Avaya CS 1000 Series Installation And Commissioning Manual
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Avaya CS 1000 Series Installation And Commissioning Manual

Communication server, isdn basic rate interface
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ISDN Basic Rate Interface Installation and
Commissioning
Avaya Communication Server 1000
7.5
NN43001-318, 5.05
March 2011

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  • Page 1 ISDN Basic Rate Interface Installation and Commissioning Avaya Communication Server 1000 NN43001-318, 5.05 March 2011...
  • Page 2 Avaya fraud intervention the products, services, or information described or offered within them. Avaya does not guarantee that these links will work all the time and has If you suspect that you are being victimized by toll fraud and you need no control over the availability of the linked pages.

  • Page 3: Table Of Contents

    Chapter 2: Customer service....................7 Navigation.................................7 Getting technical documentation........................7 Getting product training.............................7 Getting help from a distributor or reseller......................7 Getting technical support from the Avaya Web site..................8 Chapter 3: Introduction......................9 Subject................................9 Note on legacy products and releases.....................9 Applicable systems............................10 Intended audience............................10 Conventions..............................10...
  • Page 4 Chapter 6: Preparing the system...................45 Contents................................45 Introduction..............................45 Verifying ISDN BRI operation..........................45 Setting up ISDN BRI test terminals and trunks....................46 Set up ISDN BRI terminals........................46 Chapter 7: Configuring ISDN BRI hardware................51 Contents................................51 Hardware requirements...........................51 Line and packet data applications......................51 ISDN BRI trunking..........................53 Configuring ISDN BRI trunking with IP expansion cabinets or Media Gateway systems.......53 Installation procedures............................54 Summary..............................54...

  • Page 5: Chapter 1: New In This Release

    There are no updates to the feature descriptions in this document. Other Revision History March 2011 Standard 05.05. This document is up-issued to support Avaya Communication Server 1000 Release 7.5. March 2011 Standard 05.04. This document is up-issued to support Avaya Communication Server 1000 Release 7.5.
  • Page 6 New in this release All references to Communication Server 1000 Release 4.5 are applicable to Communication Server 1000 Release 5.0. August 2005 Standard 3.00. This document is up-issued to support Communication Server 1000 Release 4.5. September 2004 Standard 2.00. This document is up-issued for Communication Server 1000 Release 4.0.

  • Page 7: Chapter 2: Customer Service

    Chapter 2: Customer service Visit the Avaya Web site to access the complete range of services and support that Avaya provides. Go www.avaya.com or go to one of the pages listed in the following sections. Navigation • Getting technical documentation on page 7 •...

  • Page 8: Getting Technical Support From The Avaya Web Site

    Customer service Getting technical support from the Avaya Web site The easiest and most effective way to get technical support for Avaya products is from the Avaya Technical Support Web site at www.avaya.com/support. ISDN Basic Rate Interface Installation and Commissioning...

  • Page 9: Chapter 3: Introduction

    Chapter 3: Introduction This document is a global document. Contact your system supplier or your Avaya representative to verify that the hardware and software described are supported in your area. Note the following: • ISDN Basic Rate Interface (BRI) trunking is not available in North America.

  • Page 10: Applicable Systems

    Introduction Applicable systems This document applies to the following systems: • Avaya Communication Server 1000M Single Group (CS 1000M SG) • Avaya Communication Server 1000M Multi Group (CS 1000M MG) • Avaya Communication Server 1000E (CS 1000E) Intended audience This document is intended for individuals responsible for the planning, engineering, and administration of the applicable system.

  • Page 11: Technical Documents

    • Avaya Features and Services Fundamentals, NN43001-106 • Avaya Software Input Output Administration, NN43001-611 • Avaya Software Input Output Reference - Maintenance, NN43001-711 Online To access Avaya documentation online, go to Avaya home page: www.avaya.com ISDN Basic Rate Interface Installation and Commissioning March 2011...
  • Page 12 Introduction ISDN Basic Rate Interface Installation and Commissioning March 2011...

  • Page 13: Chapter 4: Preparing For Installation

    When installing a system, address the following factors. • environmental • structural • electrical For more information see Avaya Communication Server 1000M and Meridian 1 Large System Planning and Engineering (NN43021-220). After the site is planned, the following items must be completed prior to ISDN BRI installation.

  • Page 14: Unpacking And Inspecting

    Preparing for installation Unpacking and inspecting ISDN BRI cards and external communication cables are shipped in separate packages. To unpack them, follow the general precautions recommended by computer and telephone equipment manufacturers. • Remove items that generate static charge from the installation site. •...

  • Page 15: Chapter 5: Installing Isdn Bri Hardware

    Installing ISDN BRI hardware for line applications The following lists the procedures for installing ISDN BRI hardware for line applications. The system must already be installed and operating according to the instructions in Avaya Communication Server 1000M and Meridian 1 Large System Installation and Commissioning (NN43021-310) before performing these procedures.
  • Page 16 Installing ISDN BRI hardware 4. Install the S/T Interface Linecards (SILCs) and/or U Interface Linecards (UILCs) or Basic Rate Signaling Concentrators (BRSCs). 5. Connect ISDN BRI terminals. This procedure comprises the following: • Connect the system to the Main Distribution Frame (MDF). •...

  • Page 17: Misps

    MISPs Note: The following hardware is referred to generically as Media Gateway: • Option 11C Mini Chassis (NTDK91) and Expander chassis (NTDK92) - legacy hardware • Option 11C Cabinet (NTAK11) - legacy hardware • MG 1000E Chassis (NTDU14) • Expander chassis (NTDU15) is not supported •...

  • Page 18: Silcs/Uilcs

    Installing ISDN BRI hardware SILCs/UILCs • The cards are installed in the Core/Network Module or the IPE Module for all system options. Refer to the LD 20 printout to identify modules with unused peripheral card slots. • In each module, install a maximum of 15 SILCs, or eight UILCs combined with any other seven peripheral cards (including SILCs).
  • Page 19 MISPs Figure 1: NT8D35 Network module (Large System) Figure 2: NT8D37 IPE module (Large System) on page 19 shows the NT8D37 IPE module. Figure 2: NT8D37 IPE module (Large System) Figure 3: NT4N41 Core/Network module (Large System) on page 20 shows the NT4N41 Core/Network module.
  • Page 20 Installing ISDN BRI hardware Figure 3: NT4N41 Core/Network module (Large System) Remove the module cover for card installation To remove the covers from the modules with unused card slots, follow the procedure below. Refer to Figure 4: Module cover locking latches on page 21.
  • Page 21 MISPs Figure 4: Module cover locking latches Installing the MISP Once covers have been removed and card slot locations selected for ISDN BRI cards, install the MISP cards. 1. Hold the MISP by its card-locking devices. Squeeze the tabs to unlatch the card- locking devices and lift the tabs out and away from the card.
  • Page 22 Installing ISDN BRI hardware 1. Hold the MISP by its card-locking devices. Squeeze the tabs to unlatch the card- locking devices and lift the tabs out and away from the card. 2. Carefully remove the MISP from its card slot, and slowly slide the card from the module.
  • Page 23 MISPs 1. Connect the system to the MDF. 2. Cross-connect the MDF. 3. Connect the ISDN BRI terminals to the Digital Subscriber Line (DSL). Figure 5: Connect the ISDN BRI terminals to the Large System on page 23 shows a typical DSL with ISDN BRI terminals connected to it using modular cables.

  • Page 24: Connect The Modules To The Mdf

    Installing ISDN BRI hardware Connect the modules to the MDF Modules connect to the MDF using NE-A25B cables with 50-pin D-type male connectors on each end. One end of the cable plugs into the Input/Output (I/O) panel at the rear of the module, and the other end plugs into the MDF.

  • Page 25: Silc/Uilc Port Designations At The Mdf

    MISPs Figure 6: Connect the system to the MDF SILC/UILC port designations at the MDF Table 2: SILC port designations at the MDF: NT8D37 IPE module (16-cable configuration) page 26 and Table 3: UILC port designation labels at the MDF: NT8D37 IPE module (16- cable configuration) on page 27 provide SILC/UILC port designations at the MDF for the NT8D37 IPE.
  • Page 26 Installing ISDN BRI hardware Table 2: SILC port designations at the MDF: NT8D37 IPE module (16-cable configuration) ISDN Basic Rate Interface Installation and Commissioning March 2011...
  • Page 27 MISPs Table 3: UILC port designation labels at the MDF: NT8D37 IPE module (16-cable configuration) ISDN Basic Rate Interface Installation and Commissioning March 2011...

  • Page 28: Cross-Connecting The Mdf

    Building Cable Plan, which identifies wires between distribution frames and wall outlets. The Building Cable Plan is developed according to instructions in the "Planning the Site" section in Avaya Communication Server 1000M and Meridian 1 Large System Planning and Engineering (NN43021-220).
  • Page 29 MISPs Figure 7: Cross-connect the SILC port to the office wiring on page 30 and Figure 8: Cross- connect the UILC port to the office wiring on page 31 illustrate a cross-connection of an SILC port and an UILC port to the building wiring. ISDN Basic Rate Interface Installation and Commissioning March 2011...
  • Page 30 Installing ISDN BRI hardware Figure 7: Cross-connect the SILC port to the office wiring ISDN Basic Rate Interface Installation and Commissioning March 2011...
  • Page 31 MISPs Figure 8: Cross-connect the UILC port to the office wiring Table 4: NT8D37 IPE module SILC and UILC pair-terminations for connectors A, E, K, R (12- cable configuration) on page 31 shows pair-terminations for connectors. Table 4: NT8D37 IPE module SILC and UILC pair-terminations for connectors A, E, K, R (12-cable configuration) Port signals I/O panel...
  • Page 32 Installing ISDN BRI hardware Port signals I/O panel connectors Card SILC UILC Pairs Pair color port 1Tx - / 1Tx + 1T / 1R 28 / 3 W-G / G-W W-BR / 1Rx + / 1Rx - 29 / 4 BR-W 2Tx - / 2Tx + 2T / 2R...
  • Page 33 MISPs Port signals I/O panel connectors Card SILC UILC Pairs Pair color port 7Tx - / 7Tx + 7T / 7R 40 / 15 BK-S / S-BK Y-BL / 7Rx + / 7Rx - 41 / 16 BL-Y 0Tx - / 0Tx + 0T / 0R 42 / 17 Y-O / O-Y Y-G / G-Y...

  • Page 34: Connecting The Isdn Bri Terminals To The Dsl

    All ISDN BRI terminals should comply with CCITT, ANSI, ETSI NET-3, INS NET-64, National ISDN, 1TR6, Numeris VN2, and D70 standards for terminals, and be compatible with the system. For a list of compatible terminals, refer to the Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580).

  • Page 35: Connecting The Terminating Resistors

    MISPs Connecting the terminating resistors DSLs require that a terminating resistor be connected at the end of each loop. See Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580) for engineering rules and locations of terminating resistors. The end of the S/T interface loop has an RJ-45 jack to plug in the telephone cable.
  • Page 36 Installing ISDN BRI hardware Figure 9: Connect the ISDN BRI terminal to the S/T interface ISDN Basic Rate Interface Installation and Commissioning March 2011...

  • Page 37: Installing Isdn Bri Hardware For Trunk Applications

    This section explains how to install ISDN BRI hardware to support ISDN BRI trunk applications. The system must already be installed and operating according to the instructions in Avaya Communication Server 1000M and Meridian 1 Large System Installation and Commissioning (NN43021-310) before performing these procedures.

  • Page 38: Selecting The Card Slots

    The loop number and location of the primary and secondary clock source is configured in the Digital Data Block LD 73. Refer to the Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580). ISDN Basic Rate Interface Installation and Commissioning...
  • Page 39 Installing ISDN BRI hardware for trunk applications Providing clock referencing on the SILC Complete the following procedure to provide clock referencing on the SILC. Providing clock referencing on the SILC To install the NTRB53 Clock Controller for CS 1000 refer to NN43001-301 1.
  • Page 40 Installing ISDN BRI hardware Connecting clock reference cables 1. Search for available D-sub 9 connector slots on the I/O panels of the selected IPE and CE I/O modules (if the I/O panel is equipped with D-sub 9 connector slots). If none is available, look for an empty slot used for 25-pair wire connectors (the cables contain two adapter plates to convert a 25-wire slot to two D-sub 9 connector slots).

  • Page 41: Installing The Silc And The Uilc

    Installing ISDN BRI hardware for trunk applications Table 8: Clocks as differential pairs Differential pairs Pin # Row A Row B Primary +Ref 0A - Ref 0A Primary +Ref 1A - Ref 1A Secondary +Ref 0B - Ref 0B Secondary +Ref 1B - Ref 1A Automatic clock recovery is done upon the expiration of the free run guard timer.

  • Page 42: Card Location Forms

    Installing ISDN BRI hardware Figure 12: Connect the network termination to the U interface and to the S/T interface (in TE mode) Card location forms Use the following card location forms when installing SILC/UILC and BRSC cards. ISDN Basic Rate Interface Installation and Commissioning March 2011...
  • Page 43 Installing ISDN BRI hardware for trunk applications Table 9: Card location form: NT8D37 IPE module (16-cable configuration) Card type (SILC/ IPE Module IPE Module I/O panel SILC/UILC/BRSC UILC/BRSC) number slot number connector ports 0–7 0–7 0–7 0–7 0–7 0–7 0–7 0–7 0–7 0–7...
  • Page 44 Installing ISDN BRI hardware Card Type (SILC/ IPE Module IPE module I/O panel SILC/UILC or BRSC UILC or BRSC) number slot number connector ports 0–3 4–7 0–7 0–7 0–7 0–3 4–7 ISDN Basic Rate Interface Installation and Commissioning March 2011...

  • Page 45: Chapter 6: Preparing The System

    BRSC is enabled and operating correctly. If the red LED is lit, check that the BRSC is manually disabled or faulty. To enable a BRSC or to correct a problem, refer to Avaya ISDN Basic Rate Interface Maintenance (NN43001-718).

  • Page 46: Setting Up Isdn Bri Test Terminals And Trunks

    Preparing the system or a UILC or to correct a problem, refer to Avaya ISDN Basic Rate Interface Maintenance (NN43001-718). If all indicator LEDs on ISDN BRI equipment are extinguished (with the exception of the CC LED on an MISP), the equipment is functional and you can set up the terminals for this test.
  • Page 47 Setting up ISDN BRI test terminals and trunks Figure 13: ISDN BRI acceptance testing setup for terminals Set up ISDN BRI trunking - Local Exchange connectivity Figure 14: ISDN BRI acceptance testing setup for trunking - Local Exchange connectivity page 48 illustrates a typical configuration to test ISDN BRI Local Exchange connectivity. The ISDN BRI Local Exchange DSL is connected to a Network Termination (NT1) device, which is physically located on the same premises as the system.
  • Page 48 Preparing the system After you complete the acceptance testing setup, proceed with the test described in Testing ISDN BRI functions on page 81. Figure 14: ISDN BRI acceptance testing setup for trunking - Local Exchange connectivity Set up ISDN BRI trunking - TIE trunk connectivity Figure 15: ISDN BRI acceptance testing setup for trunking - TIE trunk connectivity on page 49 illustrates one configuration that can be used to test ISDN BRI TIE trunk connectivity.
  • Page 49 Setting up ISDN BRI test terminals and trunks Figure 15: ISDN BRI acceptance testing setup for trunking - TIE trunk connectivity ISDN Basic Rate Interface Installation and Commissioning March 2011...
  • Page 50 Preparing the system ISDN Basic Rate Interface Installation and Commissioning March 2011...

  • Page 51: Chapter 7: Configuring Isdn Bri Hardware

    Chapter 7: Configuring ISDN BRI hardware Contents This section contains information on the following topics: Hardware requirements on page 51 Line and packet data applications on page 51 ISDN BRI trunking on page 53 Configuring ISDN BRI trunking with IP expansion cabinets or Media Gateway systems page 53 Summary on page 54...
  • Page 52 ISDN Terminal Adapter provides a connection to an analog telephone and supports circuit- switched or packet data; supports B-channel and D-channel packet data. Any other terminal deemed compatible by Avaya. Terminal adapters Required if connecting non-BRI terminals to the ISDN BRI line interface. Network termination Required for conversion from a U to and S/T interface.

  • Page 53: Isdn Bri Trunking

    Configuring ISDN BRI trunking with IP expansion cabinets or Media Gateway systems ISDN BRI trunking Note: ISDN BRI trunking is not supported in North America. Table 12: Hardware requirements for ISDN BRI trunking on page 53 lists the hardware required to configure ISDN BRI trunking. Table 12: Hardware requirements for ISDN BRI trunking Hardware Product code...

  • Page 54: Installation Procedures

    Configuring ISDN BRI hardware Configure DSL for ISDN BRI trunking in LD 27. Refer to Table 13: Correct responses to LOOP and MISP prompts in LD 27 on page 54 for the correct response to the MISP prompt. Table 13: Correct responses to LOOP and MISP prompts in LD 27 LOOP MISP Main...
  • Page 55 Connect the ISDN BRI terminals to the DSL. See Connecting the ISDN BRI terminals to the DSL on page 74. v. Initialize an Avaya M5317TDX terminal. See Initializing an Avaya M5317TDX terminal on page 77 b. Connect the ISDN BRI trunks for trunking applications: i.

  • Page 56: Installation Procedures

    Configuring ISDN BRI hardware Installation procedures Selecting the card slots Select the appropriate ISDN BRI circuit card slot assignments in the Small System by using Table 14: Small System shelf slot assignments for ISDN BRI cards page 56. Table 14: Small System shelf slot assignments for ISDN BRI cards ISDN BRI Card MISP (see Note SILC is not...
  • Page 57 Installation procedures ISDN BRI Card MISP (see Note SILC is not SILC is clock UILC clock reference reference Expansion 47-50 47-50 47-50 Note: One MISP chassis supports a set of four SILCs or UILCs, or a combination of SILCs and UILCs.

  • Page 58: Installing The Clock Controller On The Misp (For Trunking Applications)

    Configuring ISDN BRI hardware Installing the clock controller on the MISP (for trunking applications) A clock controller is only required for ISDN BRI trunk applications. The system supports a single active clock controller. This clock controller can support a primary and a secondary reference clock.
  • Page 59 Installation procedures Figure 16: SILC line power options Store unused jumper plugs on position J1 of the SILC for future use. The following are descriptions of the three options and their jumper settings. • Normal power on the TX and RX leads. This option is set at the factory and provides normal power (-48V or -40V) on the TX lead and battery return (BRTN) on the RX lead to power the terminal.
  • Page 60 This procedure is only required for packet data implementation. To install the 1.5 Mb NTRB21 TMDI card or the NTAK09 1.5 Mb PRI circuit card, refer to Avaya ISDN Primary Rate Interface Maintenance (NN43001-717). ISDN Basic Rate Interface Installation and Commissioning...
  • Page 61 Installation procedures To install the NTAK79 2.0 Mb PRI circuit card or the NTBK50 2.0 Mb PRI circuit card, refer to Avaya ISDN Primary Rate Interface Installation and Commissioning (NN43001-301). Connecting the ISDN BRI trunks (for trunking applications) For trunking applications, two procedures are required to connect the ISDN BRI trunks: 1.
  • Page 62 Configuring ISDN BRI hardware are polarity-sensitive, maintain signal polarity along each loop as shown in Figure 19: Cross- connecting an SILC port on page 63 on Figure 19: Cross-connecting an SILC port page 63. :Each UILC provides eight two-wire full-duplex ports. These ports connect to twisted pair trunk wiring facilities to form DSLs, as shown in Figure 20: Cross-connecting a UILC port page 63.
  • Page 63 Installation procedures Figure 19: Cross-connecting an SILC port Figure 20: Cross-connecting a UILC port ISDN Basic Rate Interface Installation and Commissioning March 2011...

  • Page 64: Connecting The Isdn Bri Terminals (For Line Applications)

    Configuring ISDN BRI hardware Figure 21: Connecting the ISDN network terminator to the U interface and to the S/T interface (in TE mode) Connecting the ISDN BRI terminals (for line applications) For line applications, five procedures are required to connect ISDN BRI terminals to the system: 1.
  • Page 65 Connecting the ISDN BRI terminals to the DSL on page 74. 5. Initialize the terminals. See Initializing an Avaya M5317TDX terminal page 77. Connecting ISDN BRI terminals to the system on page 65 shows a typical DSL and multiple ISDN BRI terminals connected to the system.
  • Page 66 Configuring ISDN BRI hardware 1. Remove the connector retaining bar from the connector panel in the lower part of each cabinet. See Figure 22: Cable connectors in main cabinet on page 67 and Figure 23: Cable connectors in the expansion cabinet on page 67 on Figure 22: Cable connectors in main cabinet...
  • Page 67 Installation procedures Figure 22: Cable connectors in main cabinet Figure 23: Cable connectors in the expansion cabinet Figure 24: Cable connectors in the second expansion cabinet ISDN Basic Rate Interface Installation and Commissioning March 2011...
  • Page 68 Configuring ISDN BRI hardware Figure 25: Back of Media Gateway cable connectors Figure 26: SILC port designation label at the cross-connect terminal Note: The pair designated TX- TX+ is the transmit pair. The pair designated RX- RX+ is the receive pair.
  • Page 69 Installation procedures Cross-connecting the DSLs at the cross-connect terminal To cross-connect SILC and/or UILC ports to the building wiring: 1. Identify the card type (SILC or UILC) at the cross-connect terminal. 2. Identify the transmit and receive connections for the SILC and the TIP and RING connections for the UILC from the label of the distribution strip.
  • Page 70 Configuring ISDN BRI hardware SILC port UILC port Connector pin Wire color signals signals number and codes wire color code Card ports 4 RX- Port 4 4 RX+ 5 TX- BK-BL 5TX+ BL-BK 5RX- BK-O Port 5 5RX+ O-BK 6 TX- BK-G 6 TX+ G-BK...
  • Page 71 Installation procedures Figure 28: Cross-connecting a SILC port to the office wiring ISDN Basic Rate Interface Installation and Commissioning March 2011...
  • Page 72 Configuring ISDN BRI hardware Figure 29: Cross-connecting a UILC port to the office wiring Connecting the terminating resistor to the SILC DSL Plug the end of the SILC DSL to the RJ-45 jack on the terminating resistor (A0378866) resistor. Connecting the ISDN BRI terminals ISDN BRI terminals are connected to DSLs using modular cables not longer than 10 m (33 ft) with RJ-45 type plugs on each end.
  • Page 73 • NUMERIS • ANSI standards Contact your Avaya representative for the latest list of compatible terminals. To connect 1TR6 terminals, an ETSI NET-3 to 1TR6 protocol converter is required. A terminal adapter (the So-Adapter) is specifically designed to interface with the ISDN BRI DSL and the 1TR6 terminals.
  • Page 74 Configuring ISDN BRI hardware Note: Power Source 3 (PS3) provides the power from the terminal to the NT1 if the NT1 does not have a local power source. U interface specification The U interface uses a 2-conductor, twisted pair cable terminated with an RJ-45 type jack. An RJ-45 type jack on the NT1 device connects the terminal to the DSL using this twisted pair cable.
  • Page 75 Installation procedures Note: Do not perform this step to assign Dynamic TEIs since they are automatically assigned. 4. Enter the Service Profile ID number at the terminal. For detailed information about this procedure, refer to the terminal user guide. 5. Repeat step on page 74 to step on page 75 for each ISDN BRI terminal.
  • Page 76 Configuring ISDN BRI hardware Figure 30: Connecting the ISDN BRI terminal to the S/T interface ISDN Basic Rate Interface Installation and Commissioning March 2011...
  • Page 77 Figure 31: Connecting the ISDN network terminator to the U interface Non-BRI terminals The M5000 is Avaya's Universal Terminal Adapter (UTA). It adapts a non-BRI data terminal or an analog (500/2500-type) telephone to the ISDN BRI protocol. Attach a terminal to the M5000 terminal adapter to initialize it.
  • Page 78 Configuring ISDN BRI hardware 1. Set the switch on the bottom of the terminal for either line power or local power. 2. Plug in the M5317TDX terminal. 3. Press and hold down the RLS and HOLD keys as the terminal powers up. 4.
  • Page 79 Installation procedures Table 18: M5317TDX terminal error codes Error Code Number Description >>10<< S/T-loop sync loss and/or Frame sync loss. >>11<< L1 transmit timer expired. >>21<< Voice TEI removed by network. >>22<< Circuit data TEI removed by network. >>23<< Voice and circuit data TEI removed. >>24<<...
  • Page 80 Configuring ISDN BRI hardware ISDN Basic Rate Interface Installation and Commissioning March 2011...

  • Page 81: Chapter 8: Testing Isdn Bri Functions

    Chapter 8: Testing ISDN BRI functions Contents This section contains information on the following topics: Introduction on page 81 Voice calls on page 82 Call Hold on page 82 Call Waiting on page 83 Call Forward No Answer on page 84 Calling Line Identification Presentation and Restriction on page 85 ISDN BRI Conference (National ISDN-1 and ETSI)

  • Page 82: Voice Calls

    Testing ISDN BRI functions The tests are divided into: • voice calls • circuit-switched data calls • B-channel and D-channel packet data calls, using an external packet handler and an MPH • ISDN BRI trunk Voice calls A voice call can be established between two voice terminals across a network (ISDN or non- ISDN), between two terminals on the same system, and between two terminals on the same DSL.

  • Page 83: Call Waiting

    1. Set the FEAT parameter to HTD to disable Hunting. Use LD 27 to specify this parameter when configuring the Terminal Service Profile (TSP) for the two voice ISDN BRI DNs on one of the DSLs. See "TSP configuration procedures" in Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580).

  • Page 84: Call Forward No Answer

    (NN43001-580). 2. Specify the attendant as the forwarding DN using LD 15. At the FNAL prompt, enter ATT to specify forward to attendant. Refer to LD 15 in the Avaya Software Input Output Administration (NN43001-611) for more details. 3. From an ISDN BRI terminal, place a call to the ISDN BRI terminal with the enabled Call Forward No Answer feature and the specified call forward to attendant.

  • Page 85: Calling Line Identification Presentation And Restriction

    This option on the terminal overrides the PRES parameter values entered in the TSP data block when configuring the TSP. This depends on the telephone configuration default. See "TSP configuration procedures" in Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580).

  • Page 86: Isdn Bri Conference (National Isdn-1 And Etsi)

    Testing ISDN BRI functions ISDN BRI Conference (National ISDN-1 and ETSI) ISDN BRI Conference allows an ISDN BRI terminal user to bridge multiple parties into a conversation. The user can: • invoke Conference on a call • add a new party to an existing call •...
  • Page 87 Voice calls 9. After the second call is established, press the Conference key again to bridge the two calls. All three parties should be in a conference. 10. Press the RELEASE key to drop from the call. The ISDN BRI user should be disconnected from the Conference;...

  • Page 88: Isdn Bri Special Hunting

    DNs in a hunting group until an idle ISDN BRI or non-ISDN BRI terminal DN is found or until the maximum number of hunt steps is exhausted. Use LD 27 to define the hunting DNs in the DSL. See "DSL configuration procedures" in Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580).

  • Page 89: Isdn Bri National Isdn-1 Call Forward All Calls

    The following is to test the forwarding of a voice call from an ISDN BRI M5317 set. 1. Set up ISDN BRI NI-1 Call Forward All Calls in LD 27 (refer to the "Configuring ISDN BRI features" chapter in Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580)).

  • Page 90: Isdn Bri Etsi Call Forwarding Unconditional

    The following test is for forwarding a voice call from an ISDN BRI M5317 set. 1. Set up ISDN BRI ETSI Call Forwarding Unconditional in Overlay 27 (refer to the "Configuring ISDN BRI features" chapter in Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580).

  • Page 91: Circuit-Switched Data Calls

    Circuit-switched data calls 5. From the second DN, place a call to the first DN, to verify that the call has been forwarded. 6. To cancel ISDN BRI ETSI Call Forwarding Unconditional: Press the Forward or the Cancel key. Circuit-switched data calls A circuit-switched data call can be established between two data terminals over a B-channel.

  • Page 92: Packet Data Transmission

    • an ISDN PRI channel for the packet handler route was configured using LD 14 See Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580) for a detailed description of how to configure relevant ISDN BRI packet data transmission parameters in LD 17, LD 16, and LD 14.
  • Page 93 Packet data transmission Repeat this test on other ISDN BRI packet data terminals as needed. Perform a D-channel packet data transmission test using an external packet handler 1. From an ISDN BRI D-channel packet data terminal, dial another ISDN BRI packet data terminal and establish an active call connection.

  • Page 94: Testing An Isdn Bri Trunk

    Testing ISDN BRI functions Testing an ISDN BRI trunk Perform procedure to test an ISDN BRI trunk DSL 1. Set up the ISDN trunk test configuration to be used, as described previously in the chapter "Set up ISDN BRI test terminals and trunks". 2.

  • Page 95: Chapter 9: Generating Traffic Reports

    Chapter 9: Generating traffic reports Contents This section contains information on the following topics: Introduction on page 95 Introduction This chapter describes how to generate traffic reports to verify that the traffic generated during voice and data transmission testing is stored by the system and can be printed on demand. To verify traffic generated during acceptance testing, use the following command: INVS (options)* The asterisk (*) denotes that the ENTER key must be pressed after the desired option numbers...
  • Page 96 Figure 32: Network traffic report For a detailed description of how to set up and print traffic reports, see "Set up ISDN BRI traffic reports" in Avaya ISDN Basic Rate Interface Feature Fundamentals (NN43001-580). ISDN Basic Rate Interface Installation and Commissioning...

  • Page 97: Index

    Index ISDN network terminator, connecting 5- ..... cable connectors, expansion cabinet 5- ..... cable connectors, main cabinet 5- ......Connecting ISDN BRI terminals 5- ......office wiring, connecting 5- ......... designation label, SILC 6- .......... designation label, UILC 6- .......... port assignments 5- ............

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Cs 1000m sgCs 1000m mgCs 1000mCs 1000e

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