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Installation and Maintenance Manual - Aastra 5000 AMT/PTD/PBX/0058/4/6/EN

01/2011 Page 1

AXD - AXL - AXS - AXS12 - AXS6 - Aastra 5000 Server

Installation and Maintenance Manual

AMT/PTD/PBX/0058/4/6/EN

01/2011

Summary of content (502 pages)

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AXD - AXL - AXS - AXS12 - AXS6 - Aastra 5000 Server Installation and Maintenance Manual AMT/PTD/PBX/0058/4/6/EN 01/2011 Installation and Maintenance Manual - Aastra 5000 01/2011 AMT/PTD/PBX/0058/4/6/EN Page 1
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AASTRA 1 rue Arnold Schoenberg 78280 Guyancourt - France Tel: +33 1 30 96 42 00 Fax: +33 1 30 96 43 00 www.aastra.
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1 2 INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 1.1 PURPOSE OF THIS DOCUMENT . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 27 1.2 TARGET AUDIENCE FOR THE DOCUMENT . . . . . . . . . . . . . . . . . . . . . . . . . . 28 1.3 REFERENCE DOCUMENTS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 29 1.4 ABBREVIATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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3.5.1.1 AXD main cabinet . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.5.1.2 A2XD and A3XD expansion cabinet . . . . . . . . . . . . . . . . . . . . . . . . . . . 84 86 3.5.2 AXL iPBX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.5.2.1 AXL main cabinet. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3.5.2.2 A2XL and A3XL expansion cabinets . . . . . . . . . . . . . . . . . . .
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4 3.9.4 Multi-site configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 3.9.5 Hotel/motel configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 3.9.6 Hospital configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 119 3.10 THE USER INTERFACE . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 120 DESCRIPTION DES SOUS-ENSEMBLES . . .
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4.2.5.1 4.2.5.2 4.2.5.3 4.2.5.4 4.2.5.5 4.2.5.6 4.3 Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Functional description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Monitoring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Physical description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Hardware configuration . . . . . . . . . . . . .
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4.7.2.1 Connectors . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.7.2.2 Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 177 180 4.7.3 Hardware and software configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 183 4.7.4 Installation and wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 183 EXT1-S CARD . . . . . . . . . . . . . . . . . .
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4.12.2.2 Indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 206 4.12.3 Hardware and software configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 207 4.12.4 Installation and wiring. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 207 4.13 APPLICATION CARDS (CLX) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 209 4.13.1 LD4 card. . . . . . . . . . . . . . . . . .
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4.13.6.10Installation and wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 252 4.13.7 CP1 card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.13.7.1 Description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.13.7.2 Physical description (see Figure 4.49 ) . . . . . . . . . . . . . . . . . . . . . . . . . 4.13.7.3 Hardware configuration . . . . . . . . . . . . . . . . .
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4.14.6.2 Functional description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 271 4.14.7 Physical description (see Figure 4.56 ) . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.14.7.1 Hardware configuration . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.14.7.2 Installation and wiring . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 272 272 272 4.14.8 LN8 card. . . . . . . . . . . . . . . . . . . . . . . . . .
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5 4.14.14.1Description . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.14.14.2Functional description. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.14.14.3Physical description (see Figure 4.63 ). . . . . . . . . . . . . . . . . . . . . . . . . 4.14.14.4Hardware configuration. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4.14.14.5Installation and wiring . . . . . . . . . . . . . . . . . . . . . . . . . . .
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6.1 INTRODUCTION . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 309 6.1.1 Security guidelines . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.1.1.1 Staff authorisation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.1.1.2 Safety . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 309 309 309 6.
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6.3.7.1 Adding an expansion cabinet (AXD) . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.3.7.2 Adding an expansion cabinet (AXL) . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.3.7.3 Adding an AXS, AXS12 and AXS6 expansion cabinet . . . . . . . . . . . . . 362 363 363 6.3.8 Adding an AXD power module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6.3.8.1 ADS350XD and ADS300XD compatibility . . . . . . . . . . . . . . . . . . . . . . . 6.3.8.
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7.2 MAINTENANCE OVERVIEW . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.2.1 395 Role and possibilities available . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 395 7.2.2 Maintenance resources . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7.2.2.1 Role of Aastra Management Portal (AMP) in maintenance . . . . . . . . . . 396 396 7.2.3 Preventive maintenance. . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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10.5 RESETTING THE MANUFACTURER'S PASSWORD (IN CASE OF LOSS) . . . 473 10.6 MASSIVE IMPORT FROM THE MASSIVE CREATION FORM . . . . . . . . . . . . . 475 10.7 ADDITIONAL CONFIGURATIONS . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 476 10.7.1 Starting and viewing the services. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 476 10.7.2 Declaring an NTP time server . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 476 10.
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AMT/PTD/PBX/0058/4/6/EN Page 16 01/2011 Installation and Maintenance Manual - Aastra 5000
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LIST OF TABLES Table 3.1 Physical characteristics of AXD, AXL, AXS, AXS12, and AXS6 PBXs . . . . . . 73 Tableau 3.2 List of AXD iPBX subassemblies . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 82 Tableau 3.3 List of the sub-assemblies in AXL, AXS, AXS12 and AXS6 iPBXs. . . . . . . . . 83 Tableau 3.4 Slot numbers on the backplane of an AXD iPBX . . . . . . . . . . . . . . . . . . . . . . 84 Tableau 3.5 Possible basic AXD iPBX back plane equipment configuration . . . . . . . . . . .
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Tableau 4.40 Details of the S0/T0 connections of LD4NX card connectors . . . . . . . . . . . . . Tableau 4.41 Presentation of LD4NX card indicators . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tableau 4.42 Configuration of the microswitch CA1 (HVAL) on the LD4NX card . . . . . . . . Tableau 4.43 . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tableau 4.44 S0 interface link with DECT base station . . . . . . . . . . . . . .
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Tableau 7.7 List of optional interchangeable batteries . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tableau 7.8 List of interchangeable cabinets (AXD iPBX) . . . . . . . . . . . . . . . . . . . . . . . . . Tableau 7.9 List of mounting kits . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Tableau 7.10 List of E sheets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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AMT/PTD/PBX/0058/4/6/EN Page 20 01/2011 Installation and Maintenance Manual - Aastra 5000
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LIST OF PLATES PLATE 9.1 FUNCTIONAL DIAGRAM OF AN AASTRA XD IN SIMPLEX CONFIGURATION 455 PLATE 9.2 FUNCTIONAL DIAGRAM OF AN AASTRA XD IN DUPLEX CONFIGURATION 456 PLATE 9.3 FUNCTIONAL DIAGRAM OF AN AASTRA XL, XS AND XS12 457 PLATE 9.
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AMT/PTD/PBX/0058/4/6/EN Page 22 01/2011 Installation and Maintenance Manual - Aastra 5000
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LIST OF FIGURES Figure 3.1 Figure 3.2 Figure 3.3 Figure 3.4 Figure 3.5 Figure 3.6 Figure 3.7 Figure 3.8 Figure 3.9 Figure 3.10 Figure 3.11 Figure 3.12 Figure 3.13 Figure 3.14 Figure 3.15 Figure 3.16 Figure 3.17 Figure 3.18 Figure 3.19 Figure 3.20 Figure 3.21 Figure 3.22 Figure 3.23 Figure 3.24 Figure 3.25 Figure 3.26 Figure 3.27 Figure 3.28 Figure 3.29 Figure 3.30 Figure 4.1 Figure 4.2 Figure 4.3 Figure 4.4 Figure 4.5 Figure 4.6 Figure 4.7 Overview of an AXD cabinet in simplex configuration. . . . . . . .
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Figure 4.8 Figure 4.9 Figure 4.10 Figure 4.11 Figure 4.12 Figure 4.13 Figure 4.14 Figure 4.15 Figure 4.16 Figure 4.17 Figure 4.18 Figure 4.19 Figure 4.20 Figure 4.21 Figure 4.22 Figure 4.23 Figure 4.24 Figure 4.25 Figure 4.26 Figure 4.27 Figure 4.28 Figure 4.29 Figure 4.30 Figure 4.31 Figure 4.32 Figure 4.33 Figure 4.34 Figure 4.35 Figure 4.36 Figure 4.37 Figure 4.38 Figure 4.39 Figure 4.40 Figure 4.41 Figure 4.42 Figure 4.43 Figure 4.44 Figure 4.45 Figure 4.46 Figure 4.47 Overview of the IUCV-D card . . .
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Figure 4.48 Figure 4.49 Figure 4.50 Figure 4.51 Figure 4.52 Figure 4.53 Figure 4.54 Figure 4.55 Figure 4.56 Figure 4.57 Figure 4.58 Figure 4.59 Figure 4.60 Figure 4.61 Figure 4.62 Figure 4.63 Figure 4.64 Figure 4.65 Figure 4.66 Figure 4.67 Figure 4.68 Figure 4.69 Figure 5.1 Figure 5.2 Figure 5.3 Figure 5.4 Figure 5.5 Figure 6.1 Figure 6.2 Figure 7.1 Overview of the CA1 card . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Overview of the Cp1 card . . . . . . . . . . . . . . .
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AMT/PTD/PBX/0058/4/6/EN Page 26 01/2011 Installation and Maintenance Manual - Aastra 5000
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1 Introduction 1.1 Purpose of this document The Aastra 5000 documentation for installers comprises several manuals covering all aspects of system installation, use and maintenance, namely: • An Aastra Management Portal (AMP) manual • An installation and maintenance manual. The purpose of this document called "Installation and maintenance manual" is to describe Aastra 5000 series products, and provide the information required for their installation and maintenance at 0 level.
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• Chapter 5 : Présentation des équipements périphériques This chapter presents the type of peripheral device which can be connected to the iPBXs. • Chapter 6 : Installation This chapter describes the operations used to implement, configure, and make an iPBX operational. • Chapter 7 : Maintenance This chapter describes iPBX maintenance operations. It describes in particular: - Maintenance in general: safety instructions, organisation of maintenance, list of support equipment, etc.
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1.
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1.
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IVS Integrated Voice Server DLT Digital Link Terminal DNT Digital Network Terminal TWP Telephony Web Portal DAU Delocated Acquisition Unit CPU Central Processing Unit UCV VPIM VTI/XML VU WAN Central Processing Unit card Voice Profil for Internet Mail Virtual Terminal Interface / eXtended MarKup Language Version Upgrade Wide Area Network 1.5 Terms and expressions Aastra X series : This term refers to all AXS, AXL and AXD PBXs.
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Charging buffer card used to print detailed telephone traffic reports. CA1 card Asynchronous serial interface card used for connecting 4 data transmission terminals. CLX card Interface card with a microprocessor having access to a memory area on the UCV card through the system bus. This category includes network access cards. CP1 card Circuit/Packet card used to connect to an X25 network for sending data in packet mode over a B channel in a Numeris link.
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LA16X-8 card Interface card used for connecting 8 analogue sets. LA8 card Interface card used for connecting 8 analogue sets. LD4 card 4 S0/T0 ISDN interface card used to connect to 2- or 4-channel DECT base stations, or to ISDN terminals (S0), or to an ISDN BRI interface (T0). LD4NX card 4 S0/T0 ISDN interface card used to connect to 2- or 4-channel DECT base stations, or to ISDN terminals (S0), or to an ISDN BRI interface (T0).
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Ethernet LAN. RJ cards Expansion cards in RJ45 format; these cards are fitted with a front panel. RUCV card Bus interface card of an expansion cabinet providing the interface between the UCV card of the main cabinet and the expansion cards in an expansion cabinet. RUCV/RUCV-D Bus interface card of an expansion cabinet providing the interface between the UCV-D card of the main cabinet and the expansion cards in an expansion cabinet. UCV card Central Processing Unit card of an Aastra XS/XL iPBX.
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Name given to an analogue set connected to a line on which detection has been authorised for the call's number, date and time. The rights are given to the iPBX from a management console (AMP). HDLC Data link control protocol. Signalling Exchange of information using supervision signals or transmission of DTMF code. Signalling concerns the transmission of the communication or the called party identification.
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AMT/PTD/PBX/0058/4/6/EN Page 36 01/2011 Installation and Maintenance Manual - Aastra 5000 Introduction
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2 Présentation 2.1 Presentation of Aastra X series products Aastra X series products include a set of homogeneous and scalable systems used to manage 8 to 1000 subscribers, based on a single software package and a range of subassemblies (cards) common to all products in the range. Aastra Duplicated PBX (Aastra XD) is a secure upgrade of Aastra XS/XL PBXs. It is used to secure the functions of the iPBX by duplicating the CPU card, some integrated services and power supply.
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• 500 physical extensions for an AXS • 500 physical extensions for an AXS12 AXD, AXL, AXS, AXS12 and AXS6 iPBXs can be fitted with a broad range of expansion cards, used to configure the iPBXs optimally in order to meet your needs: • IP PBXs • Trunk gateways (gateways optimising the resources actually used at a given time), • Voice gateways (voice gateways: resources used to set up a voice circuit between two sites on a network).
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2.2 Functional and physical architecture of the iPBXs 2.2.
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Aastra XD accepts only one physical format of expansion cards: a card with a front panel (RJ card) fitted with RJ45 connectors. The CPU card of Aastra XD (UCV-D) exists in a single RJ45 format. All products in the range have the same width (standard 19''), colours and materials. 2.2.
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2.3 Overview of the functions Aastra XS/XL/XD platforms basically: • Provide temporary links between subscriber lines, various types of networks, and possibly other platforms or private installations • Handle subscriber services • Secure the device operation (Aastra XD only).
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- reset and supervision - storing the information and data required for card operations • Managing duplicated services (Aastra XD only): - duplication of power supply (switchover) - duplication of CPU cards: - switchover - duplication of hardware functions - data synchronisation - software synchronization - duplication of the integrated answering service - duplication of the voice mail system - duplication of the integrated charging services - duplication of IP network connections.
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3 DESCRIPTION ET CARACTÉRISTIQUES D’UN PBX 3.1 Physical description 3.1.1 General description of AXD iPBXs An Aastra XD (AXD) iPBX in simplex or duplex configuration consists of one main cabinet and, if necessary, one expansion cabinet (version A2XD) or two expansion cabinets (version A3XD). The main cabinet and expansion cabinets are in the form of a 19" metal cabinet, 10 U, in which the subassemblies required for the iPBX to operate are inserted.
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supply module • One slot E on the right side, in the upper part of the cabinet, reserved for one ventilation module or a second power supply module • 2 rows of 8 slots (1 to 16 and 2 to 14) in the main cabinet and expansion cabinet: - The first 14 slots are reserved for plug-in expansion cards along the guides on the sides of the cabinet (RJ45 format). - The last two slots are reserved for the BTX expansion cards.
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. IUCV-D card Blanking plate (empty slot) UCV-D card (A) Expansion cards BTX card Ventilation module Blanking plate (empty slot) Power supply module Figure 3.
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Connector Battery Earth connection Hot air outlet 4 DB25-F connectors Connection to the expansion cabinet(s) Fresh air inlet Figure 3.
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Expansion cabinet Connection cable for AXD-A2XD (A Blanking plate (empty slot) RUCV-D card (A) IUCV-D card Ventilation module Blanking plate (empty slot) UCV-D card (A) Power supply modul Expansion cards Ventilation module Main rack BTX card Power supply module Figure 3.
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Ventilation module Blanking plate mpty slot) Power supply module RUCV-D card (A) Connection cable AXD-A3XD (A) Blanking plate mpty slot) Connection cable AXD-A2XD (A) RUCV-D card (A) IUCV-D card Blanking plate empty slot) First expansion cabinet UCV-D card (A) Ventilation module Expansion cards Power supply module Ventilation modu Main rack BTX card Power supply module Figure 3.
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IUCV-D card Blanking plate (empty slot) UCV-D card (A) Expansion cards BTX card Blanking plate (empty slot) Power supply module (p Power supply module (pow Figure 3.
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Expansion cabinet Connection cable for AXD-A2XD (A) Blanking plate (empty slot) RUCV-D card (A) Power supply module (power supply modul Blanking plate (empty slot) UCV-D card (A) Power supply module (power supply modu Expansion cards Power supply module (power supply module Main rack BTX card Power supply module (power suppl Figure 3.
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Second expansion cabinet Power supply module (power supply Blanking plate (empty slot) Power supply module (power RUCV-D card (A) Connection cable AXD-A3XD (A) Blanking plate empty slot) RUCV-D card (A) Connection cable AXD-A2XD (A) IUCV-D card Blanking plate (empty slot) First expansion cabinet UCV-D card (A) Power supply module (power supply modu Expansion cards Power supply module (power supply module 1) Power supply module (power supply module 2 Main rack BTX card Power supply module (po
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IUCV-D card UCV-D card (B) UCV-D card (A) Blanking plate (empty slot) BTX card Power supply module Expansion cards (power supply module 2) Power supply module (power supply module 1) Figure 3.
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Expansion cabinet Connection cable AXD-A2XD (A) Blanking plate (empty slot) RUCV-D card (B) Connection cable AXD-A2XD (B) RUCV-D card (A) Power supply module (power supply modul IUCV-D card UCV-D card (B) UCV-D card (A) Power supply module (power supply modu Expansion cards Power supply module (power supply module Main rack BTX card Power supply module (power suppl Installation and Maintenance Manual - Aastra 5000 Description et caractéristiques d’un PBX 01/2011 AMT/PTD/PBX/0058/4/6/EN Page 5
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Second expansion cabinet Blanking plate empty slot) Power supply module (power supply module 2) Power supply module (power supply module 1) Connection cable AXD-A3XD (A) RUCV-D card (B) RUCV-D card (A) Connection cable AXD-A3XD (B) Blanking plate (empty slot ) Connection cable AXD-A2XD (A) RUCV-D card (B) Connection cable AXD-A2XD (B) UCV-D card (A) IUCV-D card UCV-D card (B) UCV-D card (A) First expansion cabinet Power supply module Expansion cards (power supply module 2) Power supply module (po
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3.1.2 General description of AXL iPBXs An Aastra XL (AXL) iPBX comprises one main cabinet and possibly one (A2XL version) or two (A3XL version) expansion cabinets. The main cabinet and expansion cabinets are in the form of a 19" metal cabinet, 7 U, in which the subassemblies required for the iPBX to operate are inserted. The cabinets are adapted to 19" racks with the help of brackets. They can also simply be placed on the floor or on a piece of furniture.
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UCV-L card Expansion cards Blanking plate (empty slot) Power supply module Figure 3.
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Expansion cabinet connection cable connector Fresh air inlet PBX_MATRIX_XL_COFFRJ_3/4ARRIERE_01_01 Hot air outlet Earth connection Figure 3.
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RUCV-L card Expansion cabinet UCV-L card Connection cable AXL-A2XL Main rack Expansion cards Blanking plates (empty slots) Power supply modules Figure 3.
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RUCV-L cards Second expansion cabinet Connection cable AXL-A2XL-A3XL UCV-L card First expansion cabinet Cards expansion cabinet Main rack Blanking plates (empty slots) Power supply modules Figure 3.
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3.1.3 General description of AXS iPBXs An Aastra XS (AXS) iPBX includes a main cabinet, and possibly an expansion cabinet (A2XS version). The main cabinet and the expansion cabinets are in the form of a 19" metal cabinet, 2 U, in which the subassemblies required for the iPBX to operate are inserted. The cabinets are adapted to 19" racks with the help of brackets. They can also simply be placed on the floor or on a piece of furniture, or wall-mounted. The cabinets can be stacked or set side by side.
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3.1.4 Internal description The main cabinet and expansion cabinet include, in addition to the slots for the CPU cards and removable subassemblies: • A backplane (UCV-S for a main cabinet or RUCV-S for an expansion cabinet) meant to host expansion cards • The expansion cards can be plugged in along the guides located on the sides of the cabinets. • A power unit connected to the backplane (UCV-S or RUCV-S) • A fan.
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Fresh air inlet Power supply UCV-Scard Hot air outlet Expansion card EXT1-S card Figure 3.
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RUCV-Scard UCV-Scard Expansion cabinet Main rack Expansion cards EXT1-S card Figure 3.
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Mains socket Earth connection Fuse holder "I/O" switch Expansion cabinet connection with expansion cabinet Fresh air inlet Battery connector Figure 3.
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3.1.5 Physical description of an Aastra XS12 iPBX 3.1.5.1 Control keys An Aastra XS12 (AXS12) iPBX includes a main cabinet, and possibly an expansion cabinet (version A2XS12). The main cabinet and the expansion cabinets are in the form of a 19" metal cabinet, 2 U, in which the subassemblies required for the iPBX to operate are inserted. The cabinets are adapted to 19" racks with the help of brackets. They can also simply be placed on the floor or on a piece of furniture, or wall-mounted.
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3.1.5.2 Internal description The main cabinet and expansion cabinet include, in addition to the slots for the CPU cards and removable subassemblies: • A backplane (UCV-S for a main cabinet or RUCV-S for an expansion cabinet) meant to host expansion cards • The expansion cards can be plugged in along the guides located on the sides of the cabinets. • A power unit connected to the backplane (UCV-S or RUCV-S) • A fan.
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Power supply Fresh air inlet Hot air outlet CV-S12card Expansion card EXT1-S12 card Figure 3.
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Mains socket Earth connection Fuse holder Fresh air inlet "I/O" switch Battery connector Figure 3.
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3.1.6 Physical description of an Aastra XS6 iPBX 3.1.6.1 Control keys An Aastra XS6 (AXS6) iPBX consists of a main cabinet, and possibly an expansion cabinet (version A2XS6). The main cabinet and the expansion cabinets are in the form of a 19" metal cabinet, 2 U, in which the subassemblies required for the iPBX to operate are inserted. The cabinets are adapted to 19" racks with the help of brackets. They can also simply be placed on the floor or on a piece of furniture, or wall-mounted.
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3.1.6.2 Internal description The main cabinet and expansion cabinet include, in addition to the slots for the CPU cards and removable subassemblies: • A backplane (UCV-S for a main cabinet or RUCV-S for an expansion cabinet) meant to host expansion cards • The expansion cards can be plugged in along the guides located on the sides of the cabinets. • A power unit connected to the backplane (UCV-S or RUCV-S) • A fan.
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Power supply Fresh air inlet UCV-Scard Hot air outlet Expansion card EXT1-S6 card Figure 3.
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Mains socket Earth connection Fuse holder Fresh air inlet "I/O" switch Battery connector Figure 3.
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3.2 Characteristics 3.2.1 Physical specifications CHARACTERISTICS AXL cabinet AXS/AXS12/ AXS6 cabinet MAIN AXD Height 310 mm (7 U) 89 mm (2 U) 450 mm (10 U) Width 440 mm (19") 440 mm (19") 440 mm (19") Depth 316 mm 400 mm 316 mm Max. weight 20 kg 7.5 kg 15 kg (simplex) 18 kg (duplex) without expansion cards and 28 kg in total TABLE 3.1PHYSICAL CHARACTERISTICS OF AXD, AXL, AXS, AXS12, AND AXS6 PBXS 3.2.
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ADS 300XD power supply module (AXD iPBX) CHARACTERISTICS VALUES Rated voltage 115 V or 230 V Tolerances +/- 10% Frequency 50 or 60 Hz Power Converter (48 V) External battery (option) 300 W +5 V / 15 A et -5 V / 0,5 A +12 V / 0.5 A and -12 V / 0.65 A (* 0,25 A for cards and 0,40 A for fans) -48 V / 1.9 A ringer: 70 V / 0.2A 25-50 Hz (symmetrical current) See Section 3.8.7.
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ADS 300X power supply module (AXL iPBX) CHARACTERISTICS VALUES Rated voltage 115 V or 230 V Tolerances +/- 10% Frequency 50 or 60 Hz Power 300 W Converter (48 V) +5 V / 13 A and -5 V / 0,5 A +12 V / 0,5 A and -12 V / 0,25 A - 48 V / 1,9 A 40 V (ISDN) / 0,7 A ring 70 V / 0,2 A 25-50 Hz (symmetrical current) External battery (option) voir § 3.8.7.
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3.3 Capacity Refer to the product Guide.
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3.4 Physical breakdown 3.4.1 Aastra XD The subassemblies of each of the Aastra XD configurations are presented in a tree in Tableau 3.2 . Nota : The quantities indicated are the maximum hardware and software quantities for each type of card. These quantities also depend on the configuration rules (see Section3.5 ) and engineering rules of each site.
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Subassemblies MAIN CABINET AXD AXD EXPANSION CABINET A2XD A3XD 1 1 Simplex Simplex supply with secure power 1 Duplex List of the sub-assemlies in AXD iPBXs - Folio 2 de 6 - AMT/PTD/PBX/0058/4/6/EN Page 78 01/2011 Installation and Maintenance Manual - Aastra 5000 Description et caractéristiques d’un PBX
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Subassemblies MAIN CABINET AXD AXD EXPANSION CABINET A2XD A3XD 14 (1) 14 (1) 14 (1) 6 6 6 10 10 10 6 6 6 1 1 4 4 4 4 4 4 3 3 3 CLX cards Simplex Simplex supply with secure power secure power Duplex LD4/LD4N (2) (3) Simplex Simplex supply with Duplex LD4X (LD4N in X mode) (2) (3) Simplex Simplex supply with secure power with secure power Duplex LT2 (2) (3) Simplex Simplex supply Duplex 1 IPS(2) 1 PT2 (2) + 8-channel VoIP4E + 16-channel VoIP4E + 32-channel VoI
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Subassemblies MAIN CABINET AXD AXD EXPANSION CABINET A2XD A3XD 8 8 8 10 10 10 CP1 Simplex Simplex supply with secure power with secure power with secure power with secure power with secure power with secure power with secure power Duplex MUM Simplex Simplex supply Duplex Equipment cards Simplex Simplex supply 12 16 28 44 12 16 28 44 12 16 28 44 12 12 28 32 Duplex LA16X Simplex Simplex supply Duplex LA16X-8 Simplex Simplex supply Duplex LA8 Simplex Simp
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Subassemblies MAIN CABINET AXD AXD EXPANSION CABINET A2XD A3XD 12 16 28 44 12 12 12 12 12 12 10 10 10 Simplex Simplex supply with secure power with secure power with secure power with secure power with secure power with secure power with secure power Duplex LN8 Simplex Simplex supply Duplex LM8 Simplex Simplex supply Duplex LH8 Simplex Simplex supply Duplex LH16X Simplex Simplex supply 12 14 26 40 12 14 26 40 12 12 Duplex LH16X-8 Simplex Simplex suppl
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Subassemblies MAIN CABINET AXD AXD EXPANSION CABINET A2XD A3XD 12 12 12 12 12 12 1 1 Simplex Simplex supply with secure power with secure power with secure power Duplex LI1 Simplex Simplex supply Duplex BTX Simplex Simplex supply 1 1 Duplex List of the sub-assemlies in AXD iPBXs - Folio 6 de 6 TABLEAU 3.2 LIST OF AXD IPBX SUBASSEMBLIES (1) (2) If this figure is reached: equipment cards cannot be installed. If the number of CLX cards is below 12: any equipment card can be added.
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SUBASSEMBLIES AXL Main Cabinet A2XL A3XL AXS Cabinet Main A2XS 1 1 1 1 1 1 2 10 1 10 1 10 1 3 LD4/LD4N (2) (3) 6 6 6 LD4X (2) (3) 10 10 LT2 (2) (3) 6 IPS (2)(4) UCV AXS12 main AXS6 main cabinet cabinet 1 1 3 3 3 3 3 3 3 10 3 3 3 3 6 6 1 1 1 1 1 1 1 1 1 1 1 PT2 (2) + 8-channel VoIP4E + 16-channel VoIP4E + 32-channel VoIP4E 4 4 4 1 1 1 1 CS1 4 4 4 3 3 3 3 CA1 3 3 3 3 3 3 3 CP1 8 8 8 3 3 3 3 MUM 10 10 10 3 3 3 3 Equi
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3.5 Configuration rules 3.5.1 AXD iPBX 3.5.1.1 AXD main cabinet An AXD iPBX contains 16 slots numbered from 00 to 15, corresponding to the following physical positions: (C) IUCVD (B) UCV-D (RUCV-D) (A) UCV-D (RUCV-D) 01 00 03 02 05 04 07 06 09 08 11 10 13 12 15 14 Power supply module 2 (E) Power supply module 1 (D) TABLEAU 3.
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AXD main cabinet BACKPLANE SLOT 1-00 1-01 1-02 1-03 1-04 1-05 1-06 1-07 1-08 1-09 1-10 1-11 1-12 1-13 1-14 1-15 0 (H0) 1 (H1) 2 (H2) 3 (H3) 4 (H4) 5 (H5) NO NO NO NO NO NO NO NO NO NO LD4/LD4N/LD4X Yes without ADPCM* Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Not Not #8 #9 #10 #11 #12 #13 Yes Yes Not Not Not Not Not Not Not Not LD4X with ADPCM Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Not Not SYNCHRONISING
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• #8 to #13: indicates that the card can be equipped if no card in the short list is installed in slot n in the main cabinet. Exemple : If a PT2 + VOIP 16 card is installed in slot 1-00 (#8), a card from the short list cannot be installed in slot 1-08, but a card from the full list can be installed. If a PT2 + VOIP 16 card is installed in slot 1-00 (#9), a card from the short list cannot be installed in slot 1-09, but a card from the full list can be installed.
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3.5.2 AXL iPBX An AXL iPBX contains 14 slots numbered from 00 to 13, corresponding to the following physical slots: UCV-L (RUCV-L) 01 00 03 02 05 04 07 06 09 08 11 10 13 12 TABLEAU 3.7 SLOT NUMBERS ON THE BACKPLANE OF AN AXL IPBX 3.5.2.
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AXL main cabinet BACKPLANE SLOT 1-00 1-01 1-02 1-03 1-04 1-05 1-06 1-07 1-08 1-09 1-10 1-11 1-12 1-13 SYNCHRONISING POSITION 0 1 2 3 4 5 (H0) (H1) (H2) (H3) (H4) (H5) NO NO NO NO NO NO NO NO CLX cards LD4/LD4N/LD4X Yes without ADPCM* Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes #8 #9 #10 #11 #12 #13 Yes Yes Not Not Not Not Not Not LD4X with ADPCM Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes Yes LT2* Yes Yes Yes Yes Yes Yes Yes Yes Yes
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Understanding Tableau 3.8 : • Synchronising position: indicates a synchronising position. The H0 clock signal in position 1-00 has priority over H1, H2, H3, H4 and H5 which have the same priority level. • Yes: indicates that the card concerned can be equipped. • No: indicates that the card concerned cannot be equipped. • #8 to #13: indicates that the card can be equipped if no card in the short list is installed in slot n in the main cabinet.
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3.5.2.2 A2XL and A3XL expansion cabinets The slots in an expansion cabinet can only be fitted with certain equipment cards: Cards A2XL and A3XL expansion cabinet LD4/LD4N/LD4X LT2 IPS PT2 8,16,32 channels CS1 CA1 CP1 MUM Equipment cards LA16X LA16X-8 LA8 LN16X LN16X-8 LN8 LM8 LH8 LH16X LH16X-8 LR4 LI1 BTX Not Not Yes Not Not Not Not Not CLX cards Yes Yes Not Yes Yes Not Not Not Yes Yes Not Not Yes TABLEAU 3.
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3.5.3 AXS/AXS12/AXS6 iPBX An AXS/AXS12/AXS6 iPBX contains 3 slots numbered from 00 to 02, corresponding to the following physical slots: 02 01 00 EXT1-S/EXT1-S12/ EXT1-S6 UCV-S TABLEAU 3.10 SLOT NUMBERS ON THE BACKPLANE OF AN AXS/AXS12/AXS6 IPBX The slots in a main cabinet can be fitted with all the Aastra X series cards. The slots in an expansion cabinet can only be fitted with equipment cards. Note : The three main cabinet slots are synchronising positions.
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3.6 i-Button dongle and software locking Certain optional features of the iPBX can be used only with a software key code. A removable "i-Button" dongle (circuit in a metal box, similar to a battery) on the UCV (AXS/AXL) and IUCV-D (AXD) main card contains the iPBX identification number (this number can be displayed when the cabinet is started or via MMC). This number is used for unlocking optional software functions.
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• CSTA CTI (1 to 2048 objects) • V24 interactive voice mail server (1 to 16 accesses) • Extended Q23 interactive voice mail server (1 to 64 accesses) • IP XML interactive voice mail server (1 to 64 accesses) • Sgml/ATDC XML (1 to 64 accesses) 3.8 Functional description Plate 9.1 to Plate 9.
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This matrix routes the messages received over a PCM link, called a junction, to another expansion card or module on the main card, through another internal PCM link. Each junction includes 32 Time Slots (TS) which are each used to route one voice message or digitised data. Certain TSs of a specific junction are assigned to the various subassemblies of the iPBX connected to the matrix. The TSs are exchanged between the various subassemblies of the iPBX over a synchronous bus. 3.8.1.
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• Managing four-way conference • Modem function (signal modulation and demodulation) • Managing the signals delivered by the "class" sets, • Generating ringing current control. 3.8.1.4 Voice mail server function Voice mail server function is ensured by a "Voice auxiliaries" module.
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3.8.2 Connection to the communication networks and terminals Connection to communication networks and terminals is provided by expansion cards and interfaces located on the EXT1-S card (AXS iPBX), and by a LAN interface only on UCVL (AXL iPBX) and UCV-D (AXS iPBX) cards. These expansion cards can be divided into two categories: • CLX cards. They interface with the external applications connected to the iPBX through digital networks.
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information. The cards located in an expansion cabinet communicate with the UCV card or the active UCV-D card of the main cabinet through the RUCV card or RUCV-D card. The RUCV/RUCV-D cards are installed instead of the UCV/UCV-D cards in the expansion cabinet. Their main function is to distribute the line equipment bus and synchronous junctions to the expansion card slots. 3.8.
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hardware fault detection is performed. The unavailability time on the cabinet can, therefore, be up to 3 minutes. ). Duplicating the hardware functions During a switchover, once the passive card has become active and functional, all the hardware functions become automatically available again, through hardware function redundancy on both cards, and through the centralisation of the front panel connections on the IUCV-D card.
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Power supply duplication Aastra XD can receive two ADS 350XD or ADS 300XD power sypply modules (simplex configuration with secure power supply and duplex configuration) in the same cabinet (main cabinet and expansion cabinets), see Section 3.8.6. Attention :Both ADS350XD and ADS300XD in the same cabinet is not possible. Duplication of integrated services The following functions are duplicated on Aastra XD: • Integrated call distribution (integrated ACD, music on hold, spoken announcements).
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3.8.4 Synchronisation chain (Plate 9.1) The synchronisation function ensures that an iPBX or an iPBX network is synchronised on a public digital network, and provides the multi-frame synchronisation required for DECT base stations. 3.8.4.1 Synchronisation of an isolated or master iPBX in a multi-site network The UCV CPU card contains a time base used to synchronise the iPBX on an external reference clock.
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When a reference clock is no longer valid, the oscillator is set on: • An average of the last values stored • After reset, a value programmed at the factory. The number of the expansion card generating the reference clock is stored by the operating software. 3.8.4.2 Management of the master/slave mode (multisite network) For a multisite network with DECT base stations, the various Aastra XS/XL/XD iPBXs require the same synchronisation signal.
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3.8.4.3 Propagation of the synchronisations inside a multisite network (Plate 9.4) The UCV/UCV-D card includes 2 synchronisation synchronisation inside a multi-site network.
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3.8.5.2 Monitoring Monitoring is ensured through: • Autotests: The various subassemblies of the iPBX (power supply unit, cards, main card functional modules) include software or hardware self-monitoring devices; their condition is broadcast to the central unit and triggers their resetting in case of fault, for CLX cards.
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3.8.5.4 Self protection Self protection of the iPBXs is ensured by the remote supply module: • Isolating the faulty elements using the power supply protection fuses • Monitoring the fans (see Section 3.8.7). 3.8.6 Power supply chain (figure 3.23) 3.8.6.1 Aastra XD Aastra XD cabinets are powered by one or two plug-in power supply units (type ADS350XD or ADS300XD). Caution : Both ADS350XD and ADS300XD in the same cabinet is not possible.
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The mains is distributed to the power supply module's rectifier through: • A mains switch used to power the supply module on or off • Two fuses. A converter inside the power supply module converts the 48 V power supply generated by the battery or rectifier to the low voltages required by the various subassemblies of the iPBX.
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Battery CABINET BACKPLANE CARD P.sup UCV-D/RUCV-D card Cards internal circuit power supllies 48 V Line power supplies 48 V Ringing current Rectifier Converter Fuses "I/O" Failure of both fans Fan monitoring 0"8?-!42)8?8$?!,)-?3)-0,%8?39./0? ? 115 V/230 V POWER SUPPLY MODULE intermodule signals EXPANSION CARDS P.sup Alarms P.sup VENTILATION MODULE P.sup Figure 3.
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Battery CABINET BACKPLANE CARD Active UCV-D/RUCV-D card P.sup Cards internal circuit power supplies 48 V Line power supplies 48 V Ringing current Rectifier Converter Fuses "I/O" Failure of both fans P.sup Fan monitoring IUCV-D card POWER SUPPLY MODULE Cards internal circuit power supply 48 V P.sup Line power supplies 48 V 0"8 -!42)8 8$ !,)- $50,%8 39./0 V/230 V Passive UCV-D/RUCV-D card Ringing current Rectifier Convecteur EXPANSION CARDS Fuses V/230 V P.
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3.8.6.2 Aastra XS/XL The internal power supplies are distributed by a converter supplied with alternating voltage: 115/230 V - 50/60 Hz.
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A converter inside the power supply module converts the 48 V power supply generated by the battery or rectifier to the low voltages required by the various subassemblies of the iPBX. "ATTERIE #/&&2%4 #!24% &/.$ $% 0!.)%2 !LIM #ARTE 5#6 , 25#6 , !LIMENTATIONS CIRCUITS INTERNES DES CARTES 6 !LIMENTATIONS DE LIGNE 6 #OURANT DE SONNERIE 2EDRESSEUR #!24%3 %84%.3)/.3 #ONVERTISSEUR &USIBLES ) / $ÏFAUT DES DEUX VENTILATEURS 3URVEILLANCE VENTILATEUR 0"8?-!42)8?8,?!,)-?39.
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"ATTERIE #/&&2%4 #!24% &/.$ $% 0!.)%2 !LIMENTATIONS CIRCUITS INTERNES DES CARTES 6 !LIMENTATIONS DE LIGNE 6 #ONVERTISSEUR #!24% 5#6 3 #!24%3 %84%.3)/.3 #OURANT DE SONNERIE !LIM 2EDRESSEUR #!24% %84 3 6 6 &USIBLES !LIM ) / $ÏFAUT DES DEUX VENTILATEURS 3URVEILLANCE VENTILATEUR !LIM -/$5,% !,)-%.4!4)/. Figure 3.
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"ATTERIE #/&&2%4 #!24% &/.$ $% 0!.)%2 !LIMENTATIONS CIRCUITS INTERNES DES CARTES 6 !LIMENTATIONS DE LIGNE 6 #ONVERTISSEUR #!24% 5#6 3 #!24%3 %84%.3)/.3 #OURANT DE SONNERIE !LIM 2EDRESSEUR 6 6 #!24% %84 3 OU %84 3 &USIBLES !LIM ) / $ÏFAUT DES DEUX VENTILATEURS 3URVEILLANCE VENTILATEUR !LIM -/$5,% !,)-%.4!4)/. Figure 3.
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3.8.7 Internal monitoring of AXS/AXL/AXD A monitoring device built into the power supply module prevents full discharging of the battery in the absence of mains, or in case of rectifier failure/shutdown. The power supply module is fitted with: • 4 fans (AXD), that is 2 fans per power supply module and per ventilation module, or • 2 fans (AXL), or • 1 fan (AXS, AXS12 and AXS6). The converter stops when the fan(s) is (are) detected as faulty (tachometric monitoring inactive).
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• Battery in parallel on an A3XD or A3XL iPBX (3 cabinets) If you do not wish to use 3 batteries (one per cabinet), but only one for the 3 cabinets together, use a battery complying with the specifications in the following table: BATTERY SPECIFICATIONS CAPACITY Number of battery elements (battery type YUASA NP38-12) 4 Voltage 4 x 12 V (12 V per battery element) Capacity (amp/hours) 38 Ah Battery autonomy 4h TABLEAU 3.
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1L L 75 1L L 75 1L L 75 1L 5 7L 1L L 75 1L L 75 8L L 0 1L L 5 LN 16X L 80 17L L LN 16X L 75 L 08L 17L L 5 LN 16X L 8L 0 LN 16X L 08L LN 16X L 8 0L LN 16X 8L L 0 1L L 5 LN 16X L 80 17L L LN 16X L 75 L 08L 17L L 5 LN 16X L 8L 0 LN 16X L 08L LN 16X L 8 L 0 LN 16X L L 08 L N 16X L 80 L L N 16X L 8L 0 L N 16X 12V 38AH + 12V 38AH + - + 12V 38AH + 12V 38AH - Figure 3.
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• Battery in parallel on an A2XD or AXL iPBX (2 cabinets) If you do not wish to use 2 batteries (one per cabinet), but only one for the 2 cabinets together, use a battery complying with the specifications in the following table: BATTERY SPECIFICATIONS CAPACITY Number of battery elements 4 Voltage 4 x 12 V (12 V per battery element) Capacity (amp/hours) 24 Ah Battery autonomy 3 h 30 mn TABLEAU 3.
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L 80 L LN 16X 8 L 0L LN 16X L 8L 0 LN 16X L 80 1L L 5 N 16X E L 1TL T2X1LL775 E 1TL LT2X1LL75 1L 5 7L 1L L 75 1L 5 7L 8L L 0 L N 16X L 80L L N 16X L 8L 0 L N 16X 80L L LN 16X L 80 L LN 16X L 8 L 0 LN 16X 12V 24AH 12V 24AH + 12V 24AH + Figure 3.
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• Battery pack in parallel on an A2XS iPBX (2 cabinets) If you do not wish to use 2 batteries (one per cabinet), but only one for the 2 cabinets together, use a battery complying with the specifications in the following table: BATTERY SPECIFICATIONS CAPACITY Number of battery elements (battery type YUASA NP4-12) 4 Voltage 4 x 12 V (12 V per battery element) Capacity (amp/hours) 7.5 Ah Battery autonomy 1h TABLEAU 3.
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3.8.7.1.2 INSTALLATION The various specifications (connections, wiring, etc.) relating to the installation of the external battery are described in the sections dealing with the power supply module (see section 4.2). If a single battery pack is used for an entire A3XD, A3XL or A2XS iPBX, see Figure 3.26 , Figure 3.27 and Figure 3.30 . 3.8.7.2 Ventilation Aastra XD Ventilation is provided by the 4 fans on the power supply units, which draw air from the cabinet on the rear of the power supply module.
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3.9.2 Standard configuration The standard configuration is a customised configuration. It caters for the special requirements of a company. The standard configuration is suitable for single-company installations, whether in small premises or for larger-scale organisations with a large number of extensions. Customisation can include changing the numbering plan, setting up an automatic call distribution service, defining categories, and much more to optimise the use of the iPBX by the customer. 3.9.
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3.10 The user interface The user interface is a PC, running with Windows (2000, XP, ..) or Linux, fitted with web browser (such as Internet Explorer, Filezilla ) for accessing Aastra Management Portal (AMP), see Section 6.2.6. This console can be connected: • Locally to the "LAN" port located on the front panel of the CPU card • Remotely to the same LAN as the iPBX • Remotely via an analogue or ISDN modem • Remotely via an ISDN router Note : See the corresponding sections for these different access types.
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4 Description des sous-ensembles 4.1 Expansion cards 4.1.1 DescriptionDescription des sous-ensembles Aastra XS/XL/XD expansion cards exist in RJ45 physical format, a format fitted with a front panel for RJ45 connectors. These cards are called "RJ cards". The dimensions of the cards (Lx16-X) are 280 mm in depth and 100 mm in width. Card format The physical interface of the card with the rest of the system is provided through a 96-pin HE12 connector connected to the backplane.
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Extraction keys are used to lock and extract cards and blanking plates. A card is locked as follows (see Figure 4.1 ): • Set the two 1/4-turn locks in the horizontal position. • Push the card to the bottom of its slot inside the cabinet. • Turn the locks by 1/4 turn inwards the inside to lock the card in its slot. Carte déverrouillée Pivoter d'1/4 de tour vers l'intérieur Carte verrouillée Carte déverrouillée PBX_MATRIX_CARTE_PPE-VERROU_MONT_01_01 Pivoter d'1/4 de tour vers l'extérieur Figure 4.
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• A card is extracted as follows (see Figure 4.1 ): • Turn the two 1/4 turn locks outward to unlock the card. • Pull the two locks to extract the card. 4.1.2 Loading CLX cards • The flash memory on CLX cards contain the start-up software; an image of the application software can be inserted, installed, etc. on it. • They can be fully loaded during an update using a BOF3 card (see section1.3, Document [3]).
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4.2 Power supply module 4.2.1 ADS 350XD (AXD iPBX) 4.2.1.1 Description ADS 350AXD is the power supply module of the main cabinet and expansion cabinet of an AXD iPBX. It replaces the ADS300XD module, and offers extra 50 W and an enhanced cooling system (a plate has been added to the left side). Depending on the Aastra XD configuration, power is supplied to the cabinets through one or two ADS350XDpower supply modules: • For a simplex configuration, only one power supply module is used by the cabinet.
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4.2.1.3 Monitoring Two 5 A fuses located upstream from the rectifier are used to isolate the power supply module in case of overvoltage. An F300 (6.3 A) fuse inside the power supply module (see Figure 4.3 ) protects the power supply in case of polarity inversion when connecting the battery. The converter monitors the voltage on the battery terminals, and stops when this voltage drops below a threshold set at 43V.
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The fuse holder is located between the "I/O" switch and the mains outlet. The ADS 350XD is fitted with two 80 mm diameter fans located at the back of the power supply module. Connectors The front panel of the power supply module has a mains socket.
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The ADS 350XD power supply module is supplied with a battery connection cable fitted with a 4 pin connector, with a centring piece to prevent polarity inversion when connecting the backup battery. 4.2.2 ADS 300XD (AXD iPBX) Note : From R5.1, the new module ADS350XD (AHJ0033) replaces the old ADS300XD (refer to the corresponding paragraph). 4.2.2.1 Description ADS 300AXD is the power supply module of the main cabinet and expansion cabinet of an AXD iPBX.
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The rectifiers of several power supplies can be connected in parallel to a battery. The rectifier can be connected to a 115 V or 230 V (+/- 10%) mains, 50 Hz or 60 Hz, without configuration, • two fans supplied by the converter 12V DC voltage draw air towards the rear of the cabinet. 4.2.2.3 Monitoring Two 3.15 A fuses located upstream from the rectifier are used to isolate the power supply module in case of overvoltage. An F300 (6.3 A) fuse inside the power supply module (see Figure 4.
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4.2.2.4 Physical description (Figure 4.3 ) The ADS 300XD power supply module is a 218 mm high, 135 mm wide and 292 mm deep plug-in rack, extraction handles excluded. The maximum height of the components above the PCB is 70 mm. An "I/O" switch on the front panel is used to power the supply on and off. The fuse holder is located between the "I/O" switch and the mains outlet. The ADS 300XD is fitted with two 80 mm diameter fans located at the back of the power supply module.
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4.2.2.6 Installation and wiring The ADS 300XD power supply module is supplied with a battery connection cable fitted with a 4 pin connector, with a centring piece to prevent polarity inversion when connecting the backup battery. 4.2.3 ADS 350X (AXL iPBX) 4.2.3.1 Description Note : ADS 350X is the power supply module of the main cabinet and expansion cabinet of an AXL iPBX. It replaces the ADS300 X module, and offers extra 50 W and an enhanced cooling system (a plate has been added to the left side).
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4.2.3.3 Monitoring Two 5 A fuses located upstream from the rectifier are used to isolate the power supply module in case of overvoltage. An F300 (6.3 A) fuse inside the power supply module (see Figure 4.5 ) protects the power supply in case of polarity inversion when connecting the battery. The converter monitors the voltage on the battery terminals, and stops when this voltage drops below a threshold set at 43V.
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4.2.3.4 Physical description (Figure 4.5 ) The ADS 350X power supply module is a 7U high, 112mm wide and 316mm deep plug-in rack, extraction handles excluded. The maximum height of the components above the PCB is 90 mm. An "I/O" switch on the front panel is used to power the supply on and off. The fuse holder is located between the "I/O" switch and the mains outlet. The ADS 350X is fitted with 2 80mm diameter fans located at the back of the power supply module.
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Indicators The ADS 350X power supplies include 6 indicators on the front panel giving the following indications: SYMBOL INDICATOR STATE EXPLANATION On Line Power Present On Battery connected On Rectifier On On Converter On On Bell current generator On On Fans present On 40 V ISDN present 48V 40 V IS TABLEAU 4.3 PRESENTATION OF ADS 350X POWER SUPPLY MODULE INDICATORS 4.2.3.5 Hardware configuration The mains voltage, 115 V or 230V (+/- 10%), is detected automatically, internally. 4.2.3.
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4.2.4 ADS 300X (AXL iPBX) 4.2.4.1 Description Note : From R5.1, the new module ADS350XD (AHJ0033) replaces the old ADS300XD (refer to the corresponding paragraph). ADS 300X is the power supply module of the main cabinet and expansion cabinet of an AXL iPBX. The mains power supply voltage is 115/230 V - 50/60 Hz - 300 W. An optional, external 48V backup battery can be installed (see Section3.8.7.1 ). 4.2.4.2 Functional description (Figure 3.
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4.2.4.3 Monitoring Two 3.15 A fuses located upstream from the rectifier are used to isolate the power supply module in case of overvoltage. An F300 (6.3 A) fuse inside the power supply module (see Figure 4.5 ) protects the power supply in case of polarity inversion when connecting the battery. The converter monitors the voltage on the battery terminals, and stops when this voltage drops below a threshold set at 43V.
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4.2.4.4 Physical description (Figure 4.5 ) The ADS 300X power supply module is a 7U high, 112mm wide and 316mm deep plug-in rack, extraction handles excluded. The maximum height of the components above the PCB is 90 mm. An "I/O" switch on the front panel is used to power the supply on and off. The fuse holder is located between the "I/O" switch and the mains outlet. The ADS 300X is fitted with 2 80mm diameter fans located at the back of the power supply module.
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Indicators The ADS 300X power supplies include 6 indicators on the front panel giving the following indications: SYMBOL INDICATOR STATE EXPLANATION On Line Power Present On Battery connected On Rectifier On On Converter On On Bell current generator On On Fans present On 40 V ISDN present 48V 40 V IS TABLEAU 4.4 PRESENTATION OF ADS 300X POWER SUPPLY MODULE INDICATORS 4.2.4.5 Hardware configuration The mains voltage, 115 V or 230V +/- 10%), is detected automatically, internally. 4.2.4.
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4.2.5 ADS 150X (AXS and AXS12 iPBXs) 4.2.5.1 Description ADS 150X is the power supply module of the main cabinet and expansion cabinet of AXS and AXS12 iPBXs. The mains power supply voltage is 115 V or 230 V, 50 Hz or 60 Hz 150 W. An external 48 V backup battery can be installed optionally (see section 3.8.7.1). 4.2.5.2 Functional description ADS 150X includes the following functional blocks (see Section 3.8.6): • A 48V converter supplying the following voltages: - +5 V / 7 A - -5 V / 0.1 A - +12 V/0.
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components above the PCB is limited to 77 mm. The ADS 150X card is secured on cross-pieces screwed on the back of the cabinet. An "I/O" switch on the front panel of the AXS cabinet is used to power the supply on and off. The fuse holder is located between the "I/O" switch and the mains socket at the back of the cabinet. ADS 150X is fitted with an 80 mm diameter fan, located on the left of the power supply module.
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4.3 UCV-D card 4.3.1 Functional description The UCV-D card provides the following functions described in Section 3.8.1: • Data and voice switching • Duplex logic and start • Signal processing • Voice mail server • Defence (management of interface card statuses) • Synchronisation • Management of interface card commands.
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J3 J1 J2 J14: EIP card No. 2 J13: EIP card No.
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Figure 4.
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4.3.2 Physical description NAME FUNCTIONS/CHARACTERISTICS CONTACTS J1 (rear panel) Female connector, 192 pins: • Backplane connection • Includes the synchronous junctions (equipment bus) used in the main cabinet, the reference clocks and system bus. J2 (rear panel) Female connector, 48 pins: • Backplane connection • Link with the connector of the RUCV card in an expansion cabinet. J3 Female connector, 48 pins: • Backplane connection • Used for specific duplex UCV signals.
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NAME FUNCTIONS/CHARACTERISTICS CONTACTS USB (A) (1) USB connector in HOST mode • • • • Pin 1: PWR0 Pin 2: DNEG0 Pin 3: DPOS0 Pin 4: GND USB (A) (1) USB connector in HOST mode • • • • Pin 1: PWR1 Pin 2: DNEG1 Pin 3: DPOS1 Pin 4: GND ETH1 (1) RJ45 connector • • • • • • • • Pin 1: RXP Pin 2: RXM Pin 3: TXP Pin 4: TLBR Pin 5: TLBR Pin 6: TXM Pin 7: RLBR Pin 8: RLBR ETH2 (1) RJ45 connector:Connection used for the access Administration in the case of configuration of separation of the networks Adm
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4.3.2.1 Indicators The UCV-D card has 8 indicators plus the ones integrated in the LAN connection. An indicator may contain several LEDs : INDICATOR STATE EXPLANATION EIP No.1 ON green Activity on Ethernet link: EIP daughter card No.1 EIP No. 2 ON green Activity on Ethernet link: EIP daughter card No.2 SHTD (red) Linux shutdown Red flashing ON green Off PBX shutting down after the SHTD button has been pressed, or following a Reset OS or Reboot OS request by MMC (do not power off the device).
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Pushbuttons The front panel includes: • An "RST" push button. It should only be used as a last resort when the SHTD push button is not working. • A "SHTD" (shutdown) push button: From the buttons on the CPU card front panel, you have to distinguish between two types of restart operations: • Restart with OS reboot (shutting down and restarting the iPBX) • Forced restart (not recommended in normal operation).
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• If a hardware failure is detected on the active UCV-D card (in this case, a hardware fault detection is performed. The unavailability time on the cabinet can, therefore, be up to 3 minutes). The equipment connected to the UCV-D card has the installation details described in Section 5.
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4.4 IUCV-D card 4.4.1 Functional description The iUCV-D card supports the system’s external connections: • One removable i-button circuit for storing the iPBX ID number used in locking and unlocking the optional software functions • One console port (reserved for the manufacturer). Note: Do not use the IUCV-D console port.
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J1 i-Button.
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Figure 4.
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4.4.
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4.4.2.1 Connectors NAME FUNCTIONS/CHARACTERISTICS J1 (rear panel) Female connector, 192 pins: link with the UCV-D card CONSOLE (1) DB9-M connector: reserved for the manufacturer.
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NAME FUNCTIONS/CHARACTERISTICS CONTACTS ALARM / REMOTE DB25-F connector: hosts the alarms and relays • CONTROL connection: (1) • includes four alarm inputs controlled by a TTL • electric level, used for the built-in UAD function. • 1 13 • 4 command relays (2).
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RELAYS (1) FUNCTIONS STATE R1 Remote control Work + 12 V (1) R2 Alarm relays (assignment of alarms by MMC). See Document [1] R3 Reduced service or Common Bell R4 "Watchdog" alarm Idle + Work (see section 5.6.3.2) Work (see section 5.6.2.1) Work The R1 Remote control relay delivers a +12V voltage through an 8 Ohm CTP TABLEAU 4.9 DESCRIPTION OF IUCV CARD RELAYS The following figure illustrates the R1, R2 and R3 relays of the iUCV card. Note: The relay positions shown are the inactive states.
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4.4.2.2 Indicators The iUCV-D card includes 2 sets of 3 superimposed indicators, each indicator can have 2 LEDs: INDICATOR S.EXT (green/red) STATE ON green EXPLANATION Correct synchronisation clock (primary network or DECT port) Synchronisation clock fault alarm ON red No correct synchronisation clock (primary network or DECT port) Off BVF (green/orange) S.
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4.4.3 Hardware and software configuration During operation, the IUCV-D card does not have any hardware configuration. 4.4.4 Installation and wiring The IUCV-D card can be hot-plugged/removed in an operational AXD iPBX. The equipment connected to the IUCV-D card has the installation details described in Section 5.6: • External music source • Common bell (on R3 relay) • Alarm bell (on R2 relay).
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4.5 RUCV-D card 4.5.1 Functional description The RUCV-D card is installed instead of the UCV-D card in the expansion cabinets. Its primary function is to distribute and monitor the status of the line equipment bus and PCM synchronous trunks at the positions of the expansion cards. It includes a command interface for 16 equipment cards and 8 PCM trunks. 4.5.2 Physical description 4.5.2.1 Connectors NAME FUNCTION CONTACTS J1 Female connector, 192 pins: backplane connection.
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J1 J2 Figure 4.
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4.5.3 Hardware and software configuration This card does not require any hardware or software configuration. 4.5.4 Installation and wiring The RUCV-D card can be hot-plugged/removed in an operational AXD iPBX. Warning: After a switchover the duration of which depends on the configuration (15 s. to 1 min.
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4.5.4.1 Connecting an expansion cabinet (A2XD) • Simplex configuration: connecting UCV-D (A) / RUCV-D (A) (see Figure 4.13 ) - Install the red clamps at each end of the AXD-A2XD connection cable. XD 2XD 3XD B B-2XD B XD B-2XD 2XD 3XD B B A A B-3XD B-3XD A-2XD A A A-2XD A-3XD A-3XD AXD MAIN CABINET A2XD EXPANSION CABINET Figure 4.13 CONNECTING AN EXPANSION CABINET (SIMPLEX CONFIGURATION, UCV-D(A)/ RUCV-D(A)) • Simplex configuration: connecting UCV-D (B) / RUCV-D (B) (see Figure 4.
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• Duplex configuration: (see Figure 4.15 ). - UCV-D (A) / RUCV-D (A) connection - Install the red clamps at each end of the AXD-A2XD connection cable. - UCV-D (B) / RUCV-D (B) connection - Install the yellow clamps at each end of the AXD-A2XD connection cable. XD XD 2XD 3XD B B-2XD 2XD 3XD B-2XD B B B A A B-3XD B-3XD A-2XD A A-2XD A A-3XD A-3XD A2XD EXPANSION CABINET AXD MAIN CABINET Figure 4.15 CONNECTING AN EXPANSION CABINET (DUPLEX CONFIGURATION) 4.5.4.
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• Simplex configuration: connecting UCV-D (B) / RUCV-D (B) (see Figure 4.17 ) - Install the yellow clamps at each end of the AXD-A2XD connection cable. - Install the blue clamps at each end of the AXD-A3XD connection cable. XD 2XD 3XD B B-2XD B XD B-2XD 2XD 3XD B B A-2XD A A A-2XD A A AXD MAIN CABINET B B A-2XD A A A-3XD A-3XD A-3XD 2XD 3XD B-3XD B-3XD B-3XD XD B-2XD A2XD EXPANSION CABINET A3XD EXPANSION CABIN Figure 4.
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• Duplex configuration: (see Figure 4.18 ). - UCV-D (A) / RUCV-D (A) connection - Install the red clamps at each end of the AXD-A2XD connection cable. - Install the green clamps at each end of the AXD-A3XD connection cable. - UCV-D (B) / RUCV-D (B) connection - Install the yellow clamps at each end of the AXD-A2XD connection cable. - Install the blue clamps at each end of the AXD-A3XD connection cable.
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4.6 UCV-L card 4.6.1 Functional description The UCV-L card provides the following functions described in Section3.8.1: • Data and voice switching • Signal processing • Voice mail server • Defence (management of interface card statuses) • Synchronisation • Management of interface card commands.
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• The UCV-L card can be fitted with two EIP daughter cards for managing VoIP communications. These two daughter cards have 8/32 channels each for signal processing. Note: The UCV-L card is compatible with the ROHS Directive.
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J2 J1 BATTE- CARD COMPACT FLASH J14: EIP card No. 2 J13: EIP card No. 1 i-Button. Figure 4.
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4.6.2 Physical description 4.6.2.1 Connectors NAME FUNCTIONS/CHARACTERISTICS CONTACTS J1 (rear panel) Female connector, 192 pins: • Backplane connection • Includes the synchronous junctions (equipment bus) used in the main cabinet, the reference clocks and system bus. J2 (rear panel) Female connector, 48 pins: link with the RUCV card connector in an expansion cabinet. J13 and J14 CMS 80-pin connectors: receive two optional daughter cards - EIP No. 1 on J13 and EIP No.
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NAME FUNCTIONS/CHARACTERISTICS CONTACTS USB (B) (1) USB connector in DEVICE mode • • • • • Pin 1: NC Pin 2: DNEG2 Pin 3: DPOS2 Pin 4: User ID Pin 5: GND ETH1 (1) RJ45 connector • • • • • • • • Pin 1: RXP Pin 2: RXM Pin 3: TXP Pin 4: TLBR Pin 5: TLBR Pin 6: TXM Pin 7: RLBR Pin 8: RLBR ETH2 (1) RJ45 connector:Connection used for the access Administration in the case of configuration of separation of the networks Administration and Telephony. (refer to Manual AMT/PTD/PBX/0101).
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NAME FUNCTION/CHARACTERISTIC LAN (1) 1 8 MUSIC (1) 8 1 CONTACTS RJ45 connector: host the Ethernet 10/100BASE-TX • • LAN access. • Note: Applications that use the • VTI/XML protocol (i2052 in • CTI, TWP mode) can be • connected directly to this 10/ • • 100-TX LAN port. Pin 1: TXP Pin 2: TXM Pin 3: RXP Pin 4: TLBR Pin 5: TLBR Pin 6: RXM Pin 7: RLBR Pin 8: RLBR RJ45 connector: hosts an external source of music- • • on-hold. • MUSA: Input impedance 15 Kohms. • MUSB: Input impedance 600 Kohms.
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RELAYS FUNCTIONS STATE R1 Remote control Work + 12 V (1) R2 Alarm relays (assignment of alarms Idle + Work (see Section 5.6.3.2, sec by MMC). See Document [1] contact) R3 Reduced service or Common Bell Work (see Section 5.6.2.2, contact) R4 "Watchdog" alarm Work (sec contact) (1) The R1 Remote control relay delivers a +12V voltage through an 8 Ohm CTP (2) The R2, R3 and R4 relays deliver +12V through a 25 Ohms CTP. sec TABLEAU 4.
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Figure 4.20 illustrates the R1, R2 and R3 relays of the UCV card. Note: The relay positions shown are the inactive states. R1: switching relay R2: 'alarm relay (assignment by MMC) R3: reduced service relay connection ofacommon bell R4: "watchdog" alarm Figure 4.
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4.6.2.2 Indicators The UCV-L card includes 2 sets of 5 superimposed indicators; each indicator may have 2 LEDs: INDICATOR STATE EXPLANATION EIP No.1 Lnk/Speed Off ON green ON yellow 100 MHz, activity on Ethernet link: EIP daughter card No.1 10 MHz, activity on Ethernet link: EIP daughter card No.1 EIP No. 2 ON green ON yellow 100 MHz, activity on Ethernet link: EIP daughter card No.2 10 MHz, activity on Ethernet link: EIP daughter card No.
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Figure 4.21 PRESENTATION OF UCV-L CARD INDICATORS Pushbuttons The front panel includes: • An "RST" pushbutton for resetting the iPBX • A "SHTD" (shutdown) push button: Same procedure as for AXD, AXL and AXS/AXS12. From the buttons on the CPU card front panel, you have to distinguish between two types of restart operations: • Restart with OS reboot (shutting down and restarting the iPBX) • Forced restart (not recommended in normal operation).
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4.6.4 Installation and wiring The equipment connected to the UCV-L card has the installation details described in Section 5.
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4.7 UCV-S cards 4.7.1 Functional description The UCV-S card provides the same functions as the UCV-L described in Section 4.6.1 Daughter cards • The UCV-S card can be fitted with two EIP daughter cards for managing VoIP communications. These two daughter cards have 8/32 channels each for signal processing. Note: The UCV-S card is compatible with the ROHS Directive.
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J2 BATTERY J1 COMPACT FLASH1 J14: EIP CARD NO. 2 J13: EIP CARD NO. 1 I-BUTTON. Figure 4.
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4.7.2 Physical description 4.7.2.1 Connectors NAME FUNCTIONS/CHARACTERISTICS CONTACTS J1 (rear panel) Female connector, 192 pins: • Backplane connection • Includes the synchronous junctions (equipment bus) used in the main cabinet, the reference clocks and system bus. J2 (rear panel) Female connector, 48 pins: link with the RUCV card connector in an expansion cabinet. J13 and J14 80-pin CMS connectors: receive two optional daughter cards - EIP No. 1 on J13 and EIP No.
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USB (B) (1) USB connector in DEVICE mode • • • • • Pin 1: NC Pin 2: DNEG2 Pin 3: DPOS2 Pin 4: User ID Pin 5: GND ETH1 (1) RJ45 connector • • • • • • • • Pin 1: RXP Pin 2: RXM Pin 3: TXP Pin 4: TLBR Pin 5: TLBR Pin 6: TXM Pin 7: RLBR Pin 8: RLBR ETH2 (1) RJ45 connector:Connection used for the access Administration in the case of configuration of separation of the networks Administration and Telephony. (refer to Manual AMT/PTD/PBX/0101).
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NAME FUNCTION/CHARACTERISTIC RJ45 8-pin connector: hosts an external source of • • music-on-hold. • MUSA: Input impedance 15 Kohms. • MUSB: Input impedance 600 Kohms. • ETM: external source present. • • MUSIC (1) 8 CONTACTS 1 ALARM / REMOTE DB25-F connector: hosts the alarms and relays • CONTROL connection: (1) • includes four alarm inputs controlled by a TTL • electric level, used for the built-in UAD function. 1 13 • • 4 command relays (2).
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4.7.2.2 Indicators The UCV-S card includes 2 sets of 5 superimposed indicators, each indicator can have 2 LEDs: INDICATOR EIP No.1 Lnk/Speed inactive STATE EXPLANATION ON green Off: ON yellow 100 MHz, activity on Ethernet link: EIP daughter card No.1 10 MHz, activity on Ethernet link: EIP daughter card No.1 EIP No. 2 ON green ON yellow 100 MHz, activity on Ethernet link: EIP daughter card No.2 10 MHz, activity on Ethernet link: EIP daughter card No.
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S.DECT (green/red) ON green ON red Flashing green (slowly) Flashing green (average) Flashing green (rapidly) DECT synchronisation correct DECT synchronisation loss alarm Received synchronisation not validated Synchronisation test Synchronisation successful TABLEAU 4.
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• Forced restart (not recommended in normal operation). Restart with OS reboot (shutting down and restarting the iPBX) Pressing and holding down the "SHTD" button (5 seconds), triggers an "OS reboot" (shutdown + iPBX restart). Forced restart (not recommended in normal operation) Press "RST". This button should only be used as last resort if pressing the "SHTD" button does not work.
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4.7.3 Hardware and software configuration The following configurations are performed by MMC from Aastra Management Portal: • configuration of the T lines, S or DECT terminal. • Master/Slave mode of the synchronisation port (by default set to Master). • Priority/Non Priority mode of the synchronisation port (by default set to Priority). • setting of the input level for the external music on hold. • setting of the delay to be applied to the DECT synchronisation signal.
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4.8 EXT1-S card 4.8.1 Functional description The EXT1-S card offers the following functions: - additional interfaces for telephone equipment: - 8 analogue set interfaces (type LA16X), - 8 digital set interfaces (type LN16X), - 4 configurable ISDN interfaces: • In T0 for connection to the network • Or in S0 for connecting terminals or DECT base stations (with 2 channels and 4 channels if fitted with an ADPCM16V daughter card). Note: - The integrated S0 accesses manage synchronisation by bit M frame S.
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J6 J5 Figure 4.
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4.8.2 Physical description The EXT1-S card is fitted on the front panel of RJ45 sockets for the equipment interfaces 4.8.2.1 Connectors NAME Function/characteristic J5 48-pin connector for LVDS link with the processor card J6 48-pin connector for power supply, and clock and interruption signals. S/T0, S/T1, S/T2, S/T3 (1) RJ45 connectors: T0/S0 access. 1 8 RJ45 connectors: T0 access.
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4.8.2.2 Indicators The EXT1-S card does not have any indicators on the front panel. 4.8.3 Hardware and software configuration The EXT1-S card has 4 jumpers for configuring remote power supply of the S/T0 to S/T3 accesses (one jumper block for each access). These jumpers are fitted on connectors J29_xx and J30_xx located on the front panel of the EXT1-S card (J29_30 for S/T0 access, J29_31 and J30_31 for S/T1 access). The four accesses are placed vertically on the card.
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4.8.3.1 Installation and wiring The A0 to A7 interfaces of the EXT1-S card have installation details identical to those of the interfaces of the LA16X card (see Section 4.14.1.5). The N0 to N7 interfaces of the EXT1-S card have installation details identical to those of the interfaces of the LN16X card (see Section 4.14.5.5). The S/T0 to S/T3 interfaces of the EXT1-S card have installation details identical to those of the interfaces of the LD4 card for T accesses (see Section 4.13.2.
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EXT1-S card RJ45 connector Base station RJ45 connector Pin 6 (NED1) Pin 5 Pin 3 (ED1) Pin 4 Pin 5 (NRD1) Pin 6 Pin 4 (RD1) Pin 3 TABLEAU 4.
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4.8.4 Hardware and software configuration The following configurations are performed by MMC from Aastra Management Portal: • configuration of the T lines, S or DECT terminal. • Master/Slave mode of the synchronisation port (by default set to Master). • Priority/Non Priority mode of the synchronisation port (by default set to Priority). • setting of the input level for the external music on hold. • setting of the delay to be applied to the DECT synchronisation signal.
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4.9 EXT1-S12 card 4.9.1 Functional description The EXT1-S12 card offers the following functions: - additional interfaces for telephone equipment: - 8 analogue set interfaces (type LA16X), - 4 digital set interfaces (type LN16X), - 4 configurable ISDN interfaces: • In T0 for connection to the network • Or in S0 for connecting terminals or DECT base stations (with 2 channels and 4 channels if fitted with an ADPCM16V daughter card).
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Figure 4.
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4.9.2 Physical description The EXT1-S12 card is fitted on the front panel of interfaces 4.9.2.1 RJ45 sockets for the equipment Connectors NAME Function/characteristic contacts J5 48-pin connector for LVDS link with the processor card J6 48-pin connector for power supply, and clock and interruption signals. S/T0, S/T1, S/T2, S/T3 (1) RJ45 connectors: T0/S0 access. 1 RJ45 connectors: used to connect 8 analogue sets.
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4.9.3 Hardware and software configuration The EXT1-S12 card has 4 jumpers for configuring remote power supply of the S/T0 to S/ T3 accesses (one jumper block for each access). These jumpers are fitted on connectors J29_xx and J30_xx located on the front panel of the EXT1-S12 card (J29_30 for S/T0 access, J29_31 and J30_31 for S/T1 access). The four accesses are placed vertically on the card. The one at the bottom is the S/T0 access and the one at the top the S/T3 access.
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the interfaces of the LA16X card (see Section 4.14.1.5). The N0 to N3 interfaces of the EXT1-S12 card have installation details identical to those of the interfaces of the LN16X card (see Section 4.14.5.5). The S/T0 to S/T3 interfaces of the EXT1-S12 card have installation details identical to those of the interfaces of the LD4 card for T accesses (see Section 4.13.2.1) but are different for S accesses. Caution: The S/T accesses of the EXT1-S12 card are wired in T.
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Wiring DECT base stations Each base station is connected to an ISDN S0 (BRI) interface of an EXT1-S12 card, and uses two pairs: 1 transmit pair and 1 reception pair (refer to document [6] (see Section1.3) for more information). A twisted cable or S0/T0 adaptor is required to connect DECT base stations.
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4.10 EXT1-S6 card 4.10.1 Functional description The EXT1-S62 card offers the following functions: - additional interfaces for telephone equipment: - 4 analogue set interfaces (type LA16X), - 2 digital set interfaces (type LN16X), - 2 configurable ISDN interfaces: • In T0 for connection to the network • Or in S0 for connecting terminals or DECT base stations (with 2 channels and 4 channels if fitted with an ADPCM16V daughter card).
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4.10.2 Physical description The EXT1-S6 card is fitted on the front panel of interfaces RJ45 sockets for the equipment 4.10.2.1 Connectors NAME Function/characteristic J5 48-pin connector for LVDS link with the processor card J6 48-pin connector for power supply, and clock and interruption signals. S/T0, S/T1 (1) RJ45 connectors: T0/S0 access. • • • • • • Pins 1 and 2: NC Pin 3: EDX Pin 4: RDX Pin 5: NRDX Pin 6: NEDX Pins 7 and 8: NC RJ45 connectors: used to connect 4 analogue sets.
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4.10.3 Hardware and software configuration The EXT1-S6 card has 2 jumpers for configuring remote power supply of the S/T0 to S/T1 accesses (one jumper block for each access). These jumpers are fitted on connectors J29_xx and J30_xx located on the front panel of the EXT1-S16 card (J29_30 for S/T0 access, J29_31 and J30_31 for S/T1 access). Depending on the position of the jumpers, the S/T0 to S/T1 accesses will be configured as follows: • No remote power supply. • Remote supply of - 48 V. Figure 4.
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The N0 to N1 interfaces of the EXT1-S6 card have installation details identical to those of the interfaces of the LN16X card (see Section 4.14.5.5). The S/T0 to S/T3 interfaces of the EXT1-S6 card have installation details identical to those of the interfaces of the LD4 card for T accesses (see Section 4.13.2.1) but are different for S accesses. Caution: The S/T accesses of the EXT1-S6 card are wired in T.
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Wiring DECT base stations Each base station is connected to an ISDN S0 (BRI) interface of an EXT1-S6 card, and uses two pairs: 1 transmit pair and 1 reception pair (refer to document [6] (see Section1.3) for more information). A twisted cable or S0/T0 adaptor is required to connect DECT base stations.
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4.11 RUCV-L card 4.11.1 Functional description The RUCV-L card is installed instead of the UCV-L card in the expansion cabinet. Its basic function is to distribute and monitor the status of the line equipment bus and synchronous trunks at the positions of the expansion cards.
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4.11.2.2 Indicators INDICATOR STATE EXPLANATION LINK (front panel) flashing green not flashing Correct clock received on the LVDS expansion bus No clock (UCV stopped or cable disconnected) EQT. RUN (front panel) flashing green access to one of the expansion cards of the current cabinet TABLEAU 4.30 DESCRIPTION OF RUCV-L CARD INDICATORS 4.11.3 Hardware and software configuration This card does not require any hardware or software configuration.
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4.11.4 Installation and wiring Connecting an RUCV-L card to a UCV-L card requires a specific cable supplied with the expansion cabinet ("Y" cable, HG4784).
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J1 J3 J3 Figure 4.
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4.12 RUCV-S card 4.12.1 Functional description The RUCV-S card is installed instead of the UCV-S card in the expansion cabinet. Its basic function is to distribute and monitor the status of the line equipment bus and synchronous trunks at the positions of the expansion cards.
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EQT. RUN (front panel) flashing green Accessing one of the cabinet expansion cards TABLEAU 4.32 DESCRIPTION OF RUCV-S CARD INDICATORS 4.12.3 Hardware and software configuration This card does not require any hardware or software configuration. 4.12.4 Installation and wiring Connecting an RUCV-S card to a UCV-S card requires a specific cable provided with the expansion cabinet (cable HT8212AA01). Note: The basic cabinet does not have any internal connector for the inter-cabinet wire.
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J1 J2 Figure 4.
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4.13 Application cards (CLX) 4.13.1 LD4 card 4.13.1.1 Description This S0/T0 ISDN interface card is used to connect to ISDN terminals, DECT base stations or an ISDN network. The S0/T0 interface can be configured to supply: • one connection at reference point S0 to a terminal, • one connection at reference point T0 to the network. These cards also handle packet-mode data transmission service on channel D between the network and a terminal. 4.13.1.
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J3 SW8 SW7 J6 SW6 SW1 J4 J4 J2 SW4 ADAPT J1 SW5 J8 J1 SW3 J7 J5 J2 CONSOLE T 3 T 0 S 3 S 0 LD4 X PBX_MATRIX_CARTE_LD4RJ_FAV_01_01 LD4 card LD4 CARD FRONT PANEL Figure 4.35 OVERVIEW OF THE LD4 CARD 4.13.1.3 Physical description Connectors NAME J1 J4 J5 and J6 J9 Male 3-pin connector partially equipped. AMT/PTD/PBX/0058/4/6/EN Page 210 FUNCTIONS/CHARACTERISTICS CONTACTS 96-pin connector: backplane connection.
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NAME FUNCTIONS/CHARACTERISTICS RJ45 -8 pin connectors: reserved for the manufacturer. RJ45 -8 pin connectors: connection to S0 interface. RJ45 -8 pin connector: connection to S0 interface + ISDN 40 V remote supply voltage. RJ45 -8 pin connectors: connection to T0 interface. RJ45 -8 pin connector: connection to T0 interface + 40 V ISDN remote supply voltage(1). console S0 to S2 S3 T0 to T2 T3 (1) CONTACTS (1) (1) (1) (1) TABLEAU 4.
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4.13.2 Hardware configuration The ADAPT micro-switches are used to adapt lines (factory setting, leave set to ON). The CA2 microswitch (located on the copper side) is used to configure synchronisation (T0) and master or slave mode (S0). For LD4 in T0 MICROSWITCH CA2.1 ON EXPLANATION Leave set to ON position. If the LD4 card is fitted in a synchronising slot, the ON position allows the iPBX to take the ISDN network clock as reference clock. In a nonsynchronising slot, CA2.1 has no effect.
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The jumpers SW7, SW8 are used to select the 40V or 48V remote power supply. SW7 AND SW8 40 48 40 48 3 2 1 3 2 1 3 2 1 3 2 1 POSITIONS FUNCTION 1-2 Selects the 48 V power supply. 2-3 Selects the 40 V power supply. 4.13.2.1 Installation and wiring Caution: Activating a card connected to an ISDN network requires special programming on Aastra Management Portal. The LD4 card cannot be hot-plugged in a working iPBX. The iPBX must be powered off before inserting the card.
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Connecting an S0 interface The S0 bus is a shielded two-pair cable. Depending on the bus length and topology, between one and eight female RJ45 connectors can be connected to it, for one ISDN/S0 (BRI) terminal. Long bus (point to point) T0 PABX S0 connecteur 1 connecteur comportant les résistances d'adaptation du bus (100 Ohms, 1/4W) TNR TE1 jusqu'à 800 m Figure 4.
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Wiring DECT base stations Caution: Never invert the polarities of the clock and transmit/receive pairs. Each terminal is connected to the ISDN S0 (BRI) interface of an LD4 card, and uses 2 pairs: 1 transmit pair and 1 reception pair (refer to document [6] (see Section1.3) for more information). If there are a DECT base station and an S0 terminal supplied with 40 V (other than the base station) on the same card, the base station will be powered with a 40 V (available only on an AXL cabinet).
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4.13.2.2 Description of the signal processing daughter card: The card provides the 32 kbit/s ADPCM encoding/decoding function that enables multiple simultaneous calls on the same base station; it also provides echo damping and cancellation functions.
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4.13.3 LD4NX card 4.13.3.1 Description This S0/T0 ISDN interface card is used to connect to ISDN terminals, DECT base stations or an ISDN network. The S0/T0 interface can be configured to supply: • one connection at reference point S0 to a terminal, • one connection at reference point T0 to the network. These cards also handle packet-mode data transmission service on channel D between the network and a terminal.
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The S0 interface can supply remotely the terminal connected to it. This function is implemented through a dip-switch. The LD4NX card can be configured to use: • The -48V trunk or • On an AXL cabinet only, the 40V ISDN as remote power supply voltage of the S0 interfaces; the current is limited to 100 mA per interface. -48 V is supplied by the iPBX backplane. ISDN 40 V is supplied only by the AXL iPBX backplane and by external remote power supply cards (not provided on AXS).
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J14 1 2 3 J14 SW5 J4 SW6 J1-1 J2-1 J6 J1 J1-2 J2-2 CA1 HVAL J5 J1-3 J2-3 J1-4 J2-4 ON CA1 HVAL 1 2 CA1.1 = ON HVAL CA1.1 = OFF H non validée CA1.2 = non câblé LD4NX CARD RST NMI OFF T 3 T 0 S 3 S 0 RUN LD4NX Console LD4NX CARD FRONT PANEL Figure 4.
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4.13.3.3 Physical description Connectors NAME FUNCTIONS/CHARACTERISTICS CONTACTS 96-pin connector: backplane connection. HE14 connector - 1 x 8 male pins: used for not used loading programmable components "On Site" (reserved for manufacturer). Two connectors AMP CMS 2 x 10 female pins: hosts an ADPCM16V daughter card. Caution: the ADPCM8V daughter card is not managed by the LD4N/LD4X card. RJ45 -8 pin connectors: debug console, reserved for manufacturer.
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TABLEAU 4.40 DETAILS OF THE S0/T0 CONNECTIONS OF LD4NX CARD CONNECTORS Indicators NAME RUN (green) OFF (orange) STATE Flashing rapidly On EXPLANATION Card in service Card can be removed while powered up TABLEAU 4.41 PRESENTATION OF LD4NX CARD INDICATORS Note: Disable the card to hot unplug it.
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Pushbuttons The front panel includes: • an "RST" push-button used to reset the card • a "NMI" pushbutton used only at the factory.
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4.13.3.4 Hardware configuration • Micro-switch CA1 (HVAL) is used to configure synchronisation (T0). MICRO-SWITCH CA1 (HVAL) EXPLANATION ON Leave set to ON position. If the LD4NX card is fitted in a synchronising slot, the ON position allows the iPBX to take the ISDN network clock as reference clock. In a non-synchronising slot, CA1 has no effect. Synchronising slots in an AXD or AXL cabinet are slots 1-00 to 105. In an AXS cabinet all positions are synchronising. OFF Do not set to the OFF position.
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4.13.3.5 Installation and wiring Caution: Activating a card connected to an ISDN network requires special programming on Aastra Management Portal. The LD4NX card can be hot-plugged in/removed from an AXL iPBX, AXS iPBX or AXS12 iPBX in normal operation. This card must be connected with cable No. HG4731.
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Connecting a T0 interface One end of the connection cable must be fitted with an ISO 8877 compliant male RJ45 connector. 5 1 2 3 4 5 6 7 8 4 6 3 ED RD NRD NED Câble point à point standard Figure 4.
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Connecting an S0 interface The S0 bus is a shielded two-pair cable. Depending on the bus length and topology, between one and eight female RJ45 connectors can be connected to it, for one ISDN/S0 (BRI) terminal. Long bus (point to point) T0 PABX S0 connecteur 1 connecteur comportant les résistances d'adaptation du bus (100 Ohms, 1/4W) TNR TE1 jusqu'à 800 m Figure 4.
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Wiring DECT base stations Caution: Never invert the polarities of the clock and transmit/receive pairs. Each terminal is connected to the ISDN S0 (BRI) interface of an LD4NX card, and uses 2 pairs: 1 transmit pair and 1 reception pair (refer to document [6] (see Section1.3) for more information). If there are a DECT base station and an S0 terminal supplied with 40 V (other than the base station) on the same card, the base station will be powered with a 40 V (available only on an AXL cabinet).
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4.13.4 LT2 card 4.13.4.1 Description The LT2 card is a card providing access to the digital network. It provides connection: • either to the primary rate interface of a European ISDN network (E1, 32 TSs) or a US type ISDN network (T1, 24 TSs), • or to PCM digital links channel by channel, which can be used to provide tie line links with another private installation.
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J4 J7 RUN BIER BLER RAI LOF CRCE AIS LOS ER COM Console E1/T1 LT2 X LT2 CARD FRONT PANEL Figure 4.
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4.13.4.3 Physical description (see Figure 4.37 ) Connectors NAME FUNCTION/CHARACTERISTIC CONTACTS J1 96-pin connector: backplane connection. J2 and J3 Not used E1/T1) ISDN or PCM line connection RJ45 -8pin connector: (transmit and receive pair) Pins 1 and 2: to transmit pair (TNL) 1 : EMICP 2 : EMICN Pins 4 and 5: to receive pair (TNL) 4 : RMICP 5 : RMICN Pins 3 and 6: NTPIN, TPIN Pins 7 and 8: NTPOUT, TPOUT 8 11 console RJ45 connector: reserved for the manufacturer. TABLEAU 4.
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Indicators The indicators described in the following table indicate the operating status of the calls and frames: INDICATOR STATE RUN (yellow) Flashing rapidly COM (green) Off EXPLANATION Card being used Call status: No signalling over channel D and no ongoing call At least one ongoing call Presence of signalling on channel D but no ongoing call (level 2 established) On steady Flashing Status of the frames: LOS (red) On Loss Of Synchronisation LOF (red) On Loss Of Frame AIS (red) On Alarm In
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4.13.4.4 Hardware configuration The LT2 card has several configuration switches, described in the following tables. The CA8 microswitch configures the operating mode, i.e. ISDN (T2/S2) or PCM. CA8.1 CA8.2 CA8.3 CA8.
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CA8.1 CA8.2 CA8.3 CA8.4 ON OFF ON ON ON ON ON ON OFF OFF OFF ON CA8 SWITCH 1 1 1 2 2 2 3 3 3 PCM TYPE ON Extended PCM (ESF) 7.5 dB PCM T1 at 1.544 Mbps (export) ON Extended PCM (ESF) 15 dB PCM T1 at 1.544 Mbps (export) 4 4 PCM E2 (32TS) 2 Mbps 4 ON ON ON ON OFF 1 2 3 4 ON ON ON ON ON T2.E1 ISDN T2/S2 2 Mbps 16TS not used * The use of T2 or S2 is validated from Aastra Management Portal. * Represents the microswitch. TABLEAU 4.
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Microswitches CA5 and CA7 are used to configure the line coding, remote alarms, and distances. CA5.1 CA5.2 CA5.3 CA5.
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CA7.1 CA7.2 CA7.3 CA7.4 OFF CA7 SWITCH 1 2 3 4 ON ON 1 2 3 PCM TYPE 24 TS PCM in ANSI T1 mode (factory setting) 24 TS PCM in CCITT mode 4 ON OFF OFF OFF 1 2 3 4 ON OFF OFF ON 1 2 3 4 ON OFF ON OFF 1 2 3 4 ON OFF ON ON 1 2 3 4 ON ON OFF OFF 1 2 3 Rated transmission level (factory setting) Line length = 0-35 m (0-3,505.20 cm) Line length = 25-65 m (82-6,492.24 cm) Line length = 55-95 m (180-312 ft) Line length = 115-155 m (377-15,514.
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Microswitches CA6, CA3 and CA2 are used to configure line impedance. CA6.1 CA6.2 CA3.1 CA3.2 CA2.1 CA2.2 OFF OFF ON ON ON ON SWITCH ON ON OFF 1 2 OFF ON ON OFF 1 2 OFF OFF 2 OFF CA2 1 1 2 1 CA6 2 OFF 120 Ω (E1) ON ON ON OFF * 1 2 CA3 OFF 75 Ω (E1) ON 1 OFF CA6 OFF CA2 ON OFF ON 2 OFF ON OFF 1 2 CA3 OFF 100 Ω (T1) ON 1 OFF CA6 ON LINE IMPEDANCE 2 OFF CA3 CA2 Represents the microswitch. TABLEAU 4.
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4.13.4.5 Installation and wiring Caution: Activating a card connected to an ISDN network requires special programming on Aastra Management Portal. The LT2 card cannot be hot-plugged in a working iPBX. The iPBX must be powered off before inserting the card. This card must be connected with cable No. HG4731.
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4.13.5 PT2 card 4.13.5.1 Overview The PT2 card provides both a "TCP/IP – internal buses" gateway function for signalling and a "voice over IP" gateway function. It is used for connection to an Ethernet 10/ 100 Mbits Base TX LAN socket, in compliance with IEEE 802.3 specifications. It is able to manage 8, 16 or 32 VoIP gateway channels, with the addition of an optional VoIP daughter card performing speech signal processing tasks. 4.13.5.
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1 1 9 J8 J7 J1 J6 1 2 CA1 ON PROG FLASH PT2 CARD #ONSOLE .-) !.2 #/, 48 ,!. 48 25. ,).+ 28 04 8 PT2 CARD FRONT PANEL Figure 4.
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4.13.5.3 Physical description (see Figure 4.44 ) Connectors NAME FUNCTION/CHARACTERISTIC J1 96-pin connector: backplane connection. 10/100-TX LAN RJ45 connector: An RJ45 connector can be used to connect a LAN port compatible with the 10 Base T or 100 Base TX standards and compliant with IEEE specification 802. 11 8 CONTACTS Pin 1: TPTX+ Pin 2: TPTXPin 3: TPRX+ Pin 6: TPRXPins 4, 5, 7, and 8: NC console RJ45 connector: reserved for the manufacturer.
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Indicators The six LEDs described in the table below show the operating state of the card: INDICATOR COL (green) STATE EXPLANATION On Ethernet collision LINK (green) On Status of the Ethernet link: Good link with the Ethernet switch TX (green) On LAN transmitting RX (green) On LAN receiving RUN (green) Flashing slowly Flashing rapidly Card downloading status: Loading software Card in operation NRA (red) On Internal failure detected TABLEAU 4.
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4.13.5.5 Installation and wiring Caution: Specific programming with Aastra Management Portal is required to declare and activate this card before it can be used. The PT2 card cannot be hot-plugged in a working system. The system must be powered off before it is plugged. This card must be connected with cable No. HG4731. The system is connected to the Ethernet LAN by plugging the RJ45 connector of the PT2 card into an available LAN socket, as shown in the diagram below: Carte PT2 Figure 4.
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4.13.6 CS1 card 4.13.6.1 Description The CS1 card enables two X.25 synchronous interfaces to be connected in V28 or V10 mode. DTE-P PSTN (PSTN/ISDN/X25) synchronous serial link type: "HDLC LOCAL" DCE iPBX DCE CS1 DCE DTE-C DCE ETTD DCE CS1 DCE system DCE DCE synchronous serial link type: "TRANSPAC" CA1 DCE asynchronous serial link type: "PAD" Figure 4.
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3 2 1 1 AB J2 6 SW1 3 2 1 J1 SW2 CR2 CR1 1 AB J3 6 SYNCHRONOUS PORT 1 SYNCHRONOUS PORT 0 CS1 X PBX_MATRIX_CARTE_CS1-RJ_FAV_01_01 CS1 CARD CS1 CARD FRONT PANEL Figure 4.
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4.13.6.2 Physical description 4.13.6.3 Connectors NAME FUNCTION/CHARACTERISTIC CONTACTS J1 96-pin connector: connection backplane SYNCHRONOUS PORT 1 Connecting equipment 0 (1) Connecting equipment 1 (1) (front view) SYNCHRONOUS PORT 2 (front view) (1) TABLEAU 4.55 DESCRIPTION OF CS1 CARD CONNECTORS SYNCHRONOUS connectors: the contacts on these connectors are described in Tableau 4.56 . PIN NO.
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Indicators: The indicators are located on the card circuit and not on the front panel. NAME STATE EXPLANATION CR1 (red) On steady Incorrect operation CR2 (red) Flashing rapidly Card in service TABLEAU 4.57 PRESENTATION OF CS1 CARD INDICATORS 4.13.6.4 Hardware configuration The SW1 and SW2 microswitches are used to select V10 or V28 mode. EQUIPMENT NUMBER CONNECTOR MICROSWITCHES V10 MODE V28 MODE 0 J2 SW1 3 2 1 3 2 1 1 J3 SW2 3 2 1 3 2 1 TABLEAU 4.
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4.13.6.5 Installation and wiring The shielded serial link cable with the reference HG4660 is used to wire interfaces on the CS1 card. The following tables give a list of the circuits in the V24 junction on the CS1 card.
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CIRC V24 SIGNAL NAME DCE DIRECTION CS1 CARD ISO 2110 CS1-->DCE CONNECTORS (25 PINS) T FUNCTION Port1/Port 2 CCITT: EIA CS1 104 RD RD NDE 3 <--- 3 Received data 103 ED ST/TD NDR 2 ---> 2 Transmitted data 108 TDP DTR DTR 20 ---> 5 card present output 106 PAE CTS CTS 5 <--- 4 flow control input 102 TS GND SGND 7 ---> 7 0 V return for junction outputs 115 HRM CR HR 17 <---- 24 clock received for received data 24 ---> 15 clock signal sent 113 XTC not
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4.13.6.6 CA1 card 4.13.6.7 Description The CA1 card is used to connect V24 computer terminals (DTE or DCE) (see Figure 4.46 ) in V10 or V28 mode (RS232C). It is fitted with 4 RS232 ports used to connect 4 asynchronous terminals for data transmission (max speed 19200 bit/s). XON/XOFF flow control is used. Note: The V24/V10 interface is compatible with V24/V28 (RS232C) equipment. See how to use a CA1 card built into an iPBX (Figure 4.46 ).
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4.13.6.8 Physical description (see Figure 4.48 ) Connectors NAME FUNCTION/CHARACTERISTIC 96-pin connector: backplane connection J1 TE0 to TE3: CONTACTS (1) (2) Connecting equipment items 0 to 3 1 (1) PIN NO. * 1 2 3 4 5 6 7 8 TABLEAU 4.61 DESCRIPTION OF CA1 CARD CONNECTORS Connectors TE0 to TE3: the contacts of these RJ45 connectors are described in Tableau 4.62 . TE3 TD3 GND RD3 RET3 DTR3 CTS3 RTS3 CD3 LINE NO.
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Indicators The indicators are located on the card circuit and not on the front panel. NAME CR1 (red) CR2 (red) STATE On steady Flashing rapidly EXPLANATION Incorrect operation Card in service TABLEAU 4.
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4.13.6.9 Hardware configuration Switches SW1, SW2, SW3, and SW4 are used to set V10 or V28 mode. EQUIPMENT NUMBER 0 CONNECTOR SWITCH J2 SW1 1 J3 2 V28 MODE 3 2 1 3 2 1 3 2 1 3 2 1 3 2 1 3 2 1 3 2 1 3 2 1 SW2 J4 3 V10 MODE SW3 J5 SW4 TABLEAU 4.64 HARDWARE CONFIGURATION OF THE CA1 CARD 4.13.6.10Installation and wiring The following tables give a list of the circuits in the V24 junction on the CA1 card. The cable, with the reference HG4659, is used to wire the CA1 card interfaces.
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CIRCT DESIGNATION DCE DIRECTION CA1->DCE CONNECTORS CA1 CARD FUNCTION TE0 to TE3: CCITT: EIA CA1 104 103 108 RD ED TDP RD ST/TD DTR NDE NDR DTR 2 3 4 3 2 20 <-----> ---> 3 1 5 Received data Transmitted data card present output 106 PAE CTS CTS 8 5 <--- 6 flow control input 102 TS GND SGND 5 7 ---> 2 105 109 DPE DS RTS CD RTS CD 7 1 4 8 ---> <--- 7 8 0 V return for junction output not wired not wired flow control output terminal present input RET 5 7 Note: 9-PI
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4.13.7 CP1 card 4.13.7.1 Description The CP1 card carries out circuit/packet switching, for X.25 protocol, used to transmit data in packet mode in a B channel of a Numéris link 1 2 3 SW1 1 AB J2 6 J1 CR1 CR2 CP1 X PBX_MATRIX_CARTE_CP1-RJ_FAV_01_01 CP1 CARD CP1 CARD FRONT PANEL Figure 4.
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4.13.7.2 Physical description (see Figure 4.49 ) Connectors The connector J2 is reserved for factory tests. This card has no external connections. Indicators The indicators are located on the card circuit and not on the front panel. NAME STATE EXPLANATION CR1 (red) On steady Incorrect operation CR2 (red) Flashing rapidly Card in service TABLEAU 4.67 PRESENTATION OF THE CP1 CARD INDICATORS 4.13.7.
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4.13.8 MUM card 4.13.8.1 Description Voice/Fax multiplexer/demultiplexer card, used to multiplex/demultiplex several calls between 2 sites of an M6500 network on: • a call set up over the ISDN public network, • a Transfix lease line at 64 or 128 kb/s 4.13.8.
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. CA1 2 3 RAZ 4 ON TRANSFIX NMI J1 J3 1 2 3 4 5 6 DEBUG 1 AB J2 4 1 JTAG AB J4 RST SYNC SERIAL WAN INTERFACE MUM X MUM CARD FRONT PANEL Figure 4.
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4.13.8.3 Physical description (see Figure 4.
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Indicators NAME STATE RUN Flashing EXPLANATION Card operating normally TABLEAU 4.69 PRESENTATION OF MUM CARD INDICATORS Push buttons The front panel of the MUM card includes: • an "RST" push-button used to reset the card (reserved manufacturer). 4.13.8.4 Hardware configuration The hardware configuration of the MUM card is described in Document [7] (see section 1.3). 4.13.8.5 Installation and wiring The installation details for the MUM card are described in Document [7] (see section 1.3).
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4.14 Equipment cards 4.14.1 LA16X card 4.14.1.1 Description The LA16X card is used to connect 16 analogue set lines to an iPBX. 4.14.1.2 Functional description The LA16X card mainly ensures: • The transmission of the status and command signals between the UCV card and each analogue set: - the commands for analogue sets: for each connection a ring signal command supplied by the UCV card authorises passage of the current to the analogue set connected.
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J1 L7 PBX_MATRIX_XL_LA16X_COTE_01_01 L15 L8 L0 LA16X CARD Figure 4.
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4.14.1.3 Physical description (see Figure 4.51 ) Connectors NAME FUNCTION/CHARACTERISTIC J1 96-pin connector: backplane connection L0 to L15 RJ45 connectors: each provides one connection analogue set CONTACTS socket • to an • • 8 Pin 4: analogue set (i)+ Pin 5: analogue set (i)Pins 1, 2, 3, 6, 7, and 8: NC 1 TABLEAU 4.70 DESCRIPTION OF THE LA16X CARD CONNECTORS Indicators This card has no signalling indicator. 4.14.1.4 Hardware configuration This card has no configuration microswitch. 4.14.1.
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The principle for wiring an analogue set is shown in the diagram below: Connecteur 8 plots 8 1 3 1 Carte LAx ou LMx 1 2 3 4 5 6 7 8 4 5 PBX_MATRIX_CARTE_LAX_RJ_CABLAGE_01_01 1 2 3 4 5 6 7 8 Figure 4.52 WIRING AN LAX OR LMX CARD Each line is supplied with balanced direct current. This voltage may vary between -43 V and -56 V. The maximum line resistance for a 22mA current is 1000 Ohm. The maximum line current for a 200 Ohm resistance is 40 mA.
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4.14.2 LA16X-8 card 4.14.2.1 Description The LA16X-8 card is used to connect 8 analogue set lines to an iPBX. 4.14.2.2 Functional description The LA16X-8 card is functionally identical to the LA16X card (see Section4.14.1.2) except that it provides an interface with only 8 analogue sets. J1 PBX_MATRIX_XL_LA8XRJ_COTE_01_01 7L L7 L LN16 0 X L0 LA16X-8 CARD Figure 4.
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4.14.3 Physical description (see Figure 4.53 ) Connectors NAME FUNCTION/CHARACTERISTIC J1 96-pin connector: backplane connection L0 to L7 RJ45 connectors: each provides one connection analogue set CONTACTS socket • to an • • 8 Pin 4: analogue set (i)+ Pin 5: analogue set (i)Pins 1, 2, 3, 6, 7, and 8: NC 1 TABLEAU 4.71 DESCRIPTION OF LA16X-8 CARD CONNECTORS Indicators This card has no signalling indicator. 4.14.3.1 Hardware configuration This card has no configuration microswitch. 4.14.3.
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4.14.4 LA8 card 4.14.4.1 Description The LA8 card is used to connect 8 analogue set lines to an iPBX. 4.14.4.2 Functional description The LA8 card is functionally identical to the LA16X card (see section 4.14.1.
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4.14.4.3 Physical description (see Figure 4.54 ) Connectors NAME FUNCTION/CHARACTERISTIC CONTACTS J1 96-pin connector: backplane connection. A0 to A7 RJ45 connectors: each socket provides • • one connection to an analogue set • 8 Pin 4: analogue set (i)+ Pin 5: analogue set (i)Pins 1, 2, 3, 6, 7, and 8: NC 1 TABLEAU 4.72 DESCRIPTION OF LA8 CARD CONNECTORS Indicators This card has no signalling indicator. 4.14.4.4 Hardware configuration The LA8 card has no configuration microswitch. 4.14.4.
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4.14.5 LN16X card 4.14.5.1 Description The LN16X card is used to connect 16 digital set lines to an iPBX. 4.14.5.
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4.14.5.3 Physical description (see Figure 4.55 ) Connectors NAME FUNCTION/CHARACTERISTIC CONTACTS J1 96-pin connector: backplane connection. L0 to L15 RJ45 connectors: each socket provides • • one connection to a digital set • 8 Pin 4: digital set (i)+ Pin 5: digital set (i)Pins 1, 2, 3, 6, 7, and 8: NC 1 TABLEAU 4.73 DESCRIPTION OF LN16X CARD CONNECTORS Indicators This card has no signalling indicator. 4.14.5.4 Hardware configuration The LN16X card has no configuration microswitch. 4.14.5.
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Maximum line length: • 0.4 mm wire: about 1000 m, • 0.6 mm wire: about 1800 m. The cards must be connected with cables with the following references: HG4765B, HG4765C or HG4731. The minimum diameter of the cables has to be 26AWG (0.4mm).
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4.14.6 LN16X-8 card 4.14.6.1 Description The LN16X-8 card is used to connect 8 digital set lines to an iPBX. 4.14.6.2 Functional description The LN16X-8 card is functionally identical to the LN16X card (see Section4.14.5.2) except that it provides an interface with only 8 digital sets. J1 PBX_MATRIX_XL_LN8XRJ_COTE_01_01 L 7 L7 L LN16 0 X L0 LN16X-8 CARD Figure 4.
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4.14.7 Physical description (see Figure 4.56 ) Connectors NAME FUNCTION/CHARACTERISTIC J1 96-pin connector: backplane connection. L0 to L7 RJ45 connectors: each socket provides • • one connection to a digital set • 8 CONTACTS Pin 4: digital set (i)+ Pin 5: digital set (i)Pins 1, 2, 3, 6, 7, and 8: NC 1 TABLEAU 4.74 DESCRIPTION OF LN16X-8 CARD CONNECTORS Indicators This card has no signalling indicator. 4.14.7.1 Hardware configuration The LN16X-8 card has no configuration microswitch. 4.14.7.
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Maximum line length: • 0.4 mm wire: about 1000 m, • 0.6 mm wire: about 1800 m. The cards must be connected with cables with the following references: HG4765B, HG4765C or HG4731. The minimum diameter of the cables has to be 26AWG (0.4mm).
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4.14.8 LN8 card 4.14.8.1 Description The LN8 card is used to connect 8 digital set lines to an iPBX. 4.14.8.2 Functional description The LN8 card is functionally identical to the LN16X card (see Section 4.14.5.2) except that it provides an interface with only 8 digital sets. 4.14.8.3 Physical description (see Figure 4.57 ) Connectors NAME FUNCTION/CHARACTERISTIC J1 96-pin connector: backplane connection. N0 to N7 RJ45 connectors: each socket provides • • one connection to a digital set.
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4.14.8.4 Hardware configuration The LN8 card has no configuration microswitch. 4.14.8.5 Installation and wiring The LN8 card cannot be hot-plugged in a working iPBX. The iPBX must be powered off before inserting the card. An LN8 card cannot be plugged into AXD and AXL expansion cabinets either. The other constraints relating to installing and wiring the LN8 card are identical to those for the LN16X card (see Section 4.14.5.5). The minimum diameter of the cables has to be 26AWG (0.4mm).
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4.14.9 LM8 card 4.14.9.1 Description The LM8 card is used to connect 4 digital and 4 analogue set lines to an iPBX. 4.14.9.2 Functional description The LM8 card performs the functions of both the LA8 card (see Section4.14.4.2) and those of the LN8 card (see Section4.14.8.2). 4 J2 1 4 J3 1 J1 4 J4 1 4 J5 1 N7 N6 N5 N4 A3 A2 A1 A0 LM8 X PBX_MATRIX_CARTE_LM8-RJ_FAV_01_01 LM8 CARD LM8 CARD FRONT PANEL Figure 4.
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4.14.9.3 Physical description (see Figure 4.58 ) Connectors NAME FUNCTION/CHARACTERISTIC CONTACTS J1 96-pin connector: backplane connection. A0 to A3 RJ45 connectors: • each socket provides one connection to an • • analogue set Pin 4: analogue set (i)+ Pin 5: analogue set (i)Pins 1, 2, 3, 6, 7, and 8: NC RJ45 connectors: • each socket provides one connection to a • • digital set Pin 4: digital set (i)+ Pin 5: digital set (i)Pins 1, 2, 3, 6, 7, and 8: NC 8 1 N4 to N7 8 1 TABLEAU 4.
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4.14.10 LH8 card 4.14.10.1Description The LH8 card is used to connect 8 analogue hotel terminals to an iPBX. The LH8 card has the same features as the LA8 card, plus an extra feature that lights up an LED on sets if messages have been left (for hotel configuration). 4.14.10.2Functional description The LH8 card has the same features as the LA8 card (see Section4.14.4.
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. 4 1 J2 4 1 J1 J3 4 J4 1 J4 J3 4 J2 1 J5 J1 A7 A0 LH8 X LH8 CARD FRONT PANEL Figure 4.
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4.14.11 LH16X card 4.14.11.1 Description The LH16X card is used to connect 16 analogue hotel terminals to An Aastra XL/XS iPBX. The LH16X card offers the same features as the LA16X card, plus an extra feature that lights up an LED on sets if messages have been left (for hotel configuration). 4.14.11.2 Functional description The LH16X card has the same features as the LA16X card (see Section4.14.1.
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NAME FUNCTION/CHARACTERISTIC J1 96-pin connector: backplane connection A0 to A15 RJ45 connectors: each provides one connection analogue hotel/motel set CONTACTS socket • to an • • 8 1 Pin 4: analogue set (i)+ Pin 5: analogue set (i)Pins 1, 2, 3, 6, 7, and 8: NC TABLEAU 4.77 DESCRIPTION OF LH16X CARD CONNECTORS Indicators This card has no signalling indicator. 4.14.11.4 Hardware configuration This card has no configuration microswitch. 4.14.11.
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4.14.12 LH16X-8 card 4.14.12.1Description The LH16X-8 card is used to connect 8 analogue hotel terminals to An Aastra XL/XS iPBX. The LH16X-8 card offers the same features as the LA16X-8 card, plus an extra feature that lights up an LED on sets if messages have been left (for hotel/motel configuration). 4.14.12.2Functional description The LH16X-8 card has the same features as the LA16X-8 card (see Section4.14.2.
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NAME FUNCTION/CHARACTERISTIC J1 96-pin connector: backplane connection A0 to A7 RJ45 connectors: each provides one connection analogue hotel/motel set CONTACTS socket • to an • • 8 1 Pin 4: analogue set (i)+ Pin 5: analogue set (i)Pins 1, 2, 3, 6, 7, and 8: NC TABLEAU 4.78 DESCRIPTION OF LH16X-8 CARD CONNECTORS Indicators This card has no signalling indicator. 4.14.12.4Hardware configuration This card has no configuration microswitch. 4.14.12.
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4.14.13 LR4 card 4.14.13.1Description The LR4 card enables four analogue trunk lines to be connected. It can also be fitted with tone detection (DTOC) or billing (FTXA or FTXC) daughter cards. 4.14.13.
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1 2 3 4 4 ON 1 S1.1 1 2 3 J2 4 ON D1.1 S1.2 J1 1 2 3 D1.2 D1.3 4 ON D1.4 ON 4 J4 S1.3 1 2 3 4 S1.4 1 J3 J1 L3 L2 L1 L0 LR4 X LR4 CARD FRONT PANEL Figure 4.
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4.14.13.3Physical description (see Figure 4.62 ) Connectors NAME FUNCTION/CHARACTERISTIC J1 96-pin connector: backplane connection. J4 to J11 Couples of connectors used for fitting the DTOC, FTXA or FTXC daughter cards, one card per analogue line L0 to L3 RJ45 connectors: • each socket provides one connection to an • • analogue network line CONTACTS Pin 4: network line (i)+ Pin 5: network line (i)Pins 1, 2, 3, 6, 7, and 8: NC 1 TABLEAU 4.
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4.14.13.4Hardware configuration Four “S1” micro-switches are used to configure the line balance and type of gain for each standard network line (LS) or short network line (LC). S1.X.1 OFF S1.X.2 ON SWITCH LINE IMPEDANCE Complex impedance (factory setting) ON OFF 1 ON 2 Impedance 600 Ω OFF ON OFF 1 S1.X.3 ON S1.X.4 ON 2 SWITCH ON OFF 3 OFF GAIN Standard line gain, usable for 1.5 to 3.5 km (factory setting) 4 OFF Short line gain, usable for 0 to 1.
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The DTOC daughter cards are fitted with: • switches used to configure the card to suit the tones used in different countries. These iPBXs are factory pre-set. • a micro-switch used to change the sensitivity of the DTOC card. DESIGNATION CONFIGURATION (1) Detection threshold [dBm]: • -3 to -25 dBm • -3 to -32 dBm CA1.4 on OFF CA1.4 on ON (1) Factory delivery configuration in bold characters. The FTXA and FTXC daughter cards are not fitted with microswitches.
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4.14.14 LI1 card 4.14.14.1Description The LI1 card allows you to connect together 2 private iPBXs through a direct analogue or public network line. The interface described supports the exchange protocols required for the following links: • DID link with COLISEE type public PBXes, • links to other "LO" type private installations, • specific links with WINK-START type manufacturer protocols, etc.
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• Voice transmission and conversion: - in digital form, from the UCV card to the analogue sets. The PCM TSs exchanged with the UCV card are the medium for voice carried over a tie line. • in analogue form, from the analogue sets to the UCV card.
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Information can be transmitted: • either using RON/TRON signals, • or an alternate current. The card has a 50 Hz current generator for this purpose, • Power supply: the LI1 card receives several supply voltages on the backplane connector (J1): - +5 V, -5 V used for the operation of its internal circuits, - -48 V used for the operation of its internal circuits.
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4.14.14.3Physical description (see Figure 4.
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Indicators CONNECTOR INDICATORS L0/RT0 NAME STATE EXPLANATION Card 10 J2 RX TX BUSY Eqt0 1 Red Green Green Status of the line: • circuit busy • circuit in transmit mode • circuit in receive mode Red Green Green Status of the line: • circuit busy • circuit in transmit mode • circuit in receive mode L1/RT1 10 RX TX BUSY J3 Eqt1 1 TABLEAU 4.84 PRESENTATION OF THE LI1 CARD INDICATORS 4.14.14.
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4.14.14.5Installation and wiring The LI1 card is used to link together 2 iPBXs through an analogue TL. These analogue TLs are wired using either two or four wires: • with a two-wire TL, voice communications are carried in both directions on the same pair (LA and LB) by overlapping electrical states. • with a four-wire TL, one pair is dedicated to reception and the other pair to transmission. • The minimum diameter of the cables has to be 26AWG (0.4mm). 4.14.14.
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CONNECTOR/ EQUIPMENT COLOUR WIRE SIGNAL DESCRIPTION white blue white orange white green white brown white blue white orange white green white brown white blue white orange white green white brown white blue white orange white green white brown 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 1 2 3 4 5 6 7 8 NC NC LRB0 LRA0 LERB0 LERA0 NC NC NC T01 R01 R00 TB00 TA00 GNDL NC NC NC LRB1 LRA1 LERB1 LERA1 NC NC NC T11 R11 R10 TB10 TA10 GNDL NC "Voice" L0 (RJ45)/ Equipment 0 "Signalling" L0 (RJ45)/ Equi
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1 1 2 2 3 3 4 4 3 2 1 OFF ON 5 6 4 LERB 0 LERA 0 LERB 1 LERA 1 7 6 4 3 2 1 OFF ON 7 8 8 L0 L1 1 1 2 2 3 3 4 4 5 5 6 TA 00 TA 10 6 7 GNDL GNDL 7 8 * 5 8 RT0 RT1 iPBX A iPBX B Represents the microswitch. Figure 4.
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1 1 2 4 3 2 1 OFF ON 2 3 LRB 0 LRB 1 3 4 LRA 0 LRA 1 4 5 LERB 0 LERB 1 5 6 LERA 0 LERA 1 7 ON 7 8 8 L0 L1 1 1 2 2 3 3 4 R 00 R 10 4 5 TB 00 TB 10 5 6 TA 00 TA 10 6 7 GNDL GNDL 7 8 * 6 4 3 2 1 OFF 8 RT0 RT1 iPBX A iPBX B Represents the microswitch. Figure 4.
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4.14.15 BTX card 4.14.15.1Description This charging buffer card is used to print detailed telephone traffic reports. . 4 3 1 BATT. J4 J8 J3 1 COM TICK J1 6 1 4 1 2 J7 J2 1 RESET INT EXT ON LD1 PRN TAX MMI ALA BTX X PBX_MATRIX_CARTE_BTX-RJ_FAV_01_01 BTX CARD BTX CARD FRONT PANEL Figure 4.69 OVERVIEW OF THE BTX CARD 4.14.15.2Functional description The BTX card is used to record, store, sort, and edit on request, from a set with interactive keys, by issuing Room status tickets.
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4.14.15.3Physical description (see Figure 4.
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Indicators NAME STATE LD1 On steady (green) On green/red alternating Green flashing Red flashing EXPLANATION Normal buffer operation iPBX data received on the serial ticket port Pre-alarm: 80 % total memory used Alarm: 95 % total memory used *LD1 located on the card circuit (and not on front panel) TABLEAU 4.
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5 Presentation of peripheral devices 5.1 Digital sets 5.1.1 Overview Aastra XS/XL/XD iPBXs allow the connection of digital sets. Only Aastra digital sets are accepted by the iPBXs. Digital sets can manage notably: • An alphanumeric screen • Programmable keys • An internal directory • A user-friendly navigator • On-hook dialling • Display of caller's name • A call log • Set locking • Direct callback from the call log • Loading and saving of directories, logs, and the set's parameters.
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5.2 Analogue sets 5.2.1 Description Aastra XS/XL/XD iPBXs accept the connection of analogue sets of all types and makes. Analogue sets are connected to the iPBXs through the following equipment cards: For the AXS iPBX • EXT1-S: 8 analogue sets can be connected. • EXT1-S12: 8 analogue sets can be connected. • EXT1-S6: 4 analogue sets can be connected. For AXS/AXL/AXD iPBXs 5.2.2 • LA16X 16 analogue sets connectable, • LA16X-8 8 analogue sets can be connected. • LA8 8 analogue sets can be connected.
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5.3 IP sets 5.3.1 Description Aastra XS/XL/XD iPBXs allow the transmission of voice signals with an IP set. IP sets have the same features as traditional digital sets (see Section 5.1.1). In addition, upgrade to IP brings numerous advantages: • A single network socket is enough for both the PC and telephone. • No interface card is required on the IP set. • Switching is performed live over the LAN. • Geographical location is no longer a constraint (teleworking, independent set, etc.). 5.3.
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5.4 Computer terminals 5.4.1 Description An iPBX can communicate with computer terminals: • Data transmission equipment (DTE) • Data communications equipment (DCE) (modem). This communication is possible on iPBXs fitted with: • CS1 cards, for connection in packet mode via an X25 network • CA1 cards, for connection to an asynchronous data terminal through an RS232 link. 5.4.2 INSTALLATION The various characteristics (connections, wiring, etc.
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5.5 Attendant consoles (ATDC) 5.5.1 Description An attendant console is dedicated to call reception and distribution. In general, the operator can supervise all extensions in the network and has access to maintenance terminal data (alarm management, calendar management, time management). There are two types of operation: • Class A: monitoring all extensions and trunks (reduced configuration) • Class B: Monitoring the management of an ongoing call.
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5.6 Miscellaneous equipment 5.6.1 External music source 5.6.1.1 Description The music used while a call is put on hold and as background music can be supplied by any music on-hold device with an audio output. 5.6.1.2 INSTALLATION Once connected to the UCV or IUCV-D card, the external music source must be selected as music on-hold from Aastra Management Portal (see Document [1]). The volume of the music source can also be adjusted from Aastra Management Portal.
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5.6.2.2 Installation Common bell setup requires no programming. It is implemented when you power on the system. Secteur 230V #ARTEIUCT )5#6 $ Carte Interface sonnerie SLAT 11 2 J10 1 12 R3 Sonnerie alternative type 1000 Ω 1 interface SLAT type TAT 524 La sonnerie d'alarme est commandée par le relais R3 Il est mis à votre disposition un contact sec sur J10 (courant max : 1 A) Figure 5.
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5.6.3.2 Installation Alarm bell setup requires no programming. It is implemented when you power on the system.
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6 INSTALLATION AND ACTIVATION 6.1 Introduction 6.1.1 Security guidelines 6.1.1.1 Staff authorisation Only qualified staff may work on the iPBX. The installer must be aware of the possible electrical hazards to which they may be exposed. It is essential to take every precaution necessary for people's safety. 6.1.1.2 Safety The iPBX is grounded for safety reasons and this connection must be made before any others (see Figure 3.1 in Section 3 for the cabinets' earth connection.
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Hardware operations: • Installing cabinets • Handling cards. Software operations: • Starting and presetting the installation • Accessing Aastra Management Portal (User interface). • Massive import from the massive creation form. 6.2.1 Preliminary operations 6.2.1.1 Site inspection To ensure that the system has the correct conditions to function properly, check the site before you start installing the iPBX.
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cabinets. Also check that there is enough room above an AXS, AXS12 and AXS6 cabinet to open it. • Electrical devices There must be a minimum distance of 4 m (13 ft) from equipment such as photocopiers, electric motors, and other equipment that can produce electromagnetic or radio-frequency interference. • Fire precautions A fire extinguishing system, for example, a carbon dioxide system, needs to be in the room. 6.2.1.
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6.2.1.5 Earth connection Connect the cabinets’ earth connectors (see Figure 3.1) to the security earthing system via a 16 mm2 yellow/green cable. 6.2.1.6 Electrical power supply On the installation site, provide one socket for each cabinet (main and extension), and one socket for the administration console.
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HJ3970BA01D980353483 QTY : 1 LT2 HJ3970B 1 2 Caption: 1- Product description 2- Product sales code Installation and Maintenance Manual - Aastra 5000 Installation and activation 01/2011 AMT/PTD/PBX/0058/4/6/EN Page 313
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6.2.2 Installing an AXD cabinet The various installation options of an AXD cabinet are given in the following table: CABINET STACKED AXD INSIDE A CABINET With mounting kit: 1 flush position ON A WALL Not (1) TABLEAU 6.1 OPTIONS FOR INSTALLING AN AXD CABINET (1) The cabinets in an A2XD or A3XD version can be placed on a piece of furniture, on top of one another. A minimum clearance is required for air circulation: 55 mm on the left-hand side and at the back of an AXD cabinet.
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Positioning on a piece of furniture • Place the cabinet in position. Installation in a rack Table 1: OPERATION • Fit the securing brackets on the sides of the cabinets using the screws supplied (4 per bracket). • Identify the position in the rack where the cabinet is to be installed. On the brackets on which the cabinet is to be fitted, install the captive nuts on the holes selected. • Lift the cabinet and align the bracket attachment holes with those of the rack.
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Table 1: OPERATION • DETAILS OF THE OPERATION / COMMENTS Fix the securing brackets on the rack using screws.
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6.2.3 Installing a cabinet (AXL, AXS, AXS12 and AXS6) The various installation options of an Aastra XS/XL cabinet are given in the following table: CABINET STACKED AXS/AXS12/ AXS6 (1) (2) INSIDE A CABINET ON A WALL With 2-position mounting kit: • Flush position Vertically 3) AXL (2) With 2-position mounting kit (flush and recessed) Not TABLEAU 6.2 OPTIONS FOR INSTALLING A CABINET 1) If laid on a piece of furniture, a CPU and a PC console may be superimposed in the AXS, AXS12 or AXS6 cabinet.
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Installation An AXS, AXS12 or AXS6 cabinet can be installed: • Stacked - Place the cabinet in position. • Inside a rack - Fit the securing brackets on the sides of the cabinets using the screws supplied (2 per bracket). - Identify the position in the rack where the cabinet is to be installed. On the brackets on which the cabinet is to be fitted, install the captive nuts on the holes selected. - Lift the cabinet and align the bracket attachment holes with those of the rack.
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6.2.4 Wiring (AXD, AXL, AXS, AXS12 and AXS6) PRÉSENTATION On this cabinet, all connections are made on the front panel of the various subassemblies of the cabinet. CONTRAINTE • Always use the recommended cable (see section “Installation and wiring specifications” for each sub-assembly to install: § 4.6 to 4.14). • Use the correct cable lengths and avoid coiling excess cable inside the rack • Always label cables and keep a record of the cabling.
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6.2.4.1 Powering on the system Before switching on the power, check that: • The cabinet is permanently connected to the ground socket • Air flows freely all around the cabinet(s) and there are no objects lying on the cabinet. There must be sufficient space between the cabinet and the wall. • All expansion cards are connected (AXD, AXL, AXS, AXS12 and AXS6 cabinets). • All equipment is connected to the cabinet and grounded.
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• The screen then displays the different configuration modes. Configuration mode (F/T/S/P/E) - F: Factory mode - T: Total mode - S: Standard mode - P: Password reset - E: for Exit • Select “S" mode then press "Return" to enter the network pre-configuration menu. The system’s default network pre-configuration is displayed on screen. It is from this screen, during a first installation, that the defined address can be used to access the iPBX management function via AMP.
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AASTRA 5000 CONFIGURATION / NETWORK *-------------------------------------------------* | ENTER IP ADDRESS: 100.100.40.150 | | ENTER NETWORK MASK: 255.255.255.192 | | ENTER GATEWAY: 100.100.40.129 | *-------------------------------------------------* After the last line is validated, a summary of the network parameters is displayed for confirmation.
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The screen below opens, asking whether the administration network must be configured in case of administration and telephony flow separation. DO YOU WANT TO CONFIGURE MANAGEMENT IP NETWORK ? Y/[N] If this configuration is not necessary, answer "n" and confirm with the "Return" key to go to the next screen concerning the service status. If this configuration is necessary in this phase, see the specific document : Operating manual for telephony and administration flow separation - AMT_PTD_PBX_0101.
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FTP : value 0 or 1. This field allows the use (1 = yes) or non-use (0= no) of the FTP service integrated into Aastra X series terminals during a first installation. The FTP server must be enabled (1) in order to then use the integrated DHCP and TMA services. Default value in factory setting: FTP = 1 Note : This FTP field is not proposed for the Aastra 5000 server. TMA: value 0 or 1. This field allows the use (1 = yes) or non-use (0= no) of the TMA service integrated into Aastra X series terminals.
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LLDP ENABLED This field is used to activate the LLDP protocol in the terminal, (1 = yes) or no (0= no), VLAN ID and VLAN PORT: These parameters are used to define the VLAN dedicated to terminals 67xxi, A53xxip and i7xx). They are not obligatory on simple networks. If the DHCP value 1, the screen is displayed.
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VLAN ID and VLAN PORT: These parameters are used to define the VLAN dedicated to terminals 67xxi, A53xxip and i7xx). They are not obligatory on simple networks. The system then restarts automatically, and the its IP network link can be set up via the LAN access. Start-up is now complete and you can configure the site from the user interface. For terminal management refer to the document [15]. Note : You can modify the factory settings completely, using the T mode after pressing Ctrl + I (see Section 6.2.7).
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6.2.6 Accessing Aastra Management Portal (User interface). Note : Accesses through analogue modem, ISDN modem and ISDN router are described in Section 6.11. A backup remote access mode is equally available in case of web browser unavailability (see Section 6.2.6.3). 6.2.6.1 Accessing the user interface (Aastra Management Portal) via the LAN The operating console must be connected to the same network as the Aastra series system (CPU card LAN port).
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The AMP welcome screen is displayed.
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6.2.6.2 Accessing the user interface (Aastra Management Portal) in local access mode via the COM port (PPP protocol) The PPP exchange protocol can set up a network type connection between two systems on a serial point-to-point link. 6.2.6.2.1 Connectors Access is provided on the COM port of the CPU card (ISDN type access), using a NULL MODEM cable (ref.: :BHG0024A) connected between the COM port of the CPU card and the PC COM port.
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6.2.6.2.2 Configuring the serial connection Windows PC specifications A modem of the type " communication cable between two computers " must be installed. Use Device manager to check the presence of this pseudo modem. If the modem is not installed, proceed as follows. In Control Panel • Select " Add hardware ". • After automatic detection, select " Yes, I have already connected the hardware " then choose" Add a new device " in the window that opens.
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• Click “Next”. • Tick the option " install the hardware I manually select from a list " then choose " Modem ".
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• In the following screen, tick the option "Do not detect my Modem" • Click “Next”. • Select the modem " Communication cable between two computers " then choose a communication port. • Click "Next" The next screen indicates that the modem is now installed: it is visible in the Device manager.
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Configuring the PPP connection In Control Panel • Click " Network connections ". • Select "Create a new connection". • Tick successively the boxes indicated below.
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• Enter a name for this network connection. • Select the device "Communication cable between two computers". • In the next screen, indicate the restriction on the use of this connection. The connection is now defined.
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Configuring the connection port The configuration is made in the " Properties " menu of the network connection. • Choose 15200 bits/s • Tick the option "Enable hardware flow control". Setting up a connection on the PBX In the " Start " menu, " Parameters " tab, start the connection to the PBX. • Login: user • Password: guest The PPP connection characteristics are displayed using the Windows ipconfig command. By default, the IP addresses 192.168.0.101 and 192.168.0.
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6.2.6.2.3 Accessing the AMP via serial link • Open a web browser installed on the operating console (Internet Explorer, for instance). • Enter the address reserved for this access mode: https://192.168.0.101 (secure access mode). • Some security windows for this "https" access mode are then displayed successively; enter “YES” for each of them. • A Login window opens, allowing access to AMP.
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6.2.6.3 Backup remote access to AMP in SSH mode In case of AMP inaccessibility via the web browser, it is possible to connect securely to a remote server integrated into Aastra X series systems (Linux Debien server) thanks to the SSH protocol. Note : An SSH client (Secure Shell) is used to connect securely to a remote server thanks to the SSH protocol. Using an appropriate communication software application (putty, for example) proceed as follows: • Run this application.
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mode. • Default access login: " admin " • Default access password: " admin " Access to the AMP interface is provided in VT100 mode. See Aastra Management Portal Operating Manual (Document [1]) for the analogy with the use of AMP in web mode.
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6.2.7 Modifying the factory settings The system is preset in the factory, but it is possible to fully modify these factory settings on site. Access is provided locally on the COM port of the CPU card, using a NULL MODEM cable (ref.: :BHG0024A) connected between the COM port of the CPU card and the PC COM port.
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For this type of configuration, see the specific document : Operating manual for telephony and administration flow separation AMT/PTD/PPBX/0101. AASTRA 5000 CONFIGURATION / NETWORK *-------------------------------------------------* | ENTER IP ADDRESS: 192.168.65.1 | ENTER NETWORK MASK: 255.255.255.0 | ENTER GATEWAY: 192.168.65.254 *-------------------------------------------------* DO YOU WANT TO CHANGE CONFIGURATION Y(ES)/N(O) ? Y • Press "y" then "Return" to confirm and return to the different fields.
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AASTRA 5000 CONFIGURATION / NETWORK *-------------------------------------------------* | SUMMARY | *-------------------------------------------------* *-------------------------------------------------* | IPADR = 100.100.40.150 | | NETWORKMASK = 255.255.255.192 | | GATEWAY = 100.100.40.129 | | NETWORKADR = 100.100.40.128 | | BROADCAST = 100.100.40.
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The screen below opens, asking whether the administration network must be configured in case of administration and telephony flow separation. DO YOU WANT TO CONFIGURE MANAGEMENT IP NETWORK ? Y/[N] If this configuration is not necessary, answer "n" and confirm with the "Return" key to go to the next screen concerning the service status. If this configuration is necessary in this phase, see the specific document : Operating manual for telephony and administration flow separation - AMT_PTD_PBX_0101.
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AASTRA 5000 CONFIGURATION / SIP SERVICE AN EXISTING CONFIGURATION WAS FOUND *-------------------------------------------------* | FTP : 1 | TMA : 1 | | DHCP : 0 | *-------------------------------------------------* DO YOU WANT TO CHANGE CONFIGURATION Y(ES)/N(O) ? After this series of screens concerning TMA, FTP and DHCP services, the system's general parameters declaration screen opens (name, IID (system identification number)): AASTRA 5000 CONFIGURATION / Name&IID *----------------------------------------
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AASTRA 5000 CONFIGURATION / Call Dist *-------------------------------------------------* | SUBSCRIBER: 3005 | | DID: 4000 | *-------------------------------------------------* The "SUBSCRIBER" field is used to assign a subscription number as day and reduced number to call distribution 0.
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• The following screen is used to configure subscriptions. AASTRA 5000 CONFIGURATION / Subscribers *-------------------------------------------------* | DO YOU WANT TO CONFIGURE SUBSCRIBERS (Y/N): Y | *-------------------------------------------------* If the answer is "y", fill in successively the different fields, by pressing Return to change line. These fields are described below.
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exist already. If this is not the case, or if the field does not exist, they are assigned a default number. If their value is 0, they will not be assigned any number. The only exception is common subscriber which must always have a number. The additional subscriptions field indicates the number of further internal subscriptions to create. The first DID field is used to create the external block 0 associated with the internal number block [first, last]. Authorised characters are " 0123456789ABCDE".
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*-------------------------------------------------* | SUMMARY: | *-------------------------------------------------* | IPADR = 100.100.40.150 | | NETWORKMASK = 255.255.255.192 | | GATEWAY = 100.100.40.129 | | NETWORKADR = 100.100.40.128 | | BROADCAST = 100.100.40.
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6.2.8 Resetting the manufacturer's password (in case of loss) The default manufacturer's password can be reset if the user loses the manufacturer's access code defined from the menu TELEPHONY/SYSTEM/Configuration/Users/System accounts (if the user had chosen its modification). This may become necessary if the user loses or forgets this manufacturer's access code. Rappel : The manufacturer's access code may be modified to reinforce system security.
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AASTRA, AASTRA 5000 CONFIGURATION / NETWORK *-------------------------------------------------* | ENTER IDENTIFIER : IPNH123LMNVKGH5U | ENTER NETWORK MASK: POULKJEPOSD5Q9/P | *-------------------------------------------------* PLEASE_ENTER_A_VALID_ID_KEY • Press "Return" to confirm. • Then answer "Y(es)" to the next questions to complete the procedure. • At the end of the procedure, the manufacturer's default login and password are regenerated and can be used again.
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6.2.8.1 Massive import from the massive creation form To avoid repetitive tasks on AMP, massive import consists in first creating in an Excel form a set of configuration data listed for the site. This form is then converted to a format (.csv) compatible with the Aastra X series. The file thus generated can be imported from AMP, Menu System/Software maintenance/Massive import. Refer to Section 11.4 for information on how to use this form. 6.2.8.
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6.3 Operations on a site already installed There are several types of operations on a completed installation site: Hardware operations: • Handling a card • Adding a CLX card • Adding an equipment card • Adding a daughter card to an expansion card or CPU card (EIP) • Adding an expansion cabinet • Adding a power module • Changing to DUPLEX configuration for AXD Software operations: • Updating the iPBX software • Backing up the configuration • Restoring the configuration associated with the use of VUs 6.3.
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6.3.2 Handling cards This operation may be necessary, especially for preconfiguring the switches of a card or installing a daughter card on this same card. Attention :All the cards cannot be hot-unplugged. Refer to the list below. The following cards can be removed or inserted when powered on in a cabinet: • UCV-D, RUCV-D and IUCV-D (AXD cabinet) • LA16X, LA16X-8, LN16X, LN16X-8, LH16X, LH16X-8, LD4N, LD4X (AXD, AXL, AXS, AXS12 and AXS6 cabinets).
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6.3.3 Adding a CLX card (AXD, AXL, AXS, AXS12 and AXS6) The iPBX can be fitted with one or more expansion cards to increase the system capacity. In an iPBX, it is possible to install all types of expansion cards according to the existing configuration and hardware configuration rules. Attention : Except for the IPS card, a CLX card is only authorised in the main cabinet of an iPBX. CONTRAINTE • Refer to section 3.5 to check the constraints imposed by the hardware configuration rules.
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• Check the status of the indicators of the added card and those of the CPU card. • Activate the card from the operating console. • Program any additional equipment associated with the card. • Perform the card operating test. • Save the configuration.
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6.3.4 Adding an equipment card (AXD, AXL, AXS, AXS12 and AXS6) The iPBX can be fitted with one or more expansion cards to increase the system capacity. In an iPBX, it is possible to install all types of expansion cards according to the existing configuration and hardware configuration rules. An equipment card can be hot-plugged in the main cabinet or expansion cabinet of an iPBX. CONTRAINTE • Refer to section 3.5 to check the constraints imposed by the hardware configuration rules.
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6.3.5 Adding a daughter card on an expansion card (AXD, AXL, AXS, AXS12 and AXS6) Adding a daughter card increases the capacity of an expansion card. CONTRAINTE • The configuration data needs to be changed if the system is expanded. Before adding new components, first back up the data. • Immediately after installing and programming any new components, you should make a second backup, to save the system's new configuration.
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6.3.6 Adding EIP cards to an UCV CPU card The UCV cards of AXD, AXL, AXS, AXS12 and AXS6 iPBXs can be fitted with two EIP daughter cards No. 1 and EIP card No. 2 to manage VoIP calls. These two daughter cards have 8 or 32 channels each for signal processing. The internal IP address of the IP cards must be declared on the same sub-network as that of the CPU card. See Aastra Management Portal operating manual.
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J14: EIP CARD NO. 2 J13: EIP CARD NO. 1 Figure 6.2 CPU card fitted with two EIP cards Installing a daughter card on a card requires the use of spacers. The EIP cards are screwed onto the cards. Combining 32-channel and 8-channel EIP cards Both EIP cards must not have the same capacity on the same UCV card. For example, a CPU card may be fitted on J13 with a 32-channel EIP card and on J14 with an 8-channel EIP card. On a DUPLEX system, this combination must be identical on the passive and active cards.
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6.3.6.1 Adding EIP cards for AXD configuration 6.3.6.1.1 Simplex AXD configuration CONTRAINTE • This configuration implies stopping the system. • The configuration data needs to be changed if the system is expanded. Before adding new components, first back up the data. • Immediately after installing and programming any new components, you should make a second backup, to save the system's new configuration. Procedure • Back up the configuration. • Power off the iPBX.
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6.3.6.1.2 Duplex AXD configuration CONTRAINTE The same number and type of EIP cards (32 or 8 channels) on each UCV-D card with the same slot. This configuration requires changing the system status, which results in the loss of on-going calls (see below). The configuration data needs to be changed if the system is expanded. Before adding new components, first back up the data.
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6.3.6.2 Adding EIP card(s) for AXL, AXS, AXS12 and AXS6 configuration Same procedure as in Simplex AXD configuration. See Section 6.3.6.1.1.
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6.3.7 Adding an expansion cabinet The iPBX can be fitted with one or more expansion cards to increase the system capacity. Avertissement : 6.3.7.1 The configuration data needs to be changed if the system is expanded. Before adding new components, first back up the data. Adding an expansion cabinet (AXD) Procedure • Back up the customer configuration. • Power off the iPBX. • Install the expansion cabinet cards. • Install the expansion cabinet and connect it to earth (see Sections 3 and 6.2.5).
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6.3.7.2 Adding an expansion cabinet (AXL) Procedure • Back up the customer configuration. • Power off the iPBX. • Install the expansion cabinet cards. • Install the expansion cabinet and connect it to earth (see Sections 3 and 6.2.5). • Connect the expansion cabinet to the main cabinet using the connection cable(s). - For an AXL extension connect to its two expansion cabinets: • Install the cable on the front panel of the expansion cabinet cards. • Install the battery cabinet if available.
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• Back up the customer configuration. • Power off the main cabinet. • Remove the upper cover of the main cabinet to insert the internal ribbon cable required for extension. • Remove the internal rear plate to allow the connection of the expansion ribbon cable. • Connect the expansion ribbon cable (reference: BHR0129A). • Screw on the expansion connector to the rear side of the main cabinet, using only the two screws provided with the kit. • Reinstall the rear internal plate.
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6.3.8 Adding an AXD power module 6.3.8.1 ADS350XD and ADS300XD compatibility As from release R5.1, the new ADS350XD (AHJ0033) module replaces the previous ADS300XD module. The previous ADS300XD module is compatible with R5.1 C. It is not possible to combine ADS350XD with ADS300XD in the same cabinet. The ADS350XD module supports the management of the following alarm types: • Rectifier • Converter • Fans • Temperature.
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to “O”). • Insert the power supply module in its slot and push it fully home. • Secure the power supply module onto the iPBX structure using its two screws. • Connect the mains cable on the front panel of the power supply module. • Power on the power supply module.
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6.3.9 Changing to DUPLEX configuration for AXD A second UCV-D CPU card is added to a simplex AXD main cabinet (and RUCV-D for an expansion cabinet) to secure the iPBX operation. Two specific slots (see 3) are reserved for the installation of CPU cards. In a configuration with two CPU cards (duplex configuration), one card is active and the other passive. In case of hardware failure on the active card, the passive card takes over and becomes active. Preliminary operations • Refer to section 3.
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• Insert the card into its slot. • Slide the card along the card guides until it clicks into place. • An UCV-D/RUCV-D card can be hot-plugged in a working AXD iPBX. • Lock the card in place using the 1/4 turn locks (see Figure 4.1). • Activate DUPLEX mode from the AMP. See Aastra Management Portal operating manual. Attention :Wait until the passive card is completely loaded and initialised before validating the duplex configuration. A special menu is used to change the simplex/duplex iPBX configuration.
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6.4 Stopping the system (AXD, AXL, AXS, AXS12 and AXS6) The same procedure for all these cabinet types. You must respect the order of this procedure: • On the CPU card, press briefly the "SHTD" (Shutdown) button. Wait for the green "SHTD" indicator light to be steady on, and for the other ones to go off. • Power off the power modules (I/O push button on O). 6.5 Stopping the system (AXD, AXL, AXS, AXS12 and AXS6) Note : Only restart modes from the CPU card front panel are described in this paragraph.
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6.6 Viewing the IP address in case of loss (offline) Access via the web interface will no longer be possible if the system's IP parameter value is lost. In this case, consultation in serial mode is available from a Windows PC equipped with the "Hyperteminal” application. Access is provided locally on the COM port of the CPU card, using a NULL MODEM cable connected between the COM port of the CPU card and the PC COM port.
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6.7 Updating the software of a simplex Aastra system R5.1 to R5.2 Note : See also Aastra Management Portal operating manual. 6.7.1 Principle This procedure for updating to R5.2 applies to systems running already in R5.1 (AXD, AXL, AXS, AXS12 and AXS6). To keep the IVB function, you must upgrade a 1GB CF card to 2 GB; during this upgrade to R5.2 refer to Chapter 6.12 - Upgrading from a 1 GB compact flash card to a 2 GB compact flash card. A backup must be made before starting the upgrade procedure.
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• USB key. The system version must be updated if the edition of the system on the CD is above the edition of the PBX system to be updated. • The CDROM system edition is in the file name SYS5000.1_R1.1A_AA_00.tar.gz (11AA). • The iPBX system edition is in the menu System/Info/Software Identification, file: UCV1LV111_Gen1.1AedB (11AB). Insert the CD in the client PC on which the software update commands are executed. 6.7.2.1 Loading update files The available modes are: • PC import • iPBX USB key 6.7.2.1.
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• Indicate the access path for the directory containing the file, using the "Browse" key. • If the path is known, enter it directly in the corresponding field. The file for the new version of the Aastra 5000 application is available in the A5000_Infra folder or sub-folder of the CD-ROM: - AX_R5000.2_R5.2A_A5_01.tar.
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Upgrading the application release • Select " Download ". A message indicates the progress of the downloading phase. At the end of the downloading operation, if the system version needs to be updated, the system proposes it automatically. In this case, the system must be updated (refer to the System version update phase). If the system does not propose it, it is not necessary to update the system version. The screen displays in this case. • Click "Validate".
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Upgrading the system version After upgrading the application release and if the system version must be updated, the following screen is displayed: • Indicate the access path for the directory containing the file, using the "Browse" key. • If the path is known, enter it directly in the corresponding field. The file for the new version of the (integrated) OS is available in the A5000_Infra folder of the CD-ROM: - SYS5000.1_R1.2A_A4_00.tar.gz (example) • Select " Download ".
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6.7.2.3 Switchover After the application release or system version download, system switchover to the new loaded version is proposed according to two modes: • IMMEDIATE • DEFERRED. These two modes are explained in the Aastra Management Portal operating manual. Immediate switchover Enter the new unlocking key for release R5.2. The system restarts automatically after the switchover phase. The next phase is to validate or save this new release definitely. See to the next paragraph.
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Enter the new unlocking key for release R5.2. The system will restart automatically after deferred switchover. After restarting in R5.2, it is necessary to refresh the browser screen to access AMP. It is advisable to close and restart it. The next phase is to validate or save this new release definitely. See to the next paragraph.
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6.8 Upgrading the software of a simplex Aastra system R5.2 Note : See also Aastra Management Portal operating manual. 6.8.1 Principle This procedure applies to systems already working in R5.2 and which the user wishes to upgrade to a release above R5.2. A backup must be made before starting the upgrade procedure. The software licence associated with the working R5.2 will be retained for upgrade to later releases. The different modes are: • From AMP, • From Aastra Management AM 7450 (TBC). Nota : 6.8.
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6.8.3 Restarting and validating the new version Rappel : After restarting in R5.2, it is necessary to refresh the browser screen to access AMP. It is advisable to close and restart it. Moreover, it could be necessary to erase the cookies and the temporary files of the navigator to obtain a correct display in the Web browser. After the software is upgraded, the installed version is not automatically validated during switchover.
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automatically, declaring the release as valid. • If you do not wish to validate the release "in test" but to return to the previous release, select "Confirm". The system restarts automatically with the previous release. This menu is also directly accessible via the TELEPHONY SERVICE menu, by clicking the quick link Validate the active software version. For other options, see Aastra Management Portal (Document Aastra Management Portal AXD-AXL-AXS-AXS12-A5000 Server – Operating Manual). 6.8.
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6.9 Upgrading an AXD in duplex configuration mode To update a duplex AXD system proceed as follows: • Update the software of the active UCV-D card using the same procedure as for a simplex configuration (see Section Updating the software of a simplex Aastra system R5.1 to R5.2, Important : The procedure must be complete, the system restarted and the new version validated (see Section Restarting and validating the new version).
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6.11.1 ACCESSING THE USER INTERFACE VIA AN ANALOGUE MODEM From a PC, set up a connection with the external analogue modem via the PC’s integrated modem. Then access the web browser installed on this PC (Internet Explorer, for example). Enter the IP address, 192.168.0.101, the default value defined for this connection type via the operating console in secure mode: • https://192.168.0.101 (secure access mode). Connectors Only one access per Aastra X series system.
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Configuring the Aastra X series system • Assign a DID number. Modem configuration • Automatic: controlled by the Aastra X Series Gateway Hayes commands for analogue US ROBOTICS modem configuration In case of ppp remote maintenance connection problem on a modem, check your modem's register configuration. Below is the recommended modem register configuration. • atS0= 2 off-hook after 2 seconds • &b1=115200 serial port throughput To see the register bases, type either at&v or at&i4.
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• Login: user • Password: guest Accessing the AMP user interface Open a web browser installed on the operating console (Internet Explorer, for instance). Enter the address reserved for this access mode: https://192.168.0.101 (secure access mode). Some security windows for this "https" access mode are then displayed successively; enter “YES” for each of them. A login window opens.
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6.11.2 ACCESSING THE USER INTERFACE (AMP) VIA AN ISDN MODEM Configuring the Aastra X series system In ISDN, since the Aastra X series system is connected to the operator network, you have to: • Define a subscriber (by default, subscriber 796). • Assign an "HSCX modem" set type to this subscriber ("terminals allocation). • Assign a DID number to the iPBX. Configuring the remote PC • On the remote operation PC, there must be an “ISDN modem”.
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- In the screen Enter the phone number to dial , enter the call number for this connection via modem. - Click Next. - In the Connection availability screen, tick All users. Click Next. The connection has been configured. In the " Start " menu, " Parameters " tab, start the connection to the PBX. • Login: user • Password: guest • Click Properties then successively tick the boxes as indicated below in each tab. - In the Modem properties tab: - Choose the modem type on the list proposed.
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- - In the Advanced tab, retain the default value. - Click OK. Access to the AMP browser • Open a web browser installed on the operating console (Internet Explorer, for instance). • Enter the address reserved for this access mode: https://192.168.1.101 (secure access mode). Some security windows for this "https" access mode are then displayed successively; enter “YES” for each of them. A login window opens.
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6.11.3 ACCESSING THE USER INTERFACE (AMP) VIA AN ISDN ROUTER In this release (R5.1A), the router must mask the PC address (NAT); the iPBX only sees an IP address on the PPP link (all the others are routed over the LAN port, the connection would not be set up). 6.11.3.1 CONNECTIONS • ISDN cable: router RJ45, LD4X or LT2 or operator RJ45.
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6.
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4. Start the iPBX and configure: - The IP address - The software licence - The countries and languages (the first two must be identical to those defined on the previous card) - The TMA, DHCP and FTP services, like on the previous card. 6.12.1 5. Start the data restore operation. 6. After restarting the cabinet, test the release then validate it if satisfactory. 7. Remove the USB key. Migration process 6.12.1.
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If a key is detected, the window is displayed in form of a single button, prompting you to back up the data to be migrated, on the key: Start the backup on the USB key Press this button to start backing up data on the USB key. A wait message is displayed during the backup operation. The backup operation may take several minutes, depending especially on the number of voice messages and amount of TMA data available on the 1 GB compact flash card.
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6.12.1.3 Replacing the compact flash card Stop the iPBX by respecting the following two phases: • On the CPU card, press briefly the "SHTD" (Shutdown) button. Wait for the green "SHTD" indicator light to be steady on, and for the other ones to go off. • Power off the power modules (I/O push button on O). Then • Remover the CPU card from the cabinet. • Remove the 1 GB compact flash card and replace it with a 2 GB flash card.
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section). 6.12.1.5 Restoring data from the USB key 6.12.1.5.1Pre-requisites The cabinet must be restarted correctly. The software release is valid. The USB key containing the backup is connected. Important : Before any restore operation, check the software release of the new card which must be at least equal to the previous one. If this is not the case, upgrade the software as described in Section 6.7 or 6.9. 6.12.1.5.
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At the end of the procedure, if everything is correct, disconnect the USB key. 6.12.1.5.3Error messages The following error messages may be displayed when data is being restored on the compact flash card: • « Transfer error x " means that an error occurred while data was being copied in phase x. • « System error, exit and retry " means that no key is connected or that the maintenance software cannot execute the restore action.
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7 Maintenance 7.1 Security guidelines Refer to Section 6.1.1. 7.2 Maintenance overview 7.2.1 Role and possibilities available System maintenance includes operations used to maintain the system in a given state or restore it to a given state, or to restore the operating characteristics specified by the manufacturer. This manual only concerns operations which can be performed on site using standard or user-friendly tools.
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7.2.2 Maintenance resources 7.2.2.1 Role of Aastra Management Portal (AMP) in maintenance Within the framework of maintenance, Aastra Management Portal is used to perform investigations or maintenance operations. See also Aastra Management Portal operating manual (Document [1]). Hardware start-up tests Hardware start-up tests take place automatically each time the iPBX is reset.
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Error messages The CPU card centralises and broadcasts all the statuses of each of the iPBX subassemblies and peripheral lines or networks associated with Aastra Management Portal. The AMP summarises all the results and presents them in the form of error messages which appear in the operating software log. The error messages are used to inform the operator when important events have been detected. Nota : 7.2.3 The logbook displays additional information concerning service records, charge records, etc.
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7.2.5 Restarting After replacing a sub-assembly on site, it is necessary to perform the following operations from the AMP: • Check that the element no longer generates error messages. • Return it to the same configuration as the old subassembly. 7.2.6 Returning subassemblies to be repaired Faulty subassemblies are returned to the manufacturer's repair centre, in the exchange batch reusable packaging, accompanied with a fault sheet describing the anomaly observed. 7.2.
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7.2.7.
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INTERCHANGEABLE AXD IPBX SUBASSEMBLIES ITEM CODE • CP1 BHJ4721A • MUM (+ cable) BHT7847A Equipment cards • LA16X BHJ4431A • LA16X-8 BHJ4431B • LA8 • LN16X BHJ4475A • LN16X-8 BHJ4475B • LN8 HJ4715 • LM8 BHJ4726A • LH8 HJ4716 • LH16X BHJ4830A • LH16X-8 BHJ4830B • • • • LR4D (with DTOC) LR4 (without DTOC) FTXA (LR4 daughter card, 50 Hz charge detector) FTXC (LR4 daughter card, 12/16 KHz charge detector) BHJ4717F HJ4717A HJ2817A HJ2818A • LI1 (+ cable) BHT7854A • BTX
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7.2.7.
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INTERCHANGEABLE AXL, AXS, AXS12 and AXS6 iPBX subassemblies ITEM CODE Equipment cards • LA16X BHJ4431A • LA16X-8 BHJ4431B • LA8* • LN16X BHJ4475A • LN16X-8 BHJ4475B • LN8* HJ4715A • LM8 BHJ4726A • LH8* HJ4716A • LH16X BHJ4830A • LH16X-8 BHJ4830B • • LR4D (with DTOC) LR4 (without DTOC)* BHJ4717F HJ4717A • • FTXA (50 Hz charge detector) FTXC (12/16 KHz charge detector) • LI1 (+ cable) BHT7854A • BTX BHJ4751A HJ4714A HJ2817A HJ2818A * Card not provided TABLEAU 7.
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7.2.7.4 Interchangeable fuses Only power supply modules have interchangeable fuses.
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7.2.7.
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7.3 Alarm messages and codes Error messages sent by the Maintenance and Startup system are displayed by the Operating system in the logbook. They advise the operator that the software has detected one of the following events: • an anomaly detected in the configuration a fault report message is posted in the log.
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7.4 Corrective maintenance 7.4.1 Description 7.4.1.1 Structure of exchange records The exchange records include (see Figure 7.1 ): • a header containing the number and title of the record, • a set of headings giving logistic information relating to the task: - the equipment availability (see section 7.2.
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TYPE AND NUMBER E-X SHEET IPBX AVAILABILITY: "NAME OF THE TASK" - FULL MISSION CAPABLE -PARTIAL MISSION CAPABLE -NO MISSION CAPABLE. AVAILABILITY NUMBER AND TYPE OF OPERATOR(S) DURATION TASK DURATION TOOL(S) LIST OF TOOLS REQUIRED INGREDIENT(S) / CONSUMABLE(S) LIST OF INGREDIENTS AND CONSUMABLES USED REMOVAL OPERATIONS TO PERFORM TO REPLACE THE ELEMENT REASSEMBLY Figure 7.
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7.4.1.2 Conventions used in the sheets • The means (standard tools, etc.) are listed at the beginning of the sheet, but are not detailed for each operation in the procedure. • The duration indicated is the approximate time required to perform the procedure; when the latter refers to another exchange sheet, the times must be added together to obtain the total time required. However, the duration does not include the time required for preparing the procedure (tools, etc.).
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7.4.2 List of E sheets SHEET NO.
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SHEET E-1REPLACING AN ADS300XD POWER SUPPLY MODULE AVAILABILITY • No mission capable if power supply module is not duplicated • Full mission capable if power supply module is duplicated OPERATORS (s) • 1 operator on site DURATION • 1 minute 30 seconds • 1 standard tool case INGRÉDIENT(S)/CONSOMMABLE(S) • N/A.
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PROCEDURE See Figure 4.3 for an overview of the power supply module. Table 1: OPERATION DETAILS OF THE OPERATION / COMMENTS • Alert the operator. • In the case of remote operation, contact the remote operator before starting any operation. • Check the functional technical state of the new power supply module. • Check that the functional technical state of the new power supply module is compatible with the old one. • Power off the power supply module to be removed. • Refer to Section 6.
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SHEET E-2REPLACING AN AXL POWER SUPPLY MODULE AVAILABILITY • No mission capable • 1 operator on site DURATION • 15 minutes • 1 standard tool case INGRÉDIENT(S)/CONSOMMABLE(S) • N/A.
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PROCEDURE See Figure 4.5 for an overview of the power supply module. Table 2: OPERATION DETAILS OF THE OPERATION / COMMENTS • Alert the operator. • In the case of remote operation, contact the remote operator before starting any operation. • Power off the power supply module to be removed. • Refer to Section 6.4, Stopping the system (AXD, AXL, AXS, AXS12 and AXS6)Error! No bookmark name given.
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SHEET E-3REPLACING AN AXS POWER SUPPLY MODULE AVAILABILITY • No mission capable • 1 operator on site DURATION • 20 minutes • 1 standard tool case • 1 Facom AZXR 15*75 Torx screwdriver for M4 screw (cover) INGRÉDIENT(S)/CONSOMMABLE(S) • N/A. Table 3: OPERATION DETAILS OF THE OPERATION / COMMENTS • Alert the operator. • In the case of remote operation, contact the remote operator before starting any operation. • Power off the power supply module to be removed. • Refer to Section 6.
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Table 4: OPERATION DETAILS OF THE OPERATION / COMMENTS • Unscrew the two securing screws on the mains unit. • Disconnect the fan cable from the power supply. • Pull out the power supply module. • Unscrew the power supply module and pull it out slowly. • Check the functional technical state of the new power supply module. • Check that the functional technical state of the new power supply module is compatible with the old one. • Fit the new power supply module.
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Table 5: OPERATION DETAILS OF THE OPERATION / COMMENTS • Close the cabinet. • Connect cables. • Power on the supply module. • Check the status of the indicators on the front panel. the • Secure the cover, - Fit the cover slightly to the rear of the cabinet and push it forward. - Tighten the securing screws at the back of the cabinet. - If necessary, secure the screws on the sides with brackets.
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SHEET E-4REPLACING AN AXS12/AXS6 POWER SUPPLY MODULE AVAILABILITY • No mission capable • 1 operator on site DURATION • 20 minutes • 1 standard tool case • 1Facom AZXR 15*75 Torx screwdriver for M4 screw (cover) INGRÉDIENT(S)/CONSOMMABLE(S) • N/A. See Figure 3.16 for a view of the AXS iPBX. Table 6: OPERATION DETAILS OF THE OPERATION / COMMENTS • Alert the operator. • In the case of remote operation, contact the remote operator before starting any operation.
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Table 7: OPERATION DETAILS OF THE OPERATION / COMMENTS • Check the functional technical state of the new power supply module. • Check that the functional technical state of the new power supply module is compatible with the old one. • Fit the new power supply module. • Insert the power supply module in its slot and secure it with its screws. • Connect the fan cable to the power supply. • Screw on the mains unit (at the back of the cabinet). • Connect the power supply cable to the CPU card.
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SHEET E-5REPLACING A VADS VENTILATION MODULE AVAILABILITY • Full mission capable OPERATORS (s) • 1 operator on site DURATION • 1 minute 30 seconds • 1 standard tool case INGRÉDIENT(S)/CONSOMMABLE(S) • N/A. See Figure 4.3 for an overview of the power supply module. Table 8: OPERATION DETAILS OF THE OPERATION / COMMENTS • Alert the operator. • In the case of remote operation, contact the remote operator before starting any operation.
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SHEET E-6 REPLACING FUSES IN THE POWER SUPPLY MODULE (AXD IPBX) AVAILABILITY • No mission capable if power supply module is not duplicated • Full mission capable if power supply module is duplicated OPERATORS (s) • 1 operator on site DURATION • 1 minute 30 seconds • 1 multimeter INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Table 9: OPERATION • Alert the operator. • Power off the supply module.
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Table 9: OPERATION • Remove the fuse holder located between the “I/O” switch and the connector. DETAILS OF THE OPERATION / COMMENTS • Utiliser un outil (par exemple un petit tournevis à tête plate) comme levier, comme l’illustre la figure suivante : 1- 2• Unclip the fuses from the fuse holder. • Check the continuity of the fuses using the multimeter (W position). Table 10: OPERATION • Check the compliance of the new fuses. • Insert the new fuses in the fuse holder.
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Table 10: OPERATION DETAILS OF THE OPERATION / COMMENTS • Power on the supply module. power • Check the status of the indicators on the front panel. AMT/PTD/PBX/0058/4/6/EN Page 422 01/2011 • • "I/O" switch to 'I". For a simplex configuration, if it is an iPBX with several cabinets: - First power on the power supply module in the expansion cabinets. - then power on the power supply module in the main cabinet. Refer to Section 4, Description des sous-ensemblesError! No bookmark name given.
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SHEET E-7REPLACING FUSES IN THE POWER SUPPLY MODULE (AXL AND AXS IPBX) AVAILABILITY • No mission capable • 1 operator on site DURATION • 5 minutes • 1 multimeter INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Table 11: OPERATION DETAILS OF THE OPERATION / COMMENTS • Alert the operator. • In the case of remote operation, contact the remote operator before starting any operation. • Power off the cabinet's power supply module. • Refer to Section 6.
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Table 11: OPERATION • Remove the fuse holder located between the “I/O” switch and the connector. DETAILS OF THE OPERATION / COMMENTS • Utiliser un outil (par exemple un petit tournevis à tête plate) comme levier, comme l’illustre la figure suivante : 1- 2• Unclip the fuses from the fuse holder. • Check the continuity of the fuses using the multimeter (W position).
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Table 12: OPERATION DETAILS OF THE OPERATION / COMMENTS • Check the compliance of the new fuses. See Tableau 7.5 . • Insert the new fuses in the fuse holder. • Refit the fuse holder in its slot, on the front panel of the power supply module. • Connect the cables. • Disconnect the mains cable, and if appropriate the backup battery connector: - on the front panel of the power supply module (AXL) - at the back of the cabinet (AXS and AXS12). • Power on the iPBX.
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SHEET E-8REPLACING A UCV-D CPU CARD AVAILABILITY • Disabled if UCV-D is not duplicated • Full mission capable if UCV-D card is duplicated OPERATORS (s) • 1 operator on site DURATION • 2 minutes INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Replacing a non-duplicated UCV-D card Table 13: OPERATION • Back up customer configuration. DETAILS OF THE OPERATION / COMMENTS the • • • • Power off the iPBX.
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Table 13: OPERATION • DETAILS OF THE OPERATION / COMMENTS Check the configuration of the card. • Insert the new card into its slot. • Perform the wiring exactly as in the old cabinet. • Power on the iPBX. • • For a card with micro-switches, check that these latter are configured as they were on the old card, unless the configuration has been changed (in which case, see Section 4.3).
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Replacing a duplicated UCV-D card Table 14: OPERATION • Back up the customer configuration. DETAILS OF THE OPERATION / COMMENTS • • • Precautionary operation to be carried out if there is no existing copy (which is the case when previous installation operations have been carried out and the procedures followed). Refer to [1] In the case of remote operation, contact the remote operator before starting any operation. • Disconnect the cables on the UCV-D card to be removed.
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Table 14: OPERATION • • Check the configuration of the card. Insert the new card into its slot. DETAILS OF THE OPERATION / COMMENTS • • For a card with micro-switches, check that these latter are configured as they were on the old card, unless the configuration has been changed (in which case, see Section 4.3).
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SHEET E-9REPLACING A RUCV-D CARD AVAILABILITY • Partial mission capable if the RUCV-D card is not duplicated • Full mission capable if the RUCV-D card is duplicated OPERATORS (s) • 1 operator on site DURATION • 2 minutes INGRÉDIENT(S)/CONSOMMABLE(S) • N/A AMT/PTD/PBX/0058/4/6/EN Page 430 01/2011 Installation and Maintenance Manual - Aastra 5000 Maintenance
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Replacing a non-duplicated RUCV-D CPU card Table 15: OPERATION • Back up the customer configuration. DETAILS OF THE OPERATION / COMMENTS • • • • Pull out the faulty card from its slot. • Precautionary operation to be carried out if there is no existing copy (which is the case when previous installation operations have been carried out and the procedures followed). Refer to [1] In the case of remote operation, contact the remote operator before starting any operation.
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Replacing a duplicated RUCV-D CPU card Table 16: OPERATION • Back up the customer configuration. DETAILS OF THE OPERATION / COMMENTS • • • • Pull out the faulty card from its slot. • Precautionary operation to be carried out if there is no existing copy (which is the case when previous installation operations have been carried out and the procedures followed). Refer to [1] In the case of remote operation, contact the remote operator before starting any operation.
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Table 16: OPERATION • • DETAILS OF THE OPERATION / COMMENTS Activate the passive RUCV-D card from the AMP. Refer to the document [1]. Perform a software check. • Nota : • • Check the RUCV-D card indicators. • Back up the customer configuration. This new card is now the passive card (since it is connected to the passive UCV-D card). It must be activated in order to be taken into account by the system. Check the software release of the card on the AMP (see document [1]).
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SHEET E-10REPLACING AN IUCV-D CARD AVAILABILITY • Partial mission capable OPERATORS (s) • 1 operator on site DURATION • 2 minutes INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Table 17: OPERATION • DETAILS OF THE OPERATION / COMMENTS Back up the customer configuration. • • • Precautionary operation to be carried out if there is no existing copy (which is the case when previous installation operations have been carried out and the procedures followed).
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Table 17: OPERATION DETAILS OF THE OPERATION / COMMENTS • Check that the functional technical state of the new card is compatible with the old one. • Install module. i-button • Install the i-button module of the old IUCV-D card on the new card. • Insert the new card into its slot. • • Slide the card along the card guides until it clicks into place. Lock the card in place using the 1/4 turn locks (see Figure 4.1). the Nota : The IUCV-D card can be hot-plugged in an operational AXD iPBX.
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SHEET E-11 STANDARD REPLACEMENT OF AN AXD MAIN CABINET AVAILABILITY • No mission capable OPERATORS (s) • 1 operator on site DURATION • 20 minutes INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Table 18: OPERATION • Back up the customer configuration. DETAILS OF THE OPERATION / COMMENTS • • • • Power off the iPBX. • • Precautionary operation to be carried out if there is no existing copy (which is the case when previous installation operations have been carried out and the procedures followed).
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Table 18: OPERATION DETAILS OF THE OPERATION / COMMENTS • Install the module. i-Button. • Install the i-button module of the old IUCV-D card on the new card. • Remove and recover the i-button identification number. • Remove and recover, at the back of the cabinet, the label with the i-Button's identifier number (the i-Button's identifier label only, not the product identification label). Stick the i-Button's identification label on the back of the new cabinet.
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Table 18: OPERATION • Check the UCV-D card's system and application software releases using the AMP. • Restore the data of the old configuration. AMT/PTD/PBX/0058/4/6/EN Page 438 01/2011 DETAILS OF THE OPERATION / COMMENTS • Refer to the document [1].
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SHEET E-12STANDARD REPLACEMENT OF AN AXL MAIN CABINET AVAILABILITY • No mission capable • 1 operator on site DURATION • 20 minutes INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Table 19: OPERATION • Back up the customer configuration. DETAILS OF THE OPERATION / COMMENTS • • • • Power off the iPBX. • • Precautionary operation to be carried out if there is no existing copy (which is the case when previous installation operations have been carried out and the procedures followed).
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Table 19: OPERATION DETAILS OF THE OPERATION / COMMENTS • Check the configuration of the UCV card. • As the UCV card can include daughter cards, check that it is fitted identically to the previous one, unless its configuration has been modified due to a change in its capacity (in which case, see Sections 4.3 to 4.5 or the product “Data sheet”). • Remove and recover the i-button identification number.
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SHEET E-13STANDARD REPLACEMENT OF AN AXS MAIN CABINET AVAILABILITY • No mission capable • 1 operator on site DURATION • 30 minutes • 1 Facom AZXR 10*75 Torx screwdriver for M3 screw (card). • 1 Facom AZXR 15*75 Torx screwdriver for M4 screw (cover). INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Table 20: OPERATION • Back up the customer configuration. DETAILS OF THE OPERATION / COMMENTS • • • • Power off the iPBX.
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Table 20: OPERATION DETAILS OF THE OPERATION / COMMENTS • If required, recover the expansion ribbon cable. • If the iPBX has two cabinets, disconnect the expansion ribbon cable linking the CPU card to the expansion cable connector. • Recover module. i-button • Recover, on the UCV card, the i-button module containing the system's identifier. • Remove the cover from the new cabinet. • Unscrew the two securing screws of the upper cover, at the back of the cabinet.
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Table 20: OPERATION • Connect the mains cable. DETAILS OF THE OPERATION / COMMENTS • Connect one end of the mains cable to the main cabinet and the other end to a grounded mains power point. Attention : The iPBX must be powered off when installing the mains cable. Never connect network lines while the mains power cable is unplugged. • Power on the iPBX.
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SHEET E-14STANDARD REPLACEMENT OF AN AXS12 MAIN CABINET AVAILABILITY • No mission capable • 1 operator on site DURATION • 15 minutes • 1 Facom AZXR 15*75 Torx screwdriver for M4 screw (cover). INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Table 21: OPERATION • DETAILS OF THE OPERATION / COMMENTS Back up the customer configuration. • • • • Power off the iPBX.
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Table 21: OPERATION DETAILS OF THE OPERATION / COMMENTS • Check the configuration of the UCV card. • As the UCV card may be fitted with a daughter card, check that the new card is fitted exactly like the previous one, unless its configuration has been modified due to a change in its capacity (in this case, see Sections 4.6 or the product “Data sheet”). • Remove and recover the i-button identification number.
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SHEET E-15REPLACING AN EXPANSION CABINET (AXD IPBX) AVAILABILITY • No mission capable OPERATORS (s) • 1 operator on site DURATION • 20 minutes INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Table 22: OPERATION • Back up the customer configuration. DETAILS OF THE OPERATION / COMMENTS • • • • Power off the iPBX. • • Precautionary operation to be carried out if there is no existing copy (which is the case when previous installation operations have been carried out and the procedures followed).
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Table 22: OPERATION • Install cards. the expansion • Install the cables exactly like in the old cabinet. DETAILS OF THE OPERATION / COMMENTS Install the expansion cards from the old cabinet in the new cabinet. • Slide the card along the card guides until it clicks into place. • Lock the card in place using the 1/4 turn locks (see Figure 4.1 ). • • • • Fit the new cabinet. • Connect the mains cable.
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SHEET E-16REPLACING AN EXPANSION CABINET (IPBX AXL, AXS, AXS12) AVAILABILITY • No mission capable • 1 operator on site DURATION • 20 minutes • 1 Facom AZXR 15*75 Torx screwdriver for M4 screw (cover). INGRÉDIENT(S)/CONSOMMABLE(S) • N/A Table 23: OPERATION • Back up the customer configuration. DETAILS OF THE OPERATION / COMMENTS • • • • Power off the iPBX. • • • Disconnect the cables.
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Table 23: OPERATION DETAILS OF THE OPERATION / COMMENTS • Check that the expansion ribbon cable has been fitted (AXS/AXS12/ AXS6). This operation concerns only the AXS/AXS12/AXS6 iPBX. • Check that the expansion ribbon cable connecting the CPU card to the expansion cable connector is connected. • Install cards. Install the expansion cards from the old cabinet in the new cabinet. AXL and AXS/AXS12/AXS6 iPBXs • Slide the card along the card guides until it clicks into place.
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8 Installing and using the IPS card The installation and use of the IPS card are described in a special manual (see document [13]). Caution: From R5.1(A5000 environment), it is mandatory to desactivate the embedded GSI.
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9 FUNCTIONAL DIAGRAMS This chapter contains six diagrams: • Functional diagram of an Aastra XD in simplex configuration (Plate 9.1) • Functional diagram of an Aastra XD in duplex configuration (Plate 9.2) • Functional diagram of an Aastra XL, XS, XS12 and AXS6 (Plate 9.3) • Principle of multi-site synchronisation Plate 9.
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AMT/PTD/PBX/0058/4/6/EN Page 454 01/2011 Installation and Maintenance Manual - Aastra 5000 Functional diagrams
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INTE RFA C E $ IGITA L S E TS ! NA LOG S E TS ( OTE L A NA LOG S E TS ! TTE NDA NT # HA RGING S E RV E R % THE RNE T . E TWORK ! NA LOG . E TWORK 2 4#0 0"8 . 0"8 0 # OR 0 RINTE R 0"8 # ONS OLE 0 / 2 ÏS EA U % THE RNE T ) 5 -3 "48 0"8 -A NA GE ME NT # E NTE R # HA RGING BUFFE R 5 NIFIE D ME S S A GING , ) , -X , !X 4 # 0 ) 0 GA TE WA Y 04 0"8 04 , .
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PC Console PC or printer Printer Download / Backup Music source PBX N Ethernet Network Management centre BTX PBX 3 Billing buffer PBX PBX 2 5#6 , Telephony & data TS PT2* gateway TCP/IP LI1 Ethernet network Synchronous Bus PBX Administration interface PT2 + VoIP IUMS PCM TS Switching Console Unified messaging IP Sets Analog sets System bus CS1 Signal processing (generation, detection, etc.
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034. 034. 2EFERENCE CLOCK 2EFERENCE CLOCK 2EFERENCE CLOCK -!34%2 0"8 ./.
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10 INSTALLING A5000 SERVER (NON-REDUNDANT) This chapter describes how to install the non-redundant A5000 Server application. For the redundant Aastra 5000 server, refer to AMT/PTD/PBX/0083. 10.1 Important pre-requisite As of R5.2, the Linux operating system, Red Hat 5.4 minimum, must first be installed on the PC. Refer to the document Red Hat OS installation Manual. The PC network must have been declared and configured (if necessary, contact the network administrator).
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Pre-configuration starts at the end of the script. 1 Country configuration (locating menu labels and displaying sets) Aastra 5000 Configuration / Country *-------------------------------------------------* | Enter Country: GB *-------------------------------------------------* Do you want to change configuration Y(es)/N(o) ? n This screen corresponds to the configuration of the country in which the system will be installed.
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2 Configuring the licence Aastra 5000 Configuration / Licence *------------------------------------------------* | Licence: | *------------------------------------------------* Do you want to change configuration Y(es)/N(o) ? n • Enter the corresponding value of the release (optional: it may be entered later from AMP).
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pressing "y" or "n". 5 Installing the services This menu is used to install the following services: • DHCP • FTP • TFTP • SYSLOG If you wish to manage any of these services, you must install it in advance. Installing the service enables you to modify its status and configuration later via AMP. The FTP service (accounts and storage directories) is automatically configured when the FTP service is started by AMP.
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6 Configuring service start In case of A5000 Server/AM7450 cohabitation (see phase 3, configuring AM7450 cohabitation), the TMA service does not appear in the menu below. The status of the FTP, TMA and DHCP services can be modified so they may or may not be started automatically. If a service is not configured to start automatically, the menu Telephony service > System > Configuration > AMP services is used to start them manually later.
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7 Configuring the 67xxi deployment option AASTRA 5000 CONFIGURATION / SIP 67xxI AN EXISTING CONFIGURATION WAS FOUND *--------------------------------------------------* | DEPLOYMENT XML SERVER (0/1): 1 | | DEPLOYMENT PASSWORD: 2345 | | LLDP ENABLED (0/1): 0 | | TERMINAL VLAN: | | PC VLAN: | *--------------------------------------------------* DO YOU WANT TO CHANGE CONFIGURATION Y(ES)/N(O) ? • If the answer is YES, "y", the screen below can be used to modify the value of the following fields: DEPLOYMENT XML
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The system’s general parameters declaration screen opens (name IID (system identification number)): AASTRA 5000 CONFIGURATION / Name&IID *-------------------------------------------------* | DO YOU WANT TO CONFIGURE NAME/IID (Y/N): Y | • If you answer YES, "y", the next screen allows you to declare the system’s general parameters (11 digits).
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This field is used to assign a DID number to call distribution service0. Authorised characters are " 0123456789ABCDE". • Validate the modifications with the "Return" key, after confirming or rejecting them by pressing "y" or "n".
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11 Configuring subscriptions AASTRA 5000 CONFIGURATION / Subscribers *-------------------------------------------------* | DO YOU WANT TO CONFIGURE SUBSCRIBERS (Y/N): Y | *-------------------------------------------------* If the answer is "y", enter the corresponding values for the different fields described below.
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COMMON SUBSCRIBER: This field is only read and taken into account if it is in the complete block and if this number exists already. If this is not the case, or if the field does not exist, they are assigned a default number. If their value is 0, they will not be assigned any number. The common subscriber field must always have a number. ADDITIONNAL SUBSCRIPTIONS: This field indicates the number of further internal subscriptions to create.
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| SUMMARY: *-------------------------------------------------* | NAME = A5000 | | IID = 00130927001 | | SUBSCRIBER = 3005 | | DID = 4000 | | NUMBERING LENGTH = 4 | | COUNTRY = FRA | | LICENCE = 123456789123 | | PARI = | | START UP TYPE = TOTAL | | DEDICATED SNMPD = Y | | COHABITATION MODE = N | *-------------------------------------------------* DO YOU WANT TO APPLY YOUR CHANGE Y(ES)/N(O)/R(ECONFIGURE) ? Y If the summary is not correct: • Press "r" to restart the preconfiguration (from the first “Choose co
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10.3 Accessing the (AMP) user interface The operating console must be connected to the same network as the Aastra series system (CPU card LAN port). • Open a web browser installed on the operating console (Internet Explorer, for instance). • Enter the IP address defined for the system: https://@IP (secure access mode) Note : Address defined while installing the Redhat OS corresponding to the IP address of the A5000 Server network card.
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The AMP welcome screen is displayed.
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10.4 Declaring the licences for virtual A5000 server A5000 Server may be virtualised in R5.2 SP1 and later. In this case, the dongle is equally virtual and is delivered with the A5000 Server package. For a first installation, the licence is not otained directly and depends on the installation code to be generated from AMP. This installation code is specific to each iPBX. It must first be generated by the installer (from AMP).
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10.5 Resetting the manufacturer's password (in case of loss) The default manufacturer's password can be reset if the user loses the manufacturer's access code defined from the menu TELEPHONY>SYSTEM>Configuration>Users/System accounts (if the user had chosen its modification). This may become necessary if the user loses or forgets this manufacturer's access code. Rappel : The manufacturer's access code may be modified to reinforce system security.
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• The screen then displays the different configuration modes. Configuration mode (F/T/S/P/E) - F: Factory mode - T: Total mode - S: Standard mode - P: Password reset - E: for Exit • Select "P" mode to enter the pre-configuration menus. • In the next screen, enter the values Enter Identifier and Enter Key provided by AASTRA.
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10.6 Massive import from the massive creation form To avoid repetitive tasks on AMP, massive import consists in first creating in an Excel form a set of configuration data listed for the site. This form is then converted to a format compatible (.csv) with Aastra 5000 Server. The file thus generated can be imported from AMP, Menu System>Software maintenance>Massive import. Refer to Section 11.4for information on how to use this form.
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10.7 Additional configurations 10.7.1 Starting and viewing the services You can configure the services (LDAP, SNMP, GSI, FTP, TFTP, etc.) and display their status from the "SYSTEM>Configuration>Services" menu of Aastra Management Portal. See Aastra Management Portal operating manual. 10.7.2 Declaring an NTP time server It may be necessary to synchronise an NTP server, especially for some terminal types.
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10.8 Upgrading Aastra 5000 Server software R5.1 to R5.2 Note : See also Aastra Management Portal operating manual. 10.8.1 Principle This R5.2 upgrade procedure applies to A5000 Server systems already working in R5.1. To upgrade to R5.2, you must: • Make a backup before starting the upgrade procedure. • Upgrade the Linux OS to 5.4 • Reinstall the Aastra 5000 Server R5.2 software • Restore R5.1 data in the new R5.2 environment • The new software licence associated with R5.
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10.8.3 Checking the release of Red Hat Enterprise To check the installed Redhat release: • Restart the A5000 Server PC then log on as root. • Open a terminal window: go to the menu File > Open in a terminal. • Type in the command: cat /etc/redhat-release 10.8.4 Installing the A5000 Server R5.2 application Since this phase of the procedure is the same as the one described for a new system, see Section Installing the A5000 Server application. The R5.
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10.9 Upgrading Aastra 5000 Server R5.2 software Note : See also Aastra Management Portal operating manual 10.9.1 Principle This procedure applies to systems already working in R5.2 and which the user wishes to upgrade to a release above R5.2. A backup must be made before starting the upgrade procedure. The software licence associated with the working R5.2 will be retained for upgrade to later releases. The different modes are: • From AMP, • From Aastra Management AM 7450 (TBC). Nota : 10.9.
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Two media types can be used: • CDROM • USB key Insert the CD in the (AMP) client PC on which the software update commands are executed.
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10.9.2.1 Loading the application The available modes are: • PC import • iPBX USB key 10.9.2.1.1By PC import • Select " PC IMPORT ". • Confirm.
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• Indicate the access path for the directory containing the file, using the "Browse" key. • If the path is known, enter it directly in the corresponding field. The file to be loaded is available in the A5000_Infra A5000_R5000.2_R5.2_A5_01.tar.gz CD-ROM (example).
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• Select " Download ". A message indicates the progress of the downloading phase. • Click "Validate". The switchover window is then activated (See Section 10.9.3). 10.9.2.2.
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10.9.3 Switchover System switchover in the new version loaded is proposed in two modes: • IMMEDIATE • DEFERRED. These two modes are explained in the Aastra Management Portal operating manual AXDAXL-AXS-AXS12-A5000 Server – Operating manual The system restarts automatically after the switchover phase. In case of deferred switchover, the upgrade operation will be run by the system on the date and time indicated in the DATE and HOUR fields.
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10.9.4 Restarting and validating the new version After the software is upgraded, the installed version is not automatically validated during switchover. You must validate the new version manually after noticing that it is running satisfactorily. You can validate it through the menu "SYSTEM > Restart request". As long as the new version is not validated: • it remains "in test", • It is possible to restore the previous release. • It is not possible to carry out a restore operation on this version.
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10.9.5 Via Aastra Management AM 7450 See the document Aastra Management 7450 (AM 7450) User manual. 10.10 Upgrading the redundant A5000 server See Installation manual for redundancy and double attachment on A5000 Server. 10.11 Backing up and restoring the configuration Backup and restore operations are performed from Aastra Management Portal. See Aastra Management Portal operating manual.
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11 APPENDICES 11.1 Taking the security certificate into account When the AMP is first accessed via the web browser (Internet Explorer), a security alert is displayed because the company’s certification is not recognised automatically. Therefore, you have to indicate to the web browser that the company is a reliable certification authority. For Aastra X series (AXD, AXL and AXS) iPBXs • Open a web browser installed on the operating console (Internet Explorer, for instance).
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• In the following screen, select the "Certification access path" tab then click the root certificate (in the example "Aastra"). • Click "Display certificate".
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• Click "Install certificate". The installation then starts.
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• Click "Finish" A security warning is displayed. • Click "Yes". The certificate is installed. • Click “OK" The installation is complete; all the sites certified through the root name (in the example “Aastra”) will no longer display the Internet Explorer security alert.
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For Aastra 5000 (A5000 Server) • Open a web browser installed on the operating console (Internet Explorer, for instance). • Enter the IP address defined for the system: https://@IP (secure access mode) Note : Default address in factory setting: 192.168.65.01 In the Certificate screen • Select Accept this certificate definitelythen click OK. In the Security warning screen • Click OK.
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11.
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11.3 CONFIGURING THE FIREWALL FOR ACS The installation of Red Hat Enterprise Linux 5 is described in the “Red Hat Installation Guide” (see reference documents). For a simplified installation, this document recommends that the firewall be deactivated. For the ACS application, the use of a firewall is, nevertheless, recommended in order to secure the network. In this case, the firewall must be configured in such a way that it will not filter the ports required by the application to work properly.
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The following table gives the list of ports to open for the A5000 server installation.
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Additional items on the list of TCP ports used by the internal servers of A5000 Server Installation and Maintenance Manual - Aastra 5000 Appendices 01/2011 AMT/PTD/PBX/0058/4/6/EN Page 495
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11.4 Using the massive creation form 11.4.1 Considerations This section only describes how to massively create the following data, from the blank form provided: • External data • Programming keys for each subscription (maximum 64) • Secondary numbers for multi-line subscribers.
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11.4.3 Structure and content of the Excel form 11.4.3.1 Structure The file comprises three tabs: • External record creation tab • Selection keys tab • Multi-lines tab Each tab contains respectively the fields that can be completed in the corresponding AMP menu (in the example, Creation of external record). On each tab: • The cells on the first line (line 1) indicate the labels of the parameters to be exported, corresponding to the fields to be completed in the AMP.
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(alphanumeric values, options list, dependences of certain data families). All creations must be made in Excel format. Back up systematically the latest version of these files before converting them to .csv format. Use only a blank form (basic form) for each new creation meant for a new massive import. Do not re-use an old file already subjected to massive import. For cells involving an options list, see the options offered in the menu in question so as to respect the syntax (see also the next sections).
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11.4.3.3 Backing up the file in .csv format After filling in the tab: • Select File/Save AS. • Name the file. • Select the format "CSV (separator: semi-colon) (*.csv)" • Click Save. The converted file is then available for massive import from the AMP in the menu System/Software maintenance/Massive import. Note : If this file still needs to be modified before import, when re-opened, some formats will be lost, especially the numeric values starting with 0.
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11.4.4 External record creation tab Correspondence with the filling of the fields in the menu Subscribers/ Directory/External records/Creation of an external record For correspondence with the possible options and values, as well as their syntax, see Section 4.2.2 of the Aastra Management Portal Operating Manual (Document [1]).
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11.4.5 Selection keys tab This part of the form is used to configure 5 keys per subscriber. Correspondence with the filling of the menu fields Subscribers/Subscriptions/Characteristics/Keys For correspondence with the possible options and values, as well as their syntax, see Section 4.3.7of the Aastra Management Portal Operating Manual (Document [1]). Refer also to the respective terminal documentation for information on the number of programmable keys.
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11.4.6 Multi-lines tab Correspondence with the filling of the menu fields Multi-lines For correspondence with the possible options and values, as well as their syntax, see Section 4.3.11 of the Aastra Management Portal Operating Manual (Document [1]).