Vanguard Managed Solutions --NODE UP-- Vanguard 6435/6455 Installation Manual
Notice ©2003 Vanguard Managed Solutions, LLC 575 West Street Mansfield, Massachusetts 02048 (508) 261-4000 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 Managed Solutions (or its Suppliers) and without the express prior permission of an officer of Vanguard Managed Solutions 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.
The REN is used to determine the number of devices that may be connected to a telephone line. Excessive RENs on a telephone line may result in the devices not ringing in response to an incoming call. In most but not all areas, the sum of RENs should not exceed five (5.0). To be certain of the number of devices that may be connected to a line, as determined by the total RENs, contact the local telephone company. The REN for this product is part of the product identifier that has the format US:AAAEQ##TXXXX.
Contents About This Manual Special Notices and Translations Customer Information Customer Response Card Chapter 1. About the Vanguard 6435/6455 Vanguard 6435/6455 Description ................................................................. Features ......................................................................................................... Applications .................................................................................................. PRI Supplementary Service ..............
Contents (continued) Chapter 3. Installation and Replacement (Continued) Accessing the Motherboard ...................................................................... DIMs, SIMMs, DIMMs and Switches ..................................................... Installing/Removing Enhanced Vanguard Daughtercards ....................... Installing/Removing Vanguard 6455 Option Cards ................................. Installing/Removing the Lithium Battery .....................................................
About This Manual Overview Introduction This installation describes features, hardware, specifications, and applications for the Vanguard 6435/6455. Note For information on operating system software and configuration, see the Vanguard Basic Configuration Manual (Part Number T0113). Audience This manual is intended for people who install and operate the Vanguard 6435/6455.
Special Notices and Translations Special Notices The following notices emphasize certain information in the guide. Each serves a special purpose and is displayed in the format shown: Note Note is used to emphasize any significant information. Caution Caution provides you with information that, if not followed, can result in damage to software, hardware, or data. Warning Warning is the most serious notice, indicating that you can be physically hurt.
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Customer Information Customer Questions Customers who have questions about Vanguard Managed Solutions products or services should contact your VanguardMS representative or visit this website for product, sales, support, documentation, or training information: http://www.vanguardms.com/ Comments About This Manual Customer Information To help us improve our product documentation, please complete the comment card included with this manual and return it by fax to (508) 339-9592.
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Chapter 1 About the Vanguard 6435/6455 Overview Description The Vanguard 6435/6455 products provide wide area network (WAN) access for offices that depend on efficiently consolidating legacy protocols (SNA/SDLC and BSC) with Voice and LAN traffic over IP, Frame Relay, X.25, ISDN, and NX64 T1/E1 services.
Vanguard 6435/6455 Description Vanguard 6435/6455 Description Introduction The Vanguard 6435 and 6455 are flexible, RISC processor-based multiservice routers that provide increased performance and enhanced capability through high-speed interfaces for bandwidth-intensive LAN/WAN applications. They offer cost-effective, simultaneous support for voice, fax, video, and mixed protocol data traffic over IP, Frame Relay, X.25, ISDN, ATM or NX64 T1/E1 services.
Features Features Introduction This section describes the features available with your Vanguard 6435/6455. For descriptions of the software running on your Vanguard 6435/6455, refer to the appropriate protocol document. Hardware Features This table lists the hardware features of the Vanguard 6435 and the Vanguard 6455: Vanguard 6435 Vanguard 6455 Compact, low profile enclosure with fixed motherboard, and support for three daughtercards.
Features Vanguard 6435 Vanguard 6455 16 Megabytes of SDRAM (can be With release 5.6 and greater the expanded with an optional 32 Megabyte Vanguard 6455 is shipped with 32 DIMM). Megabyte DIMM installed. Expanded CMEM area from 64kbytes to Expanded CMEM area from 64kbytes to 128 kbyte for the 12 MB Flash Option. 128 kbyte for the 12 MB Flash Option. Below is a table with Flash memory sizes of different Flash SIMM scenarios: FLASH Memory Size Example Product Type Release 6.
Features Vanguard Daughtercards These standard Vanguard Daughtercards are currently supported by the Vanguard 6435 and Vanguard 6455: • • • • • • • • • • • • • 56K DSU/CSU DIM (X.21/V.24/V.35/V.36) ISDN BRI-U ISDN and enhanced ISDN BRI-S/T 1-Port Voice (FXS/FXO) 2-Port Voice FXS Dual E&M 4-Port FXS 4-Port FXO RemoteVU (video) FT1/FE1 V.34 Modem V.90 Modem Note Release 6.2 or greater software is required for the V.90 modem.
Applications Applications Introduction This section describes several typical applications for the Vanguard 6435/6455: • Multimedia Traffic • IP Traffic • Virtual Private Network (VPN) From Leased Line to Frame Relay With the Vanguard 6435 • Multiple LAN Multimedia Traffic Figure 1-2 shows two Vanguard 6435s linked to a Vanguard 6560 at a main office. The Vanguard 6435 connects a remote ATM site to a main bank location.
Applications Video Camera Remote ATM Site PC w/RemoteVU Bank ATM Vanguard 6435 Server 56K Burroughs Poll/Select T1 Bank ATM Frame Relay FT 100 M Video Cameras Vanguard 6560 128 K AS/400 Vanguard 6455 Bank Main Office PBX Ethernet LAN Controller Bank Branch Office Server Figure 1-2.
Applications IP Traffic The demand for Internet applications (search engines, browsers, video conferencing, e-commerce) has resulted in explosive growth in the area of client networks. Furthermore, serial and non-IP LAN applications are migrating to IP. This is driven by the success of the Internet. The Vanguard 6435, equipped with the latest software, addresses these needs with IP enhancements such as IP Multicast, RIP2, and Router Proxy.
Applications Voice over Frame The Vanguard 6435 and Vanguard 6455 can support Voice over Frame Relay (VoFR) Relay or Voice over or Voice over IP (VoIP) as shown in Figure 1-4. In this example, the Vanguard 6435 IP supports multiple voice lines in the remote branches, which can be set up as extensions on a PBX. These voice connections can be routed over Frame Relay or over IP, or routed over both transmission paths.
Applications Multiple LANs The Vanguard 6435 and 6455 provide multiple LAN support for customers that need to segment their LAN traffic. In the example in Figure 1-6, the customer has chosen to separate point-of-sale traffic from PC applications. Other customers choose to use the second LAN port for redundancy. PC-based Applications Server 10BaseT Vanguard 6455 POS Transaction Host CPU 10/100BaseT Autosensing Frame Relay or IP PBX Figure 1-6.
PRI Supplementary Service PRI Supplementary Service Introduction The PRI Supplementary Services provide transparent support for supplementary PBX services, so that proprietary PBX features are not lost when connecting PBX’s through the Vanguard Managed Solutions Vanguard gateway networks.
PRI Supplementary Service QSIG PBX 2) User @101 Call User @201 201 State warded 3) PBX @201 sends Facility Message to Signal For PBX QSIG 1) User @201 has calls forwarded to User @401 Frame Relay 101 4) PBX @101 tears down call @ QSIG 201 and PBX p lac es ne w call t oU 401 s er @ 401 Figure 1-8.
PRI Supplementary Service QSIG PBX 201 1) Active Call between User @101 & User201 PBX QSIG Frame Relay 101 QSIG PBX 401 2) User @101 tries to make call to User @101 3) PB @101 sends back busy indication 4) PBX @410 "camps on" User @101 using "D" Channel Only Messages 5) PBX @401 places call when User @101 is free Figure 1-10.
Vanguard 6455 Requirements for Bisync Vanguard 6455 Requirements for Bisync Vanguard 6455 Requirements The guidelines below are required when using the BSC 3270-to-SNA Conversion feature: • 32 Meg SIMM Memory Module • Local Dynamic Port Creation Heap Size needs to be configured for Bisync and AS/400 Note When setting the Local Dynamic Port Creation Heap Size, refer to the Ease of Configuration information located in the following section.
Vanguard 6455 Requirements for Bisync Enable Ease of Configuration Introduction This section explains how to configure and set up your Vanguard device for Ease of Configuration. Device Memory Ease of Configuration is a memory intensive function. Therefore, be sure that your node has the maximum amount of RAM it can handle. For information about memory capacity, refer to the installation guide that came with your device.
Configuring the Parameters This table explains how to configure the two parameters: Step Action 1 From the Main menu, select Configure. 2 From the Configure menu, select Node. 3 Press ENTER until the parameter *SHARED Dynamic Port Creation Heap Size appears. Enter the maximum value (16000000). 4 Press ENTER again. The parameter *LOCAL Dynamic Port Creation Heap Size appears. Type the maximum value (16000000). 5 Press ; (semi-colon) and then press ENTER. 6 Perform a Node Boot (Warm).
Chapter 2 Hardware Description Overview Introduction This chapter describes the Vanguard 6435 and Vanguard 6455 and the hardware components that make up the devices.
Enclosure Enclosure Introduction This section describes the following: • • • • Enclosure Vanguard 6435/6455 enclosures Motherboard Front panel Rear panel The Vanguard 6455 fits into a low profile enclosure that can be used on a desktop or mounted into a standard 19-inch equipment rack. The Vanguard 6455 enclosure contains a 110/220 Vac power supply with the power switch and receptacle on the rear panel.
Enclosure The front panel display has a 16-character LCD display which provides Vanguard 6435/6455 status messages. These are especially useful during the power-up sequence when software loading and booting messages appear. For a full description of all display messages, refer to the “Front Panel Display Messages” section in Chapter 4. Rear Panel Figure 2-2 shows a Vanguard 6455 rear panel and Figure 2-3 shows a Vanguard 6435 rear panel.
Enclosure Ports 7, 8, 9 Daughtercard Slot 1 Ports 10, 11, 12 Daughtercard Slot 2 (note 1) Ports 13, 14, 15 Daughtercard Slot 3 (note 2) Port 1 Port 2 Port 3 Port 4 RJ45 DB25 RJ45 DB25 CTP Sync/Async Sync/Async Async Terminal DIM DIM Port 5 RJ45 Ethernet 10-BaseT Ports 17 to 32 Option Card Slot 1 Ports 33 to 48 Option Card Slot 2 Figure 2-4.
Enclosure Serial Numbers There are two serial numbers on the Vanguard 6455 rear panel (see Figures 2-2 and 2-3): • Software Serial Number: Indicates the version of software running in your unit. • Hardware Serial Number: Indicates the version of hardware in your unit. Refer to these serial numbers when contacting your Vanguard Managed Solutions Service Representatives. Note On the Vanguard 6435, the serial numbers are underneath the unit.
Motherboard Motherboard General Description The Vanguard 6435 motherboard contains 4 Mbytes FLASH and has 16 Mbytes of SDRAM (synchronous DRAM) on an attached DIMM (expandable to 32 Mbytes of SDRAM). The Vanguard 6455 has 32 Mbytes of SDRAM. The motherboard has connectors for: • FLASH expansion: 4 Mbyte SIMM • Vanguard 6435 - SDRAM Expansion: 16 Mbyte DIMM standard, 32 Mbyte optional. When using 8Mbyte flash, 32 Mbyte is recommended.
Motherboard Access the Motherboard To access the motherboard components you must remove the motherboard from the enclosure. • For information about removing and installing the motherboard refer to the “Accessing the Motherboard” section in Chapter 3. • For information about removing or installing motherboard components, refer to the “Modifying Your Vanguard 6435/6455” section in Chapter 3.
Motherboard Switch Settings for V.11, V.35, V.36, DSU Switch Settings for V.24 Figure 2-7. Settings for DIM DIP Switches This table details the DIM DIP switch settings: Switch Number Test Mode Switch V.11, V.35, V.36, DSU V.24 1 Off On 2 Off On 3 Off On 4 Off On 5 Off On 6 On Off 7 On Off 8 On Off Figure 2-8 shows the Test Mode switch and this table explains the function of each switch setting. Default CTP Reserved P1 P2 Not Used RI RI MB MB Figure 2-8.
Motherboard SIMMs 5: Reserved — — 6: Default CTP — Off: Port 4 becomes 9600/ 8/N, APAD, or ATPAD 7 Not Used 8 Not Used The motherboard has two slots for SIMMs: • FLASH: This connector takes a FLASH SIMM to increase the node’s FLASH memory. • Data Compression/Encryption: Set on its side, this connector take a SIMM to provide data compression capabilities or a SIMM to provide encryption. Caution Be sure to place the FLASH, Data Compression, and Encryption SIMMs in the correct slot.
Motherboard 8-Meg FLASH Devices PN - "IW388X1-R-120" PN - "EDI7F492MC120BNC" The FLASH SIMM Device Part Number (PN) can be found in small print on the face of the SIMM device. For further assistance, please call VanguardMS Service.
Vanguard Daughtercards Vanguard Daughtercards Introduction The Vanguard 6455 and 6435 can support these standard Vanguard Daughtercards: • DIM (X.21/V.24/V.35/V.
Vanguard Daughtercards DIM Daughtercard This card supports a single V.11, V.24, V.35, or V.36 DIM (Digital Interface Module) and can be set as either a DTE or DCE. Figure 2-10 shows the DIM Daughtercard connector as it appears on the back panel. DIM SITE Figure 2-10. DIM Daughtercard Connector 56 K DSU/CSU Daughtercard The DSU Daughtercard provides an RJ48S connector and can support speeds of 56 kbps (synchronous). It conforms to AT&T 62310 point-to-point and multipoint, and to ANSI T1/E1.
Vanguard Daughtercards BRI U Figure 2-12. ISDN BRI-U Daughtercard Connector ISDN & enhanced ISDN BRI-S/T Daughtercard This card provides 2B+D Channel through a BRI S/T interface. It conforms to ITU I.430, is LAPD:ITU Q.921 compliant, and supports: • Integral X.31 • Q.
Vanguard Daughtercards BRI S S-BUS HI Z S-BUS 100Ω Figure 2-14. ISDN BRI Voice Daughtercard Connectors RemoteVU (Video) Daughtercard The RemoteVU Daughtercard provides complete end-to-end solution for the transport of video images over low bandwidths (as low as 2.4 kbps). It is ideal for applications such as security surveillance and remote monitoring. The daughtercard has three ports: • RJ-45 connector: for camera controls (such as pan-tilt-zoom).
Vanguard Daughtercards 1 2 FXS-1 FXS-2 LOC REM Figure 2-17. 2-Port Voice FXS Daughtercard Connectors Note Calls between two FXS ports within the same Vanguard 6435/6455 are not supported. 4-Port Voice FXS Daughtercard The Vanguard Quad FXS Daughter Card is supported on the Vanguard 6435 and 6455. The 4-Port Voice FXS Daughtercard has four RJ11 connectors for four FXS Ports.The new software for this card is in release 6.0.
Vanguard Daughtercards Figure 2-21. Overview of FXO Daughtercard FT1/FE1 Daughtercards The FT1/FE1 Daughtercards allow a Vanguard 6435/6455 to transfer data over a T1 or E1 network. The daughtercards support full and fractional T1 or E1 speeds. • The FE1 Daughtercard provides line rates 2.048 Mbps and data rates of n x 64 kbps (where n is 1 to 31) per channel. • The FT1 Daughtercard provides line rates 1.544 Mbps and data rates of n x 56 kbps (where n is 1 to 24) per channel.
Vanguard Daughtercards Dual E&M Daughtercard The Dual E&M Daughtercard has two E&M interfaces. The ports use RJ11 connectors. Figure 2-23 shows the Dual E&M Daughtercard connectors as they appear on the back panel. Figure 2-23. Dual E&M Daughtercard Connectors V.34 Modem Daughtercard The V.34 modem daughtercard is essentially a 3460 modem that can be installed in a Vanguard 6435 or Vanguard 6450. Once the card is in your unit, it performs as if it were an external modem.
Enhanced Vanguard Daughtercards Enhanced Vanguard Daughtercards Introduction This section describes the Enhanced Vanguard Daughtercards currently supported by the 6435 and 6455.
Enhanced Vanguard Daughtercards 10/100BaseT Enhanced Daughtercard Introduction The 10/100BaseT Enhanced Vanguard Daughtercard conforms to the Fast Ethernet specification (IEEE 802.3u) known as 100BaseT. This LAN standard has raised the Ethernet speed limit from 10 Megabits to 100 Megabits per second. Furthermore, the card has an auto-sensing feature that allows it to determine if the connection is 10BaseT or 100BaseT and adjust its speed as required.
Enhanced Vanguard Daughtercards Configuring the 10/100BaseT Card The Vanguard 6435/6455 supports only one 10/100BaseT Enhanced Vanguard Daughtercard at a time. However, the Vanguard 6435/6455 can simultaneously support the onboard Ethernet 10BaseT port (Port 5) and the 10/100BaseT port (either Port 10 or Port 13, depending on the card’s location).
Enhanced Vanguard Daughtercards ATM Enhanced Daughtercard Introduction This section describes how to install a T1/E1 ATM Enhanced Daughtercard (Figure 2-27) into a Vanguard 6435 or Vanguard 6455. They support a maximum of two ATM EDCs; each connecting a single port to either a T1 or E1 leased line network. T1 ATM Enhanced Daughtercard E1 ATM Enhanced Daughtercard Figure 2-27. ATM T1/E1 EDCs ATM E1 Switch Settings The E1 version of the ATM Enhanced Daughtercard contains a block of DIP switches.
Enhanced Vanguard Daughtercards Figure 2-30. ATM Enhanced Daughtercard Rear Panel: E1 Version ATM EDC Figure 2-31 identifies the connector pinouts found in the RJ48C connectors of both Connector Pinouts T1 and E1 versions of this Enhanced Daughtercard. Figure 2-32 identifies the pinouts of BNC connectors found on the E1 version.
Enhanced Vanguard Daughtercards T1E1 ATM Port Configuration If you are running T1 ATM on a Vanguard 6435 or 6455 Series product, the AAM port may not function after upgrading to release 6.0.R00A or greater (when certain parameters are not at default). You must have local CTP access to the node if this is the case. Do not upgrade to release 6.0.R00A if you have no other way to access the CTP than through ATM. The ATM connection could be down after booting in Release 6.0.R00A or greater.
Enhanced Vanguard Daughtercards Vanguard 6435 and 6455 ATM Compression Support Introduction Release 6.3 and greater supports the use of compression on a Vanguard 6435 and 6455. Prior to release 6.3 ATM was not designed to support compression over an AAM station (connecting via PVC to LCON stations). Main Menu->Configure->Configure Network Services Node: 6.3_TEST Address: 63 Menu: Configure Network Services 1. 2. 3. 4. 5. 6. 7. 8. 9. 10. Date: 7-FEB-1999 Time:1:17:59 Path: (Main.6.
Vanguard 6455 Option Cards Vanguard 6455 Option Cards Introduction This section describes the Vanguard 6455 Option cards that are currently supported. These include: • “SDB4 Option Card” on page 2-26 • “Token Ring Card” on page 2-28 • “Voice over IP Convergence Card” on page 2-29 For instructions for installing the cards into a Vanguard 6455, refer to the “Installing/Removing Vanguard 6455 Option Cards” section in Chapter 3.
Vanguard 6455 Option Cards SDB4 Option Card Description The SDB4 Option Card shown in Figure 2-34 is an optional card for the Vanguard 6455 that provides four high speed Sync/Async ports. The card can plug into either or both Option Card slots in the Vanguard 6455 chassis. P2 Switch Settings For Switch 5 (Test Mode Switch) P1 P0 P3 RI RI MB RI RI MB MB MB Switch Settings for V.11, V.35, V.36, DSU (Ports 0, 1, 2, 3) Switch Settings for V.
Vanguard 6455 Option Cards DIMs The SDB4 Option Card supports DIMs that allow the rear panel connectors to function as V.11, V24, V.35, or V.36 ports. Depending on how the DIMs are placed, the ports act as DTE or DCE. Refer to Figure 2-34 for details. DIM DIP Switches Depending on the type of DIM, the DIP switches on the SDB4 card must have either of two settings shown in Figure 2-34 and in this table: Switch Number Test Mode Switch V.
Vanguard 6455 Option Cards Token Ring Card Description The Token Ring Option Card, shown in Figure 2-35, is an optional card for the Vanguard 6455 that provides the following features: • • • • • Routing, Source Route Bridging, and LLC conversion Bridging between Ethernet port and Token Ring Port (Translational Bridging) Shared token rings with dedicated connection to file servers 4-Mbps or 16-Mbps connections STP (DB9) and UTP (RJ45) cable types Note Only one Token Ring Card can be used in a 6455 at one
Vanguard 6455 Option Cards Voice over IP Convergence Card Description The Voice over IP (VoIP) Convergence Card, shown in Figure 2-36, is an optional card for the Vanguard 6455. Coupled with DSP SIMM cards that mount to this option card, the VoIP Convergence Card provides these features: • Supports 30 voice channels for the E1 card and 24 voice channels for the T1 card. • Supports 31 virtual data ports for the E1 card and 24 virtual data ports for the T1 card.
Vanguard 6455 Option Cards Each Vanguard 6455 can support two of either the T1 or E1 version of the VoIP Convergence Card. You cannot, however, install one of each card version in any one Vanguard 6455. When cards are installed in a Vanguard 6455, interfaces are assigned as illustrated in Figure 2-37. T1/E1 interfaces 4 and 5 T1/E1 interfaces 6 and 7 Figure 2-37.
Vanguard 6455 Option Cards Alarm LEDs Each interface is supported by an alarm LED that illuminates whenever an error is detected on the T1/E1 interface. Rear Panel Connectors The T1 version of the VoIP Convergence Card has two RJ48C connectors. The E1 version of the card has two RJ48C and four BNC connectors. Figures 2-40 and 2-41 show these connectors.
Vanguard 6455 Option Cards E1 Card Impedance These jumpers reside behind the BNC connectors on the VoIP Convergence Card Jumper Settings (see Figure 2-36 and Figure 2-43). Use these jumpers to ground the Tx ring and/or the Rx ring on the BNC connectors. these jumpers control the BNC pair directly in front of them. This table details the jumpers’ use: Description The terminals are balanced and are not grounded.
Vanguard 6455 Option Cards Description The TRing (the coax shield for the Tx pair) is grounded directly. The Rring (the coax shield for the Rx pair) is grounded directly. The TRing (the coax shield for the Tx pair) is grounded directly. The Rring (the coax shield for the Rx pair) is grounded through a decoupling capacitor. Rx Use This configuration may be used with certain unbalanced 75Ω coax E1 networks.
Vanguard 6455 Option Cards 2-34 Hardware Description
Chapter 3 Installation and Replacement Overview Introduction This chapter provides instructions for the following tasks: • • • • Installation and Replacement Installing a Vanguard 6435/6455. Modifying your unit. Installing and replacing the battery. Turning the battery on and off.
Checking Your Shipment Contents Checking Your Shipment Contents List of Contents Before you install the Vanguard 6435/6455, make sure your shipment contents are complete. The Vanguard 6435/6455 is packaged in shock-absorbent packing material. Inside your shipping carton, you should find the contents shown in Figure 3-1.
Installing The Vanguard 6435/6455 Installing The Vanguard 6435/6455 Introduction This section explains how to install the Vanguard 6435/6455. It consists these sections: • Selecting and preparing the installation site. • Standalone installation. • Rack mount Installation (6455 only). • Thermal considerations. • Cabling. After the Vanguard 6435/6455 is installed and cabled, go to Chapter 4, Powering Up Your Vanguard 6435/6455 for instructions for powering-up the unit.
Installing The Vanguard 6435/6455 Installing the Standalone Version How to Choose a Site Before you install a standalone version of the Vanguard 6435/6455, select a site for the device. Choose a site that is within an appropriate distance of a power source. Depending on your application, and the country in which the Vanguard 6435/6455 is to operate, the power source must be a grounded 110 to 220 Vac outlet.
Installing The Vanguard 6435/6455 Installation Complete these steps to install the stand-alone version: Step Action 1 Unpack the Vanguard 6435/6455, and inspect the unit to ensure you have all the components. 2 Install any daughtercards, option cards, SIMMs, or DIMs that you need to add to the unit, as necessary. 3 Be sure that the four rubber feet are on the bottom of the enclosure. 4 Attach the power cord and cables to the rear panel.
Installing The Vanguard 6435/6455 Installing the 6455 Rack Mount Version Introduction This section explains how to install the rack mount version of the Vanguard 6455. Be sure that you have the mounting brackets that came with the unit. Installation Variation Rack-Mount Cautions When rack-mounting a Vanguard 6455, you can orient the unit in either of two ways: • Front Panel Forward: The front panel faces the front of the rack. This allows you to easily read the LCD panel display.
Installing The Vanguard 6435/6455 Installation Figure 3-3 explains how to install a Vanguard 6455 into an equipment rack. Large Mounting Bracket Extension Bracket Small Mounting Brackets For racks smaller than 24”, use the small mounting brackets in the rear. Front Mounting Bracket 1 Note: Do not remove the rubber feet from the bottom of the enclosure. The rubber feet prevent multiple Vanguard 6455s from being stacked too closely (and restrict air flow).
Installing The Vanguard 6435/6455 Thermal Considerations Introduction This section explains some of the heat and temperature factors that can affect your Vanguard 6435/6455. Fan After the unit is installed, power it up and check that the fan is working properly.The feet must be installed and air should be blowing out of the unit. 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.
Installing The Vanguard 6435/6455 Cabling Your Vanguard 6435/6455 Introduction This section provides information to help you cable your Vanguard 6435/6455. Caution Before connecting cables to the motherboard or daughtercard ports (ports 1 to 15), be sure that the screws holding the motherboard in place are tight. If the screws are loose, the motherboard could loosen under the weight of the cables and cause damage to the equipment.
Installing The Vanguard 6435/6455 Caution Do not connect the Ports 3, 4, or 5 to the Public Communications Network. Note When installing a daughtercard with only one port, the port number is 7, 10, or 13 (depending on the location of the card). Rear Panel Ports There are five physical ports on the Vanguard 6435/6455 rear panel. Ports 1 and 2 These ports have Sync/Async DB25 connectors. Depending on the DIM installed, they can support V.11, V24, V.35 and V.36.
Installing The Vanguard 6435/6455 DB25 V.
Installing The Vanguard 6435/6455 DB25 V.35/V.36 Pinouts (continued) Pin Signal DCE Position DTE Position 18 RXCB OUT IN 20 DTR IN OUT 21 TXCB OUT IN 22 ETXCB IN OUT 24 ETXCA IN OUT 25 (V.36 only) TM NC IN DB25 V.11/X.
Installing The Vanguard 6435/6455 This table shows the pinouts for RJ-45 connectors for Ports 3 and 4: Pin Number Port 3/Port 4 (CTP) Signal DCE 1 RTS Input 2 DTR Input 3 RXD Output 4 DCD Output 5 GND ------- 6 TXD Input 7 DSR Output 8 CTS Output Note Use Ports 3 and 4 only with low speed asynchronous protocols. Running asynchronous protocols at speeds greater than 19.2 kbps may degrade node performance.
Installing The Vanguard 6435/6455 Cabling Daughtercards For instructions on cabling your standard Vanguard Daughtercards, refer to the Vanguard Daughtercard Installation Guide (Part Number T0020). For instructions on cabling your Enhanced Vanguard Daughtercards, refer to the “Installing/Removing Enhanced Vanguard Daughtercards” section on page 3-27. Cabling SDB4 Option Card The SDB4 Option Card comes with two Y-Cable Adapters as shown in Figure 3-7.
Modifying Your Vanguard 6435/6455 Modifying Your Vanguard 6435/6455 Introduction You can modify your Vanguard 6435/6455 by adding or replacing components on the motherboard. In addition, if you have a Vanguard 6455, you can add and replace Option Cards. This section explains how to make these modifications. Daughtercards You can install up to three Vanguard Daughtercards in the Vanguard 6435/6455.
Modifying Your Vanguard 6435/6455 Accessing the Motherboard Introduction This section explains how to access the motherboard for the Vanguard 6455 and the Vanguard 6435. It also identifies the location of the key motherboard components. Before replacing DIMs, SIMMs, batteries, or daughtercards, or setting DIP switches, you must access the Vanguard 6435/6455 motherboard. Note Because the 6455 and the 6435 have different enclosures, the procedures for accessing the motherboard is different for each device.
Modifying Your Vanguard 6435/6455 Caution When inserting the motherboard, be sure the screws are tight. If they are loose, the motherboard could become unseated under the weight of the attached cables. Removing the Motherboard 1 Power down the unit and remove the cables and power cord. 2 Loosen the two captive screws on either side of the motherboard rear panel. 3 Use the ejector lever to carefully slide out the motherboard. 4 Place the motherboard on a clean flat surface.
Modifying Your Vanguard 6435/6455 Instructions for the Figure 3-9 shows how to access the Vanguard 6435 motherboard. Figure 3-10 shows 6435 the location of the components on the motherboard. Warning To prevent injury and damage to the equipment, power down the unit and disconnect the power cord before you remove or install the motherboard.
Modifying Your Vanguard 6435/6455 Caution Some components used in the 6435 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. Mise en Garde Certains composants du 6435 sont sensibles aux décharges électrostatiques qui peuvent les endommager.
Modifying Your Vanguard 6435/6455 Motherboard Components Figure 3-10 shows the components on a Vanguard 6435/6455 motherboard. Enhanced Vanguard Daughtercard Slots 2 and 1 Battery Daughtercard Slot 3 Port 2 Switch 1 SDRAM DIMM Slot DIM Slot 2 LCD Display Connector * Power Supply Connector * Fan Connector * * 6435 only. DIM Slot 1 Flash SIMM Slot Daughtercard Slot 2 Data Compression/ Encryption SIMM Slot Port 1 Switch 3 Test Mode DIP Switches Daughtercard Slot 1 Figure 3-10.
Modifying Your Vanguard 6435/6455 DIMs, SIMMs, DIMMs and Switches Introduction The appropriate DIMs and SIMMs should have been installed on the motherboard at the factory. If they are not, you can install the components. This section explains how to: • Add and remove DIMs. • Setting DIM DIP Switches. • Add and remove SIMM and DIMMs (SDRAM, FLASH, Data Compression, Encryption). • Set Switches. For instructions for removing the motherboard, refer to the “Accessing the Motherboard” section on page 3-16.
Modifying Your Vanguard 6435/6455 Note: You can install the DIMs only one way because Pin 4 is larger than the others. Note: When installing a different DIM, be sure to change the DIP switch setting. DIM Motherboard Rear Panel Switch Settings for V.11, V.35, V.36, DSU DIM Switch Settings for V.24 DIM DTE DCE Figure 3-11. DIM Replacement and Switch Settings Setting DIM DIP Switches The two DIM DIP switches are set at the factory.
Modifying Your Vanguard 6435/6455 Adding or Removing SDRAM DIMMs Figure 3-12 shows how to add or remove a SDRAM (synchronous DRAM) DIMM. Refer to Figure 3-10 for the location of the SDRAM DIMM, (Slot U66). For instructions for removing the motherboard, refer to the “Accessing the Motherboard” section on page 3-16. Caution Some components used in the 6435/6455 are sensitive to static electric discharges; static electric discharges can cause damage to internal components.
Modifying Your Vanguard 6435/6455 SDRAM DIMM Adding SDRAM DIMM 1 Insert the DIMM into the slot at as shown here. 2 Carefully press the DIMM into the socket. 3 Lock the DIMM into place with the locking levers. SDRAM DIMM Slot Locking Lever Removing SDRAM DIMM 1 Disengage the locking levers by pushing them outward. 2 Lift out the DIMM. Figure 3-12.
Modifying Your Vanguard 6435/6455 Adding/Removing a FLASH/Data Compression/ Encryption SIMM Figure 3-13 shows how to add or remove a FLASH or Data Compression SIMM for the Vanguard 6435/6455. Refer to Figure 3-10 for the location of the SIMM slots: • Data Compression SIMM or Encryption SIMM: Slot U108 • FLASH SIMM: Slot U57 Caution Be careful when installing a Data Compression SIMM or a FLASH SIMM.
Modifying Your Vanguard 6435/6455 To Install the FLASH SIMM: Insert the SIMM into the connector at a slight angle, then straighten it and push the locking tabs through the holes.You will hear the clips click into place. To Remove the FLASH SIMM: Use your fingers to push back the two metal retaining clips and lift out the SIMM.
Modifying Your Vanguard 6435/6455 Installing/Removing Enhanced Vanguard Daughtercards Introduction This section explains how to install an Enhanced Vanguard Daughtercard into a Vanguard 6435/6455 enclosure. For a detailed description of the 10/100BaseT Enhanced Vanguard Daughtercard, refer to the “Enhanced Vanguard Daughtercards” section in Chapter 2. Note Before you can install or replace an Enhanced Vanguard Daughtercard, you must first access the Vanguard 6435/6455 motherboard.
Modifying Your Vanguard 6435/6455 Instructions To install (and remove) Enhanced Vanguard Daughtercards, perform the steps as shown in Figure 3-14: Mounting Screw Holes Note: Enhanced Vanguard Daughtercards can be installed in only the two right-most daughtercard slots as seen from the rear of the motherboard. Remove an Enhanced Vanguard Daughtercard 1 Locate the Enhanced Vanguard Daughtercard you want to remove and loosen the captive screws that are holding it to the back panel.
Modifying Your Vanguard 6435/6455 Installing/Removing Vanguard 6455 Option Cards Introduction This section explains how to install an optional Option Card into a Vanguard 6455 enclosure. (Option Cards do not operate in a Vanguard 6435.) For a detailed description of the SDB 4-Port Sync/Async card, including information about DIP switch settings, turn to the “Vanguard 6455 Option Cards” section in Chapter 2. Instructions Figure 3-15 explains how to install an Option Card into a Vanguard 6455.
Modifying Your Vanguard 6435/6455 Install an Option Card Remove an Option Card 1 Locate the option card you want to remove and loosen the captive screws. 2 Carefully slide out the option card. 1 Locate the option card slot you want to use and remove the filler panel by loosening the captive screws. 2 Carefully slide the option card into the card guides within the opening. Press into place, making sure the edge connectors seat properly.
Installing/Removing the Lithium Battery Installing/Removing the Lithium Battery Introduction Vanguard 6435/6455 uses a lithium battery on the motherboard to maintain the node’s realtime clock. The battery is not used to store the configuration memory. This section explains how to replace the battery. Warning Only qualified service personnel should perform the procedure described in this section.
Installing/Removing the Lithium Battery Routine Battery Replacement The lithium battery should be replaced every two years. Follow the instructions in Figure 3-16 to replace the battery. Before Removing/ Installing the Battery Before you remove or install the battery, you must access the Vanguard 6435/6455 motherboard as described in the “Accessing the Motherboard” section on page 3-16. Removing/ Installing the Battery Figure 3-16 shows how to install and replace the battery.
Installing Flash and CMEM Installing Flash and CMEM Introduction Release 6.2 and greater allows the Vanguard 6435 and 6455 to increase the FLASH memory and expand the CMEM area. Existing Vanguard 6435 and 6455’s can be updated to 8 Mbyte SIMM as long as the bootprom is also updated. A new bootprom is required to support the 12mb Flash option with the 128 kbyte CMEM. To use 128k CMEM, 8 Mbyte SIMM must be installed and the bootprom updated.
Installing Flash and CMEM Step Description 3 Power down the node and install the 8MEG flash SIMM. Power up the node. The node will come up, both flash banks will show "0" bytes and the CMEM will be cleared. 4 Use Vanguide only to download 6.2 image. 5 Download your saved CMEM. Method 2 This is the cleanest way to accomplish the upgrade to an 8MEG flash SIMM and is the preferred method. Step Description 1 Save CMEM.
Installing Flash and CMEM Considerations Regarding upgrades to release 6.2, it is recommended that method 2 should be used whenever possible. 1) When using Vanguide to upgrade to release 6.2, refuse the bootprom upgrade when asked, unless you have an 8MEG flash SIMM already installed. Then when upgrading to 8MEG is desired, follow recommendation "2" below. 2) If the node to be upgraded still has the 5.1 bootprom with a 6.2 image, it is recommended that you download a 6.
Chapter 4 Powering Up Your Vanguard 6435/6455 Overview Introduction This chapter explains how to: • Power up your Vanguard 6435/6455. • Ensure that the unit powered up correctly and is up and running by reading the front panel display. • Load the Vanguard 6435/6455 software.
Power Up Procedure Power Up Procedure Introduction This section explains how to power up the Vanguard 6435/6455. Procedure Follow these steps to power up your Vanguard 6435/6455. Step Action 1 Check that all the cards are fully inserted and secure. 2 Make sure that the AC power cord is plugged in. 3 Set the power switch to On. 4 Check that the fan is operating. 5 Check that the front panel LCD displays the proper messages as described in the next section.
Power Up Sequence Power Up Sequence Introduction One of two processes occur when you power up the Vanguard 6435/6455: • The Vanguard 6435/6455 coldloads the operating software (Applications Ware) and then initiates a node boot. • The Vanguard 6435/6455 initiates a node boot using previously loaded operating software (Applications Ware). During the software loading and boot process, a series of messages appear on the front panel display. These message sequences are described below.
Power Up Sequence Booting the Node This table shows the sequence of LCD messages that appear when a Vanguard 6435/6455 already contains the Applications Ware software and is being booted: Step Display Message 1 BootPROM Vnn 2 Loading FIPL 3 Loading FBIST 4 Testing Node 5 BootPROM Vnn 6 Loading FIPL 7 Loading ONS 8 Booting ONS 9 --- Node Up --- Note: nn is the version number. Note Digital Voice ports (Vanguard 6455) are booted twice when the node is warm booted.
Operating Front Panel Messages Operating Front Panel Messages Introduction During normal operation, the Vanguard 6435/6455 displays a series of four messages on the front panel. They appear for several seconds and are rotated in sequence. Operating Displays This table lists the normal front panel messages: Display Message --Node Up-- Description The node is running. Vanguard 6435 or Vanguard 6455 The model type. S5.4.
Front Panel Display Messages Front Panel Display Messages Description This section consists of a table explaining all the Vanguard 6435/6455 front panel messages: Display Message 4-6 Description BootPROM Vn.n Indicates the revision of the Boot Prom software. This is displayed after power up and when the node is reset. Booting ONS The node is booting (operating software is being started). Coldload Done When the image has successfully loaded into FLASH, this message appears for 5 seconds. CPU Util.
Loading the Software Loading the Software Introduction This section briefly describes how to load the software into your Vanguard 6435/6455. Note After the software has been loaded, refer to the appropriate user document to configure and use the different software options. Operating Software The operating software is compressed in FLASH and loaded into SDRAM for execution. There are a variety of operating software feature sets available for the Vanguard 6435/6455.
Appendix A Specifications Overview Introduction This appendix describes the physical and electrical specifications for the Vanguard 6435 and Vanguard 6455. Dimensions Figure A-1 shows the exterior dimensions of the Vanguard 6455. 15.5 in. (39.2 cm) 17.5 in. (44.3 cm) 1.75 in. (4.43 cm) Figure A-1. Vanguard 6455 Exterior Dimensions Figure A-2 shows the exterior dimensions of the Vanguard 6435. 15.0 in. (38.1 cm) 12.5 in. (31.8 cm) 2.05 in. (5 cm) Including Feet Figure A-2.
Weight The Vanguard 6435/6455 weights are listed below: Vanguard Environment 6435 with three daughtercards installed. 8.1 lbs 6455 with three daughtercards and two feature cards installed. 13.2 lbs. Operating temperature: 32° to 98° F (0° to 40° C) Storage temperature: -40° to 158° F (-40° to 70° C) Relative humidity: 5% to 90% (non-condensing) Power Requirements Input voltage 100 to 240 Vac Input frequency: 50 to 60 Hz Input current: • 6435: 0.4 to 0.8 A • 6455: 1.7 to 0.
Appendix B 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 B-1
FCC Part 68 and Telephone Company Procedures and Requirements for DSU, T1, and ISDN Interfaces FCC Part 68 and Telephone Company Procedures and Requirements for DSU, T1, and ISDN Interfaces Before You Begin Before a Vanguard 6435/6455 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 How to Order Connections To order the proper connections, provide the telephone company with the follow
FCC Part 68 and Telephone Company Procedures and Requirements for DSU, T1, and ISDN Interfaces 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 may make changes in their equipment, operations, or procedures.
Product Declarations and Regulatory Information Product Declarations and Regulatory Information 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 Declarations of Conformity English Declaration of Conformity: Hereby, VanguardMS declares that this Vanguard Router is in compliance with the requirement and other relevant provisions of Directive 1999/5/EC.
Product Declarations and Regulatory Information Italian Dichiarazione di conformità: Con la presente VanguardMS dichiara che il router Vanguard soddisfa i requisiti essenziali e le altre disposizioni pertinenti della direttiva 1999/5/CE. Portuguese Declaração de Conformidade: Através da presente, a VanguardMS declara que este encaminhador Vanguard se encontra em conformidade com os requisitos essenciais e outras disposições relevantes da Directiva 1999/5/CE.
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.
Product Declarations and Regulatory Information Radio Frequency Interference Regulations This equipment has been tested and found to comply with the limits for a Class A digital device, pursuant to Part 15 of the FCC Rules, CISPR 22 and EN 55022. These limits are designed to provide reasonable protection against interference in a residential installation.
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 Managed Solutions subsidiary or distributor. Equipment Return Procedures If you have questions about equipment return procedures, on-site service or unit exchange service call the Vanguard Managed Solutions Technical Support Center at (800) 544-0062 for advice and assistance.
Factory Repair To return equipment for factory repair, call the Vanguard Managed Solutions Technical Support Center at (800) 544-0062, 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 Numerics B (Continued) 10/100BaseT Enhanced Vanguard Daughtercard connector pinouts 2-19 LEDs 2-19 2 Port Voice FXS Daughtercard 2-14, 2-15 56 K DSU/CSU Daughtercard 2-12 6435 features 1-3 port numbers 2-3 serial numbers 2-5 6435/6455 adding/replacing components 3-15 DIMs 2-7 enclosure 2-2 operating environment 3-4 port numbers 3-9 rack mount installation 3-6 rear panel 2-3 shipping contents 3-2 software support 1-5 standalone installation 3-4 6455 features 1-3 port numbers 2-3 serial numbers 2-5 B
F O (Continued) Factory repair 2 Fan 3-8 Features 1-3 Flash and CMEM installation 3-33 FLASH SIMM 2-9 add/remove 3-25 Front Panel Messages booting the node 4-4 coldloading 4-3 list 4-6 normal operations 4-5 FT1/FE1 Daghtercard 2-16 Ordering Connections facility interface code B-2 interface type B-2 service code B-2 USOC jack connector B-2 H Hardware Specifications A-1 Heat 3-8 I Inlet Temperature 3-8 Installation Instructions rack mount version 3-7 standalone version 3-5 ISDN BRI-S/T Daughtercard 2-13
T Telephone Company Procedures B-2 Temperature 3-8 Test Mode Switch 2-8 Thermal Considerations 3-8 Thermal Shutdown 3-8 Token Ring Option Card 2-28, 2-29 LED 2-28 port assignments 2-28 Troubleshooting connections B-2 U Unpacking parts list 3-2 V V.
