the temperature and environmental specifications: • Temperature: - Operating: 0 Degrees C to +40 Degrees - Storage/Transit: -20 Degrees C to +70 Degrees • Humidity (NC): - Operating 5% to 95% @ 40 Degrees C - Storage/Transit: 0% to 95% @ 40 Degrees C • Altitude: - Operating: 6,000 ft. (1,829 m) - Storage/Transit: 50,000 ft. (15,240 m) • Shock: - Storage/Transit: Per ASTM 0775 • Vibration: - Operating: 1.
Vanguard 7310 and 7330 Version 2 Product Specifications Vanguard 7310 and 7330 Version 2 Product Specifications Introduction This section provides product specifications for the Vanguard 7310 and 7330 Version 2. Chassis Dimensions These are the chassis dimensions: Chassis Weight The Vanguard 7310 and 7330 Version 2 weighs 22 lbs. without cards.
Vanguard 7310 and 7330 Version 2 Product Specifications Power Supply AC Power Supply: • Power Factor: 95 % @110V, Full Load • Inrush Current: - 50A peak at 115 VAC for one line cycle - 50A peak at 230 VAC for one line cycle. • Efficiency: 63% at full load, nominal line • Output Power: 300 watts • Hold-Over Storage: 16 msec at full load, 90 VAC • Transient Response: - All outputs return to 1% within 2 msec of a 25% load change.
Vanguard 7310 and 7330 Version 2 Product Specifications Cooling Forced Air Cooling: • Two hot-swappable fan assemblies. • Forced air ducting to Compact PCI boards and transition boards.
Appendix B Vanguard 7300 Cable Connectors and Pinouts Overview Introduction This appendix describes these cables and pinouts for the Vanguard 7300 Series products: • CPU Card Connector and Cable Details. • Ethernet Mezzanine Card Connector and Cable Details. • T1/E1/PRI Cables. • T3/E3 ATM Cables. • Serial Card Connector and Cable Details. • AC and DC Power Connections.
CPU Card Connector and Cable Details CPU Card Connector and Cable Details Introduction This section describes the two CPU Card Connectors and Cable Details. • MPC750 CPU Card - DB9 • IBM750FX CPU Card - RJ45 DB9 CTP MPC750 The CTP port, Com 1, presents a DTE interface and is used for operations such as configuring and coldloading software images into a Vanguard 7300.
CPU Card Connector and Cable Details LAN Interface The following table lists the Pinouts of the LAN interface connector: Pin 1000 Mbps 10/100 Mbs 1 MDIO0+ TD- 2 MDIO0- TD- 3 MDIO0 RD+ 4 MDIO2+ Not Used 5 MDIO0- Not Used 6 MDIO1- RD- 7 MDIO3+ Not Used 8 MDIO3 Not Used B-3
Ethernet Mezzanine Card Connector and Cable Details Ethernet Mezzanine Card Connector and Cable Details RJ45 10/100BaseT Ethernet Port Connector This table describes the pinout for the CPU board’s RJ45 10/100BaseT Ethernet port and the 10/100BaseT Ethernet Mezzanine Card ports. Ethernet Mezzanine Cards can be installed on either the CPU card or on the Carrier Card. The pinouts are shown in Figure B-1 and in this table:.
T1/E1/PRI Cables T1/E1/PRI Cables Introduction This section describes the cable requirements for the T1/E1/PRI Card. Cable Requirements The T1/E1/PRI card requires one of the following cables to connect to the T1/E1 network: • RJ48-to-RJ48 twisted-pair cable to connect to a T1 network (minimum 26 AWG wire). • RJ48-to-RJ48 twisted-pair cable to connect to a E1 network having 120-Ohm line impedance. (ETSI-TBR-013 requires that this cable be constructed of solid conductors of 0.4mm to 0.6mm.
T3/E3 ATM Cables T3/E3 ATM Cables Introduction The T3/E3 ATM Card requires 2 BNC-to-BNC 75-Ohm coaxial cables that connect to either a T3 or E3 network and provide 75-Ohm line impedance.
Serial Card Connector and Cable Details Serial Card Connector and Cable Details Introduction This section describes the details of the serial card connector and cable. Cable Connector The following cable connector information applies to the Vanguard 7300 Serial Card. Pinouts for the exterior interface end of these Serial Card cables are in the following subsections: • • • • • • • • EIA 232 DCE/DTE EIA 232 DCE EIA 232 DTE V.35/V.36 DCE V.35/V.36 DTE X.21 DCE X.
Serial Card Connector and Cable Details Pin V.35 DCE/DTE Signal (continued) 24 XTXC 25 (not used) 26 (not used) This is a list of the Serial Card V.
Serial Card Connector and Cable Details V.36 DCE/DTE This is a list of the Serial Card V.36 DCE and DTE connector pinouts: Pin V.21 DCE/ DTE Signal 1 Prot Gnd 4 TXD(A) 5 TXCLK(A) 6 RXD(A) 7 RTS 8 RXCLK(A) 9 CTS 11 DSR 12 DTR 13 Receiver Ready 17 Terminal Timing(A) 19 Signal Comm 20 Signal Comm 22 TXD(B) 23 TXCLK(B) 24 RXD(B) 26 RXCLK(B) 35 Terminal Timing (B) 37 Signal Comm This is a list of the Serial Card V.
Serial Card Connector and Cable Details EIA530 DCE/DTE This is a list of the Serial Card EIA 530 DCE and DTE connector pinouts: Pin B-10 Signal 1 Prot Gnd 2 TXD(A) 3 RXD(A) 4 RTS(A) 5 CTS(A) 6 DSR(A) 7 Signal Comm 8 DCD(A) 9 RXCLK(B) 10 DCD(B) 11 Ext.TXCLK(B) 12 TXCLK(B) 13 CTS(B) 14 TXD(B) 15 TXCLK(A) 16 RXD(B) 17 RXCLK(A) 18 (not used) 19 RTS(B) 20 DTR(A) 21 (not used) 22 DSR(B) 23 DTR(B) 24 Ext.
Token Ring Card Connector and Cable Details Token Ring Card Connector and Cable Details UTP (RJ45) Connector This table describes the UTP connector pinout: Pin Function 1 Not Used 2 Not Used 3 TX-A 4 RX-B 5 RX-A 6 TX-B 7 Not Used 8 Not Used Warning Attaching a CTP cable to a UTP port damages the token ring card.
AC and DC Power Connections AC and DC Power Connections Introduction This section describes the AC and DC power connections. DC Power Cable Pinouts The Vanguard 7310 DC Connector pinouts are listed in this table: Pin Number Vanguard 7330 Version 1 DC Power Terminal Block Description 1 -48V 2 -48V RTN 3 Chassis Ground 4 (No Connection) The DC-powered Vanguard 7330 Version 1 has a pair of independent terminal blocks on each power supply as shown in Figure B-2. Figure B-2.
AC and DC Power Connections Figure B-3. Vanguard 7310 and 7330 Version 2 DC Power Terminal Block Details Ordering Vanguard To order additional cables please contact a Vanguard Networks representative.
AC and DC Power Connections B-14
Appendix C Vanguard 7300 Software License and Regulatory Information Overview Introduction This appendix provides information about the following: • FCC Part 68 and Telephone Company Procedures and Requirements. • Product Declarations and Regulatory Information.
FCC Part 68 and Telephone Company Procedures and Requirements FCC Part 68 and Telephone Company Procedures and Requirements Introduction This section describes the FCC Part 68 Telephone Company Procedures and Requirements for DSU, T1, T3, and ISDN Interfaces. Before You Begin Before a Vanguard 7300 Series router can be connected to the network, you must do the following: • Provide the local telephone company with the equipment’s registration number. • Order the proper connections.
FCC Part 68 and Telephone Company Procedures and Requirements Customer-Provided FCC regulations and telephone company procedures prohibit connection of Telephone customer-provided equipment to telephone company-provided coin service Equipment (central office-implemented systems). Connection to party lines is subject to state tariffs. Occasionally, the telephone company makes changes in their equipment, operations, or procedures.
Product Declarations and Regulatory Information Product Declarations and Regulatory Information Introduction The following sections provide information about standards compliance, safety statements, and ISDN Type Approvals. Warnings And Cautions The following special notices apply to all equipment handling procedures in this installation guide. Warning Ports capable of connecting to ports on other apparatus are defined as Safety Extra Low Voltage (SELV).
Product Declarations and Regulatory Information Industry Canada The following information includes the Industry Canada statement regarding ISDN and T1 equipment use. The Industry Canada label identifies certified equipment. This certification means that the equipment meets certain telecommunications network protective, operational, and safety requirements. The Department does not guarantee the equipment will operate to the user’s satisfaction.
Glossary Vanguard 7300 Glossary of Terms Introduction This appendix lists the acronyms and definitions of terms used in describing Vanguard 7300 Series products. Terms are organized in alphabetical order. For Vanguard Applications Ware terminology, refer to the Vanguard Glossary, in the Vanguard Applications Ware Documentation on the Vanguard 7300 Series CD-ROM. Term Meaning 10/100BaseT 10Mbs/100Mbs data transfer rate Ethernet network AEC Advanced Encryption Card.
Term Glossary-2 Meaning E1 Wide-area digital transmission that carries data at .048 Mbps. E3 Wide-area digital transmission that carries data at 34.368 Mbps. EIA 232, EIA 530 Electronic Industries Association standard serial connectors.
Term Meaning PBX Private Branch Exchange PCI Peripheral Computer Interconnect PCMCIA Personal Memory Card International Association PING Packet Internet Grouper PMC PCI Mezzanine Card. A half-size printed circuit card that mounts on a full-sized Vanguard 7300 chassis slot card.
Term Glossary-4 Meaning UDP User Datagram Protocol UTP/STP Unshielded Twisted Pair/Shielded Twisted Pair V.35/V.36 ITU-T standard synchronous physical layer protocol between a network access device and a packet network. VAD Voice Activity Detection VLAN Virtual Local Area Network VME VersaModule Eurocard VoFR Voice over Frame Relay VoIP Voice over Internet Protocol WAN Wide Area Network X.
Return Procedures Introduction The following sections apply to U.S.A. customers only. Non-U.S.A. customers with questions or concerns regarding return procedures should contact their Vanguard Networks subsidiary or distributor. Equipment Return Procedures If you have questions about equipment return procedures, on-site service or unit exchange service call the Vanguard Networks Technical Support Center at (508) 964-6200 for advice and assistance.
Factory Repair To return equipment for factory repair, call the Vanguard Networks Technical Support Center at (508) 964-6200, for return authorization and instructions. When you call, you will be given a Return Material Authorization (RMA) control number. Mark this number clearly on the shipping container for ease of identification and faster service. The RMA control number provides a convenient tracking reference for both parties.
Index A C (Continued) Abort switch 2-15 AC Power 3-19 Acronyms Glossary-1 Address CPU Card Ethernet Port 3-29, 3-30 Advanced Encryption Card (AEC) 2-41 Advanced Encryption Standard (AES) 2-41 Benefits 2-42 Installing 5-35 Removing 5-35 Ambient air temperature 3-7 Antistatic Precautions 3-7 Automatic Shutdown 3-7 Cooling fans 6-6, 6-10 Cover 3-8 Panels 3-12, 3-14 CPU Card Connectors 3-29, 3-30 Ethernet port address 2-15, 2-20 front panel 2-14, 2-18 LEDs 2-15, 2-19 Memory PMC 5-13 PMC slot 2-14, 2-18 Port
G P Glossary of Terms Glossary-1 Grounding the Vanguard 7300 3-15 Guides, Card and Module 5-3 PCI Mezzanine Card (PMC) 1-4, 2-23 Pinouts B-7 PMC 1-4 Installation 5-13, 5-15 Ports Numbering 4-7 Virtual 4-7 WAN 4-7 Power Input Module 6-2 Power Requirements 3-6 Power Supply/Inlet Fan Module 6-2 Power system components 6-2 Power-on component removal 5-2 Power-Up LED Values 4-2 Sequence 4-2 Product Declarations C-4 Specification A-2 Product Specification A-5, A-8 Protocols Serial 2-34 H Hardware Specificatio
S T (Continued) Sample Boot Console Display 4-4, 4-5 Serial Card Rear Transition Module 2-34 Replacement 5-31 Serial Cards Boot Display 4-5 Serial Number CPU Card 2-15, 2-20 Serial Rear Transition Module Replacement 5-32, 5-33 Serial Transition Module Connectors 3-35 Shipment Contents 3-3 Shutdown Automatic Thermal 3-7 Site Selection 3-6 Slot 1 CPU Card 5-7 Slot covers 5-4 Slot guides 5-3 SNA/SDLC 1-10 Software Loading 4-6 Optional 4-6 Support Group 1-5 Software-configurable baud rates 3-35 Specifications