Installation and Maintenance Guide M6501L/R IP PBX PS10270JENAA01 10/2004
EADS Defence and Security Systems SA Rue JP Timbaud - Montigny Le Bretonneux 78063 St Quentin Yvelines Cedex - France Tél : (0)1 34 60 80 00 - Fax : (0)1 34 60 72 41 Email : Technical-Support@eads.
Contents About this guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .9 Understanding the parts in the guide . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9 Understanding the conventions used in the guide . . . . . . . . . . . . . . . . . . . . . . . . . . . 10 Description of the M6501L/R IP PBX . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
Unpacking the cabinet(s) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Checking the cabinet contents . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Installing the cabinet on its wall mount. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Fastening the cabinet to its support . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Connecting the M6501L IP PBXcabinets . . . . . . . . . .
Installing an IP cartridge on M760 and M780 sets . . . . . . . . . . . . . . . . . . . . . . . . . . . Installing an M700 expansion module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Installing an M710 expansion module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Installing an M705 expansion module . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . Installing an M715 expansion module . . . . . . . . . . . . . . . . . . . . . . . . .
Connecting a trunk line . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 122 Assigning a trunk line to an existing trunk group . . . . . . . . . . . . . . . . . . . . . . . . . . . 123 Adding a trunk line to a new trunk group . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 123 Additional sets . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 124 Connecting the set . . . . . . . . . . .
CHP1 (HJ3636B). . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 175 CP1 (HJ2706A) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 177 CS1 (HJ2696A) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 179 LA4 (HJ2843A) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
30/03/2003 PS10270JENAA01
About this guide The M6501L/R IP PBX installer documentation has two guides and a record of customer data programming to cover all aspects of installing and using the M6501L/R IP PBX: • Installation and maintenance guide, • Programming Guide • Programming Record The present guide entitled This Installation and Maintenance Guide is intended to help you install the M6501L/R IP PBX.
Understanding the conventions used in the guide This guide tells you how to install your system step-by-step and uses the following visual aids: Warning symbol WARNING messages must be read carefully to avoid personal injury or damage to the equipment. IMPORTANT IMPORTANT messages draw your attention to the fact that some tasks may affect the correct operation of the installation. Note: Note messages indicate additional information or a technical explanation that may be useful to the installer.
Description of the M6501L/R IP PBX The M6501L/R IP PBX is an integrated business communications system supporting voice circuit switching, data packet switching, and the addition of applications servers. It is a B-class time-division multiservice ICS. Depending on its equipment, this product may be a reduced M6501R IP PBX or an extended M6501L IP PBX. Note: The M6501R IP PBX and M6501L IP PBX are in the form of a small wall-mounted cabinet using the same standard OCT4 card.
The M6501L IP PBX consists of one or two cabinets. The basic cabinet with the standard OCT4 card is connected to the expansion cabinet, equipped with an ROCT3B card, via an external cable. Each cabinet has its own power-supply module (ADS 300).
M6501L/R IP PBX system hardware architecture The M6501L/R IP PBX is built around a central processing unit and peripheral connection cards. It has a multiprocessor architecture with shared memory resources. The central processing unit is based on a 133 MHz AMD Elan SC520 (ASPEN) microprocessor and performs all the functions required for connection management. Both the system processor software and application software reside on the CPU card.
Cabinets and power supplies Externally,M6501R IP PBX and M6501L IP PBX cabinets are identical. The M6501R IP PBX The M6501R IP PBX is housed in a wall-mounted cabinet containing 6 card slots (shelf 0) with the following characteristics: 14 • weight: approximately 18 kg (24.2 lbs) • dimensions: 240 x 415 x 305 mm (L x H x D) • power supply the characteristics of the ADS 150 (ref.
The M6501L IP PBX The M6501L IP PBX is composed of one or two similar cabinets, depending on the customer configuration. The expansion cabinet can be positioned to the right or left of the main cabinet. Each cabinet contains 6 card slots (shelf 0 in the main cabinet and shelf 2 in the expansion cabinet). An optional shelf with 8 card slots enables the capacity of each cabinet to be expanded (shelf 1 in the main cabinet and shelf 3 in the expansion cabinet).
Network connections The M6501L/R IP PBX is a business integrated communications system offering both a telephone service and a synchronous and asynchronous data packet switching service. It can be connected to the public network, a private network, an X.25 public network, and a LAN network. Depending on the local exchange used, trunks can be connected to the public switched telephone network (PSTN) along analogue network lines or using BRI and/or PRI accesses over an ISDN network.
The table below lists the external links available. Termination type Card analogue network trunk LR4 ISDN: T0 BRI interface LS1 LD4 LD4N Numeris (ISDN) VN3 VN4-compatible ETSI ISDN T2 interface LT2 Numeris (ISDN) VN3 VN4-compatible ETSI PCM digital line LT2 . DID signalling (Socotel state-change MF for setting up network calls) . subscriber signalling (pulse or DTMF dialling for setting up network calls) . COLISEE pulse signalling for connection to the COLISEE network .
Connection capacities IMPORTANT The capacities below are given only as a guide. It is essential to use the configurator tool, because of rules concerning PCM bus distribution on back planes and the checks to be performed on +5 V consumption. All set and line combinations are allowed, provided you use no more than 6 cards for the M6501R IP PBX and no more than 14 cards per cabinet for the M6501L IP PBX. The maximum capacities shown in the table below do not apply for simultaneous operation.
Configuration options of the M6501L/R IP PBX The M6501L/R IP PBX is factory tested and supplied with default settings. Through programming, it is possible to define other specific configurations: standard configuration, multicompany configuration, multi-site configuration, hotel/motel and hospital functions. It is necessary to determine which configuration is to be used before initialisation.
Hotel/motel configuration The M6501L/R IP PBX offers additional features suitable for hotels.
The user interface The M6501L/R IP PBX user interface is organised in a tree structure that consists of a main management menu with five different areas of programming, each containing submenus. When the programming console is connected to the system and configured, the main menu below is displayed on screen. PBX MANAGEMENT 1 2 3 4 5 Telephony management Data management System administration Operation administration Installer data ENTER YOUR CHOICE .
Tree structure The man machine commands (MMC) are set out in the form of tree structured menus. You can progress through the tree structure by entering information at each level. There is also a special command to move back a level. Menus A menu consists of a menu name, lines, and a box indicating keystroke commands (delete, line feed, etc.). A menu can be composed of one or more screens. In multi-screen menus, the titles and boxes are repeated on each successive screen.
Menu definition and management Each menu has up to four sections: • a message bar for information and error messages • the name of the menu • lines of data options • a box indicating keystroke commands Message de diagnostic ou d’erreur SELECTION D’UN USAGER Titre •••• •••• PAR SON EMPLACEMENT PHYSIQUE Nombre de lignes ° OU PAR SON N D’ANNUAIRE Effacer Guide > SP < > COR Effacer Guide > SP < > DEL Origine Marque Imprimer < > SUI < > SOM < > ENV < > ANN < Cartouche Minitel LF < Cat
Lines of data options A set of a maximum of 128 lines constitutes the menu text. These lines are displayed with no special effects. The block of text is displayed in the centre of the screen. It may be divided into 1 to 6 screens, each containing 16 lines. There are two major line families: simple lines and lines with a data entry field. Keystroke commands The keystroke command box indicates the keystroke commands that can be used in the screen.
Selection menu Selection menus are displayed on one screen. They are used to enter 1 to 4 selection criteria to identify an element concerned by subsequent processing. If you enter a valid value, a repetitive menu opens. Intermediate data entry menu Intermediate data entry menus may or may not be repetitive. They are similar to terminal data entry menus. They are used to enter any configuration data not entered in the selection menu, if applicable. Repetitive commands are available in repetitive menus.
Types of line • fixed lines • display lines • ASCII lines • digital lines • list lines Simple lines: fixed and display lines. These lines contain a text box on the left edge of the screen. The cursor cannot be positioned on a line of this type. Data entry lines: ASCII, numeric, and list, with two zones: a text box on the left edge of the screen, and a data entry field on the right edge.
List lines List lines are used to select a value. You do not enter the value directly, but identify it with a keyword selected from a predefined list specific to the MMC. This gives better control over entering values (no errors are possible). The system also manages a list of prohibited values which can be different for each field referring to the same list. When you position the cursor on this type of line, the list element displayed changes to reverse video.
RETURN key: confirm entry In intermediate menus, this key confirms the current screen and opens the next menu. If an error is detected, an error message is displayed. If no error is detected, the following screen is displayed. In terminal menus, this key confirms the field in which the cursor is positioned and moves the cursor to the next field if no error is detected. CURSOR UP and DOWN keys: navigation These two keys are used to move the cursor to the next field or the previous field in a menu.
Esc key: command mode Command B (1 to 4) displayed at the bottom of the screen. This key is used to switch to command mode, which means that the next character will be interpreted as a command and not as an ASCII character. This key is available in all fields, but is only used for the empty element in list data entry fields and ASCII data entry fields. "D" command: delete In numeric data entry or ASCII data entry fields, this key is used to delete the entire field. The display then shows ".
"B" command: begin This key moves the cursor to the first field in the first screen of the menu. It is only available in terminal menus. The cursor is only moved if the value confirmed in the field in which the cursor is positioned is correct. Note: If the cursor is already in the first field, an error message is displayed. "M" command: more This key is used to move the cursor to the next screen in the menu. It is only available in terminal menus.
"T" command: type (display) This command is used to specify the lines to print in a menu. Up to 16 lines can be selected. When this command is activated, the number of lines already selected is displayed. Three options are available: • E : to erase the selection • A : to add a line to the selected lines • D : to reset the selection (= E + A) If a line is selected several times, it is only printed once. The lines are printed in the order in which they appear in the menu.
If the next selection is correct, the new menu is displayed. Where possible, the cursor is positioned in the field where the "next" command was run. "P" command: previous element This command moves the cursor to the previous element in repetitive menus. All the details given above for the "N" command apply to the "P" command. "R" command: repeat This command repeats the value of the field in which the cursor is positioned, in all the following elements that meet the search criteria (if any).
Correspondence between VT100 and Minitel (videotex) commands The table below shows the correspondence between the VT100 and Minitel keys. The commands are the same for both types of terminal..
Keystroke commands for the Minitel screen SOM pour Sommaire COR pour Correction ANN pour Annulation SUI pour Suite R pour REPETER ENV pour Envoi Barre espace pour SP P pour PRECEDENT S pour SUIVANT L pour LISTAGE E pour EFFACER I pour IMPRIMER D pour DEBUT T pour TOURNER C pour CORRIGER F pour FIN Layout of the keystroke command box on the Minitel screen Suivant Précédent Répéter Listage Begin More End Clear Print 34 20/10/2004 PS10270JENAA01
Falco terminal keyboard - VT100 mode PS10270JENAA01 20/10/2004 35
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Chapter 1 - Before you start Only experienced technicians should service the system 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. For the best results with the new M6501L/R IP PBX installation, use this section to help your preparation, before you start installing.
• Minimum clearance You must allow clearance of at least 150 mm (49 ft) above the cabinets and 100 mm (33 ft) below to allow air to circulate. Also check that there is enough room above the ICS to reinsert the retaining screw on the top of the cabinet. • 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.
Space 24 cm 20 cm
Equipment checklist The customer may wish to install existing equipment. To obtain a general idea of the scale of the new installation, you should make a complete inventory: Existing equipment If the customer has equipment to install, draw up a hardware inventory of all the equipment supplied by the customer and note the detailed information required for programming in the Programming Record. For example, the customer may supply a common bell device and an external musical source.
Installing the hardware High leakage currents In the event of a power line fault near telephone lines, service technicians must be aware of the possibility of high leakage currents on metal system surfaces. Leakage currents normally flow safely through the power cord to protective ground. Isolate the telephone network lines before any servicing on the ICS.
Hardware installation procedure The table below summarises the work involved in installing the du M6501L/R IP PBX hardware. The steps in the installation procedure are described below. Installing the hardware 1 Setting the cabinet in place ³ ³ ³ ³ Unpacking the cabinet Remove the M6501L/R IP PBX from its packaging. Installing the cabinet on its support Use the wall mounting bracket to mount the cabinet.
Installing the hardware 5 Power on preparation ³ Grounding Connect the cabinets and distribution frames to the building's ground network.
Setting the cabinet in place This section describes how to set the cabinet in place on its wall mount. This procedure applies to M6501R IP PBX and M6501L IP PBX cabinets, because they are identical. At each stage of the installation, make sure the equipment has not been damaged in any way. If it has, return it to the supplier.
The diagram below shows the unpacking sequence for an M6501L/R IP PBX cabinet: 1 2 3 4 5 6 PS10270JENAA01 20/10/2004 45
Checking the cabinet contents Each M6501L/R IP PBX box contains a cabinet.
To install the cabinet on its wall mount: 1 Remove the cover retaining screw on the top of the cabinet. 2 Remove the cover. Remove the power cord and the OCT4 main distribution cable from the main cabinet. 3 Remove the wall mounting bracket at the back of the cabinet. 4 Use this bracket as a template to mark three drill holes on the wall. 5 Take measurements to identify and mark the position of the fourth screw.
6 Drill the holes. Insert four wall plugs suitable for the type of wall. Phase 1 in the diagram below. 100 mm (3.9 in) 100 mm (3.9 in) 175 mm (6.9 in) 4 mm (5/32 in) 7 Fix the bracket to the wall with three of the screws. Fit the fourth screw, leaving 4 mm (5/32 in) between the screw head and the wall. The fourth screw is used to fix the cabinet in place. Phase 2 in the diagram on the next page. 8 Place the cabinet on its wall mount as shown in phase 3 in the diagram below.
Fastening the cabinet to its support 1 Remove the connectors from the front panel of the power supply module. 2 Unscrew the metal parts designed to steady the power supply module during shipping as shown below. 3 Remove the power supply module from the cabinet and place it on the table. 4 Inside the cabinet, insert the retaining screw and tighten it against the bracket as shown below. 5 Refit the power supply module, using the appropriate screws to fix it in place.
Connecting the M6501L IP PBXcabinets In a two-cabinet configuration, the bus extension cable is used to connect the two cabinets together.
Identifying cards Power to the equipment must be switched off when inserting or removing cards.
Basic cards Card Overview OCT4 Main card. This card can be fitted with two daughter cards: TMOCT4 and VOCT3 One card per M6501L/R IP PBX system. ROCT3B Bus interface card for the expansion cabinet. This card functions as controller/receiver of various signals, adjusts any cable lag and controls the PCM bus. This card has 16 digital lines. It is only fitted in the M6501L IP PBX expansion cabinet. One card per M6501L IP PBX system. TMOCT4 Available in two versions: with or without memory extension.
Analogue network card Card LR4 Overview PSTN card with four trunks (analogue signalling) This card provides a remote set disconnection detection function. The LR4 card must sometimes be fitted with DTOC cards, depending on the specific configuration. Digital network cards Card Overview LT2 This card is used as a PCM digital junction or to provide ISDN PRI access. The PCM digital interface can have 32 channels (time slots) operating at 2 Mbps.
Equipment cards Card Overview LA4, LA8 These cards provide analogue equipment circuits: basic sets, answering machines, and any other type of analogue terminal. Loop resistance: 600 Ohms maximum The LA4 card has 4 lines of this type, and the LA8 has eight. LN4, LN8 These cards are only used for dedicated digital telephones: -48 V, 2-wire, maximum length 1800 m (with a 0.6 mm cross-section wire). The LN4 card has 4 lines of this type, and the LN8 has eight.
Installing basic cards The main card in the M6501L/R IP PBX is the OCT4 card in the main cabinet. It is designed to accommodate daughter cards (TMOCT3 and VOCT3). Installing the basic cards consists in equipping the VOCT3 card with (optional) PROMs and mounting the (optional) daughter cards on the OCT4 card. The OCT4 card also has an internal battery that saves setup data; this battery must be put into service.
Installing daughter cards on the OCT4 card The OCT4 card can be fitted with TMOCT4 and VOCT3 daughter cards. To install daughter cards: 1 Remove the OCT4 card: Disconnect the power cable for the digital equipment circuits on the OCT4 card (J13 connector printed IN M48V). Remove the OCT4 card from the cabinet. 2 Install the PROMs on the VOCT3 card if required, following the instructions given above. 3 Install the daughter cards as shown in the diagram below.
Check the position of the internal battery The internal battery is installed on the OCT4 card and can be used to save the system setup data. The battery switch is set to OFF while the OCT4 card is in storage. Check that when installing it, the switch is set to ON, as shown in the diagram below.
Installing the ISDN cards Installing the ISDN/T2 cards The LT2 card handles a wide range of 2 Mbit frame formats, to suit customers' requirements according to their local PSTN exchange; switch settings are shown in Appendix A.
LD4/LD4N cards The LD4/LD4N cards are installed in the main cabinet in shelf 0 and shelf 1 only in the slots shown in the diagrams below: Main cabinet - Shelf 0 Card 0 LD4/LD4N YES 1 2 NO 3 YES 4 NO 5 YES NO Main cabinet - Shelf 1 Card LD4/LD4N PS10270JENAA01 0 1 2 3 4 5 6 7 YES NO YES NO YES NO NO NO 20/10/2004 59
Installing the tie line cards Installing the analogue TL cards • The switches on LI1 with 2- or 4-wire E&M are: CA1 for equipment 0 on the J2 connector and CA2 for equipment 1 on the J3 connector.
Installing the LAN cards These cards are CLX expansion cards. They can only be fitted in the main cabinet. The position of the PT2 cards in the main cabinet depends on the VOIP4(E) daughter cards, according to the following installation rules: • if a PT2 + VOIP4(E)-16 card is installed, the following types of card cannot be installed in the next slot: LXX (LA8, LN8, LM8, CC1, etc.), LRX (LR4, LI1, etc.
Installing the analogue network cards • These cards can be installed in any slot in shelves 0 or 1 of the main cabinet, except slots 0 and 4 in shelf 1. • The LR4 switch settings are: SW2 for the call charging frequency and SW1 for the carrier line characteristics.
Installing the application cards Installing the application cards • The switches on the CA1 card are used to set either V10 or V28 mode; the switches that need to be configured are SW1, SW2, SW3, and SW4. • You do not need to set any switches on the CP1 card. • The switches on the CS1 card are used to set either V10 or V28 mode; the switches that need to be configured are SW1 and SW2.
Installing the equipment cards There may be lines for digital, analogue, and ISDN extensions, depending on the equipment card installed. Installing the equipment cards • You do not need to set any switches on equipment cards.
Wiring the distribution frame Protection against line overvoltages For a new system, it is advisable to use protection modules to protect against PSTN line overvoltages. These modules are inserted between the PSTN and the system's distribution frame. No dedicated wiring system is required for the M6501L/R IP PBX. Nevertheless, you are recommended to use the Systimax Premises Distribution System.
Connecting the M6501L/R IP PBX to the distribution frame The OCT4 cable is supplied to simplify wiring the cards in the installation's distribution frame. It is a shielded twisted pair telephone cable. Insulation-displacement connectors are fitted to one end of the cable. Each connector has a label indicating the relevant connector on the OCT4 card. 2 1 4 3 Legend: 1- OCT4 cable. 2- Cable passage. 3- Main distribution frame. 4- Connector strips.
4 Install the insulation-displacement connectors: insert the wires to be connected into the guides provided (pin A and pin B). Exert pressure with gripping pliers when inserting the wires (insulation-displacement connections). Guide holes Polarizing slot Pair Pin A Pin B Pair Pres Closed connector, wire inserted Press Open connector insert wires 5 On the distribution frame side: strip the OCT4 cable.
Wiring the local area network (LAN) The PT2 card has an interface for an Ethernet/IEEE 802.3, 10/100 Mbit LAN. It provides a TCP/ IP-X25 gateway, plus IP tunneling and voice over IP functions (provided a VoIP daughter card is installed). A description of the PT2 card is given in Appendix A. The PBX 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.
Wiring the ISDN interface ISDN cards have a T, S or S/T interface at BRI (S0/T0) or PRI capacity (S2/T2). The S/T interface can be configured to supply: • one connection at reference point S to a terminal • one connection at reference point T to the network These cards also handle the packet-mode data transmission service on channel D between the network and a terminal. You need 2 pairs to wire an ISDN interface: 1 transmit pair and 1 receive pair.
Wiring the T0 BRI interface Depending on their switch settings, the LS1 and LD4 and LD4N cards can be used to set up two connections to the T0 and/or S0 reference points. One end of the connection lead must be fitted with an ISO 8877 compliant male RJ45 connector. Note: Before beginning the wiring procedure, check the settings of the switches on the card.
NT NRD0 RD0 NED0 ED0 NRD1 RD1 NED1 ED1 J7 NRD2 RD2 NED2 ED2 NRD3 RD3 NED3 ED3 J8 J8 LD4 card } } 5 4 6 3 equipment 1 equipment 2 RTRT+ ETET+ } equipment 4 Raccordement d’une interface T0 d’une carte LD4 4 J7 1 4 J8 1 4 J9 1 J8 LD4N Card 4 J10 1 NRD0 RD0 NED0 ED0 TNR 5 4 6 3 NRD1 RD1 NED1 ED1 NRD2 RD2 NED2 ED2 RTRT+ ETET+ NRD3 RD3 NED3 ED3 Raccordement d’une interface T0 d’une carte LD4 PS10270JENAA01 20/10/2004 71
Wiring an S0 BRI bus 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 up to four ISDN/S0 (BRI) terminals.
100 100 8 7 6 5 4 3 2 1 RSRS+ ESES+ Raccordement d’une interface S0 d’une carte LD4 + IS - Power supply unit face plate 2 1 J7 1 4 J8 1 4 NRD0 RD0 NED0 ED0 RJ45 connector 8 7 6 5 4 3 2 1 100 Ω 4 100 Ω 40V J9 1 4 J10 LD4N Card 1 Raccordement d’une interface S0 d’une carte LD4N PS10270JENAA01 20/10/2004 73
Wiring analogue trunk lines The LR4 card allows the connection of four analogue trunk lines (TKs). This card handles signalling and the disconnection monitoring function. The release signal (polarity inversion) must be sent by the public exchange; the signal is detected by the LR4 card. If the PSTN does not send this signal, the LR4 card must be fitted with a DTOC 'line busy' detection daughter card for each TK. Note: The basic LR4 card (with no DTOC) has the reference HJ2765BA and with a DTOC, HJ2765FA.
Wiring the LIX cards Tie lines (TLs) are private or leased lines used to inter-link two PBXs. There are two types of tie line: • analogue (2-wire/4-wire), using the LI1 card • digital (PCM or T0 QSIG, T2 QSIG) The LI1 card with the reference HJ3950B can be used to connect two analogue tie lines.
Wiring the LI1 card: Colour 76 Connector Signal BeC C1-1 T01 W C1-2 R01 BeC C1-3 R00 BL C1-8 TB00 BeC C1-4 LRB0 Y C1-5 LRA0 BeC C1-6 LERB0 M C1-7 LERA0 BeC C1-9 TA00 N C1-10 GND BeC C2-1 T11 R C2-2 R11 BeC C2-3 R10 G C2-8 TB10 G C2-4 LRB1 W C2-5 LRA1 G C2-6 LERB1 BL C2-7 LERA1 G C2-9 TA10 Y C2-10 GND Description Equipment on LI1 card "Signalling" pairs Equipment 0 (J2 connector on the LI1 card) "Voice" pairs Ground "Signalling" pairs "Vo
Wiring a 50 Hz 2-wire analogue TL 10 GND GND 10 9 TA 00 TA 10 9 8 4 3 2 1 OFF ON 8 7 LERA 0 LERA 1 7 6 LERB 0 LERB 1 6 5 5 4 4 3 3 2 2 1 4 3 2 1 OFF ON 1 J2 J3 PBX A PBX B Wiring a 2-wire+E&M analogue TL 10 4 3 2 1 OFF ON GND GND 10 9 TA 00 TA 10 9 8 TB 00 TB 10 8 7 LERA 0 LERA 1 7 6 LERB 0 LERB 1 6 5 5 4 4 3 R 00 R 10 2 ON 3 2 1 PS10270JENAA01 4 3 2 1 OFF 1 J2 J3 PBX A PBX B 20/10/2004 77
Wiring a 4-wire +E&M analogue TL 4 3 2 1 OFF ON 10 GND GND 10 9 TA 00 TA 10 9 8 TB 00 TB 10 8 7 LERA 0 LERA 1 7 6 LERB 0 LERB 1 6 5 LRA 0 LRA 1 5 4 LRB 0 LRB 1 4 3 R 00 R 10 3 2 2 1 1 J2 J3 PBX A PBX B 4 3 2 1 OFF ON Wiring a 4-wire+2 E&M analogue TL 4 3 2 1 OFF ON 78 10 GND GND 10 9 TA 00 TA 10 9 8 TB 00 TB 10 8 7 LERA 0 LERA 1 7 6 LERB 0 LERB 1 6 5 LRA 0 LRA 1 5 4 LRB 0 LRB 1 4 3 R 00 R 10 3 2 R 01 R 11 2 1 T 01 T 11 1 J2
Connecting digital sets Digital sets can be connected, via the distribution frame, to the following cards: Cards Connectors Nb of lines LN4 J2 and J3 4 LN8 J2, J3, J4, and J5 8 LM4 J4 2 LM8 J4 and J5 4 OCT4 (CPU card) J12 and J20 4 ROCT3B J4 to J11 16 Constraints with digital sets: • Cable length: 0.4 mm wire: approximately 1 km 0.6 mm wire: approximately 1.8 km Note: You are recommended to use shielded cables.
The table below shows the main characteristics of M7xx range sets: M720 M730 M740/M740E M760/M760E M780 YES YES YES YES 20 YES YES 20 YES YES 100 YES YES 200 Amplifier YES YES YES YES YES Ring volume YES YES YES YES YES Tune setting 8 16 Mute Redial Private internal directory 16 16 16 Intercom YES YES YES Full duplex hands free YES YES YES YES YES 2x40 24x40 5 5 virtual Extension module socket (20 keys) 1x16 Display unit (LCD) 1x16 Interactive keys Program keys
Installing an external mains unit A mains unit can be added to the M520 and M640 sets to relieve the PBX from excessive consumption (more than 10 LEDs in frequent use). Note: This mains unit should be supplied from a single-phase, 230 V AC network, excluding IT diagram units defined in standard NF EN 60.950. If the M520 or M640 sets are expanded using an M600 module, the mains unit is connected to the M600. In all cases, the mains unit is connected via an RJ 45 (8-pin) connector.
Installing an M700 expansion module The M700 expansion module provides M760, M780, i760 and i780 telephone sets with an additional 20 programmable keys with no backlighting. One or two M700 modules can be added to M760, M760E and i760 sets, and up to three modules to M780 and i780 sets. The procedure for installing an M700 expansion module is given in the M7xx digital set and i7xx IP set Installation Manual- ref PS9286BAA01.
Connecting an LF connector An audio connection is available on M420E, M520, M640, M760 and M780 sets. The stereo jack supplies one input and one output, which can be connected by an appropriate cable to a sound card on the PC. An analogue options card is required for M760 and M780 sets. Connecting a Minitel Minitels can be connected to M420E, M520, M640, M760 and M780 sets. A special lead (HK6637) is required for M420E, M520, and M640 sets. An analogue options card is required for M760 and M780 sets.
Connecting analogue terminals The M6501L/R IP PBX has analogue trunk lines that are designed to be compatible with various types of equipment such as telephones, group 3 fax machines, modems, answering machines, and voice mail systems.
Connecting IP sets IP sets (Internet Telephone i2004, i740, i760, i780) are connected to a LAN hub or switch with a standard Ethernet cable. The IP set must be connected to a 10/100 Base Ethernet connector. The M6501L/R IP PBX must be fitted with a PT2 card connected to the Ethernet LAN. In the case of anInternet Telephone i2004, a PC fitted with Terminal Proxy (application part of NeXspan Communication Server) must be connected to the Ethernet network.
Connecting EDP terminals The CA1 and CS1 cards are used to connect EDP terminals (DTE or DCE) in V24/V10 mode: • The CA1 card provides four asynchronous terminal connections at a maximum speed of 19200 bit/s. XON/XOFF flow control is used. Note: The V24/V10 interface is compatible with V24/V28 (RS232C) equipment. • The CS1 card provides two synchronous SNA/SDLC connections at up 19,200 Kbit/s and SNA/X25 connections at up to 64 Kbit/s.
Wiring an asynchronous serial link The shielded serial link cable with the reference HG2829A is used to connect asynchronous data terminals to the CA1 card in V24/V10 mode. The following tables give a list of the circuits in the V24 junction on the CA1 card.
Wiring a synchronous serial link The shielded serial link cable with the reference HG2830A 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.
Connecting miscellaneous equipment Connecting the programming console The programming console is used to interface with the M6501L/R IP PBX for programming, displaying, and printing site configuration data (when a printer is connected to the programming console). It can be a VT100 console or a PC (with VT100 emulation). The programming console can be connected to the system either directly or remotely.
Connecting a erial printer The serial printer is used to print out records as the system issues them. The service printer is connected via the distribution frame to the pins on the J2 connector of the OCT4 card using a two-pair cable: A B Note: The TXD printer connection is not necessary for the printer to operate properly.
To install an external music source: 1 Connect the music source output via the distribution frame to the J2 connector on the OCT4 card as shown in the figure below. Music-on-hold A B MUSA (A2) GND (B2) ETM (A1) GND (B1) LF input Monitoring device for correct operation of external music source (view of loop) 2 The music volume can be adjusted via an MMC. You can use programming menu 5.
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) of an LD4/LD4N card, and uses two pairs: 1 transmit pair and 1 receive pair. , Refer to the "Integrated DECT service" installation manual for more information. Note: if there are a DECT base station and an S0 terminal (other than the base station) on the same card, the base station must be powered with a 40 V supply.
SYNCHRO J7 J8 LD4N card Idem J9 J10 Connecting DECT base stations to an LD4N card (synchronisation signal by third pair) S0 interface link (LD4N car) with DECT base station: PS10270JENAA01 4-pin STOCKO connector RJ45 connector Pin 4 (NRD0) Pin 6 Pin 3 (RD0) Pin 3 Pin 2 (NED0) Pin 5 Pin 1 (ED0) Pin 4 20/10/2004 93
Steps prior to power on Grounding the ICS The system must be correctly grounded in order to ensure user safety and protect against lightning and voltage drops, and also to prevent service interruptions. To ground the M6501L/R IP PBX: • connect one end of the power cord to the power supply module and the other end to a grounded mains outlet. Power to the ICS must be switched off when you fit the power cord Always isolate trunk lines before unplugging the mains power cord.
Fitting the cabinet cover Fire and electric shock Before replacing the cabinet cover, check that you have not left any metal objects such as tools, screws, or clips inside. When all the cards have been installed and wired to the distribution frame, replace the cabinet cover(s). Installing backup batteries • The M6501L IP PBX must be backed up by an external 48 V battery supplied by the customer. • The M6501R IP PBX is supplied with an internal battery installed in the cabinet.
Removing the internal battery 1 Put the battery out of service: press the red switch on the battery on/off circuit breaker on the left side of the power supply module. 2 Disconnect the battery cable from the backed-up power supply module's connector. 3 Remove the cabinet cover. 4 Remove the battery and its mount from the cabinet.
System setup When you have installed the hardware, you can turn on the system. This triggers initial start-up, at which point the system software is loaded, the start-up tests are run, the application program is loaded and the default configuration is initialised. At the end of this phase, the splash screen appears on the programming console. The first time the hardware is installed, you must reset the system before you start programming.
Power on the system Risk of fire and electrical shock To protect against risk of fire and electrical shock: - make sure there are no screws, tools, or any metallic items inside the racks - make sure the system is connected to a socket with an earthing conductor - never open the cover before you have turned off the system Before switching on the power, check that: 98 • air flows freely all around the cabinet(s) and there are no objects lying on the cabinet, there must be sufficient clearance between the
On/off switch Fuse holder (2 T 3, 15 H fuses) Mains connector 48 V external battery connector To power up the M6501R IP PBX: 1 Press the black button to the left of the power supply module. Yellow and green LEDs light up on the front panel of the power supply module. To power up the M6501L IP PBX: 1 Power up the expansion cabinet (if one is fitted). Press the black button to the left of the power supply module. Yellow and green LEDs light up on the front panel of the power supply module.
Performing a total reset A total reset clears all data from existing programming. A total reset erases any existing programmed data, and the system configures itself automatically to the installed equipment. A total reset should only be performed when instructed, for example if installing new software. You must perform a "total" reset the first time the equipment is put in service. Comments: • To perform a "total" reset, you need the "installer" password.
System resetting was successful and the system runs normally when the telephones display: Monday 01 January 12:00 am. Your system is now in service with default settings. Make an internal call to confirm telephone operation. If you are using ISDN T0 (BRI) trunks, make an external call, for example to the speaking clock, to confirm outgoing calls. If PT2, PSTN or ISDN/T2 (PRI) cards are used, some additional programming steps are required to put the lines into service and route outgoing calls.
Viewing the system ID The system identification number, or ID, is given on a label on the left panel of the main cabinet and on the OCT4 main card. It is also stored in the removable i-Button software dongle. Record the system identification code in the Programming Record. It will be useful if you need to restore an upgraded system after a system restart. The system ID can be viewed at any time during a programming session by following these steps: 1 Go to menu 3.8.1 (Unlock SA functions).
Display external trunk status Description For viewing the status of equipped external lines to make sure they are available. You can view the status by selecting a specific status and/or trunk group and/or from an equipment number. Menu 4.6.2 STATUS OF EXTERNAL TRUNKS Comments The display shows: STATUS SEARCHED: allows viewing based on one of the following statuses: Any, Free, Busy, Perm. off-hook cond., Free incoming, Out of srv, Locking, Alarm, Free locking, Free call back, On service waiting.
Programming steps 1 Go to menu 4.6.2. (External line status); the screen SELECTION OF A STATUS TO MONITOR appears. 2 On the line STATUS SEARCHED, you can select a status. 3 On the line ON TRUNK GROUP, you can select a trunk group. 4 On the line FIRST PHYSICAL EQUIPMENT, select an equipment number (if applicable). The external trunk lines on the trunk group are displayed starting with the first position indicated. 5 Press Enter.
Displaying extension numbers and locations Description For viewing pre-set extension numbers. Menu 1.1.6.1 DISPLAY BY EQUIPMENT NUMBER Comments To access this screen, enter an equipment number on the line FIRST EQUIPMENT NUMBER. This option shows: EQT NO.: telephone equipment number TYPE: type of telephone connected DN: directory number DID:direct inward dialling number for the extension NAME: user name 1.1.6.2 DISPLAY BY INTERNAL DIRECTORY NUMBER This option shows: DN: directory number EQT NO.
Menu 1.1.6.6 DISPLAY INTERCOM GROUPS Comments To access this screen, on the line GROUP SELECTION, enter the number of the intercom group to be displayed and press Enter. The system displays a list of all the directory numbers that belong to the group. This option shows: DN: the extension directory number NAME: the extension user name COMPANY: name of the user home company (for multi-company configuration) DEPT: name of the company department (for multicompany configuration). 1.1.6.
View extension status Description The system displays the status of telephone sets after a "total" reinitialisation on the basis of two criteria: the set status (see the list of statuses in the table below) and/or a directory number.. Status Comments ANY list of all phones in all statuses FREE list of all phones in service and free PERMNT. list of all sets with a call set up BUSY.UNSTABLE list of all phones dialling PERM.
View IP subscriber status Description The system displays all IP sets declared on the site on the basis of several criteria (set type, status of set's application session, directory number Type of set Comments IP DS IP circuit: digital set with IP cartridge (i760, i780) and i740 (IP native set) TD PC IP circuit: Software phone application on PC ETHERSET IP circuit: Internet telephone Programming steps 1 Go to menu 4.6.1.2 (IP subscribers status). The screen APPLICATION SELECTION appears.
Chapter 2 - Expanding the installation System backup Save the customer's configuration before and after expanding the installation. You can increase the installation's capacities by adding equipment to the M6501L/R IP PBX. The following components can be added to an existing configuration: • extra cards • an expansion shelf • a second cabinet • links and terminals The configuration data needs to be changed if the system is expanded.
Basic configuration Configuration equipment Expansion type Main cabinet with expansion cabinet Main cabinet with expansion cabinet and shelf M6501R IP PBX M6501L IP PBX Main cabinet with expansion shelf MAIN CABINET YES YES YES YES YES - OCT4 card YES YES N/A N/A YES - ROCT3B card N/A N/A YES N/A YES - TMOCT4 card N/A N/A N/A N/A N/A - AC/DC supply specific M6501R IP PBX specific M6501L IP PBX specific M6501L IP PBX specific M6501L IP PBX specific M6501L IP PBX - shelf 0
Activating the ADS300 power supply module and OCT4 CPU card The M6501 L/R IP PBX installed in release R2.1 includes a new item: • a new OCT4 CPU card, which replaces the OCT3B card. The following two procedures describe how to install and put in service the ADS300 and OCT4. Note: Part 1 of this manual contains full CPU card installation and cabling details. Appendix A sets out the characteristics of the ADS300 and OCT4.
Installing and putting in service the OCT4 card The purpose of this operation is to replace the standard OCT3B card with the standard OCT4 card. The OCT4 card is managed in release R2.1 (V14.2) and later. Power off Ensure that power to the system is switched off at all times while the cabinet cover is open. Steps 1 Before changing the cards, save the customer's data configuration. 2 Power off the M6501L/R IP PBX. 3 Remove the cover on the main cabinet.
Adding a card The M6501L/R IP PBX can be fitted with one or more expansion cards to extend the system capacity. All types of card (called optional cards) can be installed in the ICS, depending on the existing configuration: • analogue network cards • digital network cards • ISDN T2 (PRI) and/or T0 (BRI) network cards • application cards • equipment cards Note: Part 1 of this manual contains full card installation and cabling details.
6 Connect the line or extension to the distribution frame. 7 Power on the M6501L/R IP PBX. 8 Put the card in service : Go to menu 3.2 (Card management). On the line corresponding to the card slot, select the appropriate parameter. 9 On the line STATUS, select IN SERVICE. Press Enter to confirm. Wait a few seconds.
Description of the ICS equipment The table below describes the cards declared in menu 3.2 (card management). Parameter name Card Device on card 4 DIG. ANAL. LA4 4 analogue terminals 4 DIG. EXT. LN4 4 digital terminals 8 DIG. ANAL. LA8 8 analogue terminals 8 DIG. BOTHWAY LM8 4 analogue extensions, 4 digital extensions 8 DIG. EXT. LN8 8 digital terminals 4 ANAL.
Expanding the M6501R IP PBX Power off Power off the system before opening the cabinet. Adding an expansion shelf Textual specification Add an expansion shelf, providing up to eight additional card slots. Comments • The internal battery must be replaced with an external battery if a shelf is added to an M6501R IP PBX cabinet. Steps 1 Back up the site configuration. 2 Power off power the system (battery + mains). Remove the front cover of the cabinet. 3 Remove the internal battery retaining screw.
4 Disconnect the internal battery and remove it from the cabinet. 5 Install the expansion shelf. Secure the shelf in place with the screws provided. J1 J1 1 4 1 1 J5 4 1 J5 4 J4 4 J4 1 4 1 1 J3 4 1 J3 4 J2 4 J2 6 Insert the cards in the new shelf and connect them as required. 7 Close the front cover of the cabinet. 8 Power on the system. 9 Perform a full system reset to declare all the new cards and put them in service. 10 Restore the saved configuration and program the new components.
Upgrading from an M6501R IP PBX to an M6501L IP PBX Power off Power off the system before opening the cabinet. Textual specification The aim of this procedure is to describe how to upgrade from an M6501R IP PBX to an M6501L IP PBX. This operation is necessary if an expansion cabinet is to be fitted to an M6501R IP PBX.
Expanding the M6501L IP PBX The M6501L IP PBX can be expanded by : • • • adding an expansion shelf (shelf 1) in the main cabinet adding an expansion cabinet (including shelf 2) adding an expansion shelf (shelf 3) in the expansion cabinet Adding an expansion shelf Power off Power off the system before opening the cabinet. Textual specification Add an expansion shelf, providing up to eight additional card slots. You can fit an additional shelf in the main or expansion cabinet.
Adding an expansion cabinet Power off Power off the system before connecting the two cabinets. The expansion cabinet is supplied with a bus extension cable, an uninterruptible electric power supply module and an ROCT3B bus expansion card. ☞ Refer to Part 1 of this manual for full cabinet and card installation details. Steps 1 Unpack the expansion cabinet and secure it to the wall, 20 to 30 cm (8 to 12 inches) from the main cabinet. 2 Install the backup battery in the expansion cabinet.
Additional data link A data link requires an unused circuit card. If necessary, install and connect a new circuit card. The table below shows the circuit cards that can be used to connect data terminals and set up data links.: Circuit card Data interface CA1 4 asynchronous V24 interfaces CS1 2 asynchronous X25 interfaces Connecting the data link Configure the card as specified in Appendix A.
Additional trunk lines When the capacity of the ICS is increased, traffic from the new extensions may saturate the existing trunk lines. To avoid this, you can install additional trunk lines. Perform the following tasks to add a new trunk line: • connect a trunk line • declare the network junctor Connecting a trunk line Adding a new trunk line requires an unused circuit card. If necessary, install and connect a new circuit card. The table below gives details of the trunk line circuit cards.
Assigning a trunk line to an existing trunk group A trunk line must be associated with a trunk group of the same type; this can be an existing group or a new one can be created. Note: You cannot associate a trunk line with a trunk group of a different type. 1 Go to menu 1.2.3 (Line characteristics) and select the location of the network card. 2 On the line TRUNK GROUP, select the existing trunk group. Press Enter. Note: An ISDN T0 (BRI) trunk line has two B channels.
Additional sets Adding a new extension requires an unused circuit card. If necessary, install and connect a new circuit card. The table below gives details of the circuit cards for digital and analogue.
Upgrading the software IMPORTANT Downloads must be performed when there is no traffic. While upgrading the software, all internal and outgoing calls are suspended throughout the procedure. Expanding the hardware increases the capacity of the system, whereas software upgrades add new functions to the configuration and/or allow the latest cards to be used by the ICS. The ICS software is initially loaded and tested at the factory. It is then upgraded when necessary.
Upgrading the ICS software Textual specification This procedure involves loading new software versions onto the ICS. The ICS software is made up of two parts: • the System software which initialises and configures the processor card • the Application software which contains the ICS functions (configuration programs and installation parameters) Considerations • The ICS software is upgraded using "DOS tools". Note: The minimum version of DOS tools for R2.1 is 11AT.
• Type MENU and validate by pressing Enter. The window PC TOOLS SELECTION appears. • In the PC TOOLS SELECTION window, select the line VUS INSTALLATION ON PC • Validate the selection by pressing Enter. Note: The name of the screen changes to: INSTALLING THE VUS ON THE HARD DISK. • Insert the Chaining diskette into drive A and press Enter twice. 5 The proposed installation directory is C :\vu_F1. If this directory is suitable, press Enter to confirm the creation of this directory.
• If the software is supplied on diskette, select the directory C:\VU_F1\Chaining diskette reference and press RETURN to confirm. • If the software is supplied on CD-ROM, enter the full directory access path on the CDROM: *.nRP (where n = 1, 2, 3, ... according to the number of software productions for each step) and press RETURN to confirm. • Indicate the path for the customer configuration file (initial configuration which must be on the hard disk) and its name.
Chapter 3 - Maintenance and troubleshooting This part describes the maintenance service features of the M6501L/R IP PBX and the procedures for troubleshooting faults. This part is divided into two: • Maintenance This section provides a general description and explains the operating procedure for maintenance service features. • Troubleshooting This section describes the precautions to be taken before carrying out hardware maintenance and includes flowcharts on troubleshooting procedures.
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Maintenance service features This chapter provides a general description and describes the operating procedure of the maintenance service features. The features described in this chapter are shown below. • Fault messages • Logical security blocks • Configuring maintenance services Fault messages Messages appear in the logbook (menu 4.4 - Logbook display). They inform the operator that the maintenance software has detected an event to be monitored.
Description of a fault record There are four types of errors that generate a fault report: • software errors detected by a software module • software errors detected by the operating system • errors detected in a file in a hard disk RAM directory • hardware errors detected on a card or a peripheral terminal Each of these types of errors produces a different format of error. These formats are described in the following sections.
• Errors detected in a file These errors are generated by programs that handle files located in hard disk RAM directories: *ERR 020D*PCS 0*LC 50454*PCD 000*IND 01 02 0E 02 00 00 00 00 00 35 72 ... 30 32 35 36 41 42 30 36 30 32 ... ..../UTD/DATA/ML/VQ50256AAB0602 The fault record recorded in the logbook contains: ERR Error number. See Appendix C for the meaning of each number. PCS Processor number. 0 indicates the OCX card. LC Identification number of the program that detected the fault.
Logical security blocks (LSB) Automatic maintenance sees the configuration as a set of hierarchically arranged logical security blocks (LSB).
Description of security block number Type of LSB CPU MCS IA1 JA1 LR1, LR2 JR1 SGX AUX CONF LA1, LA2 LN1, LN2 LM1, LM2 PTx, LPTx JPTx SUBSCRIBER SUB/NUM LS1-A LS1-B LS1-C ACC/T0 or DECT BS (base station) ACC/T0 LS2_T2 ACC/S2 ACC/T2 LB4 BS (Base station) LT2_T1 LT2_RTC MIC_LT2_T1 MIC_LT2_RTC JRN_LT2_T1 JRN_LT2_RTC PS10270JENAA01 (Rank) number of LSB 0 0 0
Description of LSB statuses When an error is detected, automatic maintenance can take fail safe action. The action consists in changing the security block status. The statuses have the following meaning: • NOT EQUIP. LSB not equipped in associated configuration table. • OUT OF SRV LSB does not participate in normal operation because it cannot be accessed by software. This occurs, for example, when the LSB one step up in the hierarchy is faulty.
Troubleshooting The outline of the recommended troubleshooting procedure is: Begin Fault detection Fault detection method: • alarm indication • lamp indication on circuit cards • complaint from station user or attendant Fault diagnosis and troubleshooting method: Fault diagnosis and troubleshooting Fin • display on operating console • • • fault message extension line status display external line status display • lamp indication on circuit cards • nature of complaint from extension user or
Fault diagnosis and troubleshooting Troubleshooting by fault records When the alarm has been indicated, maintenance personnel can diagnose the nature of the fault by the fault message and status display features which are displayed on the operating console, and restore the fault. Troubleshooting by lamp indication on circuit cards will be described in the next version.
Problems with telephones At calling station: START Dial tone cannot be heard Check (1) On the MDF, connect a test telephone set to the faulty station line. (2) If dial tone can be heard, check the cabling and telephone set. (3) If no dial tone, check the wiring on the MDF and line circuit card. Replace (1) Line circuit card. (2) Telephone set. After dialling the first digit, dial tone is still audible. At DTMF telephone set. Check Replace (1) User characteristics (menu 1.1.1). . (1) DTMF receiver.
At called station: START The telephone does not ring at the called station. Check (1) "On" lamp on the PWR supply unit is on. (2) Volume control of the telephone set. Replace (1) Line circuit card. (2) Telephone set (3) PWR SUPPLY UNIT (if all the sets in the same cabinet fail). The call is routed to a station other than the called number. (1) Call ForwardingCheck All Calls feature is activated a . destination station. Ringing signal is not disconnected after going off-hook.
Replacing the fuses Textual specification Two T 3.15, 15 H fuses are integrated in the M6501L/R IP PBX ADS300 power supply module, to protect the equipment when power surges occur. After finding the cause of the power surge, use the following procedure to change the fuses in the ICS. Steps 1 Power off the PBX. Unplug the power cord and external battery connector from the ADS 300. 2 On the ADS 300, remove the cover of the fuse holder located between the on/off switch and the mains power connector.
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Appendix A: Description of cards Architecture of the M6501L IP PBX cabinets 0 P O W E R 1 2 Main Cabinet 3 This cabinet is equipped with a basic shelf (shelf 0), containing six card slots numbered 0 to 5. S U P P L Y 4 SHELF 1 5 6 An optional shelf (shelf 1) can be added to provide eight slots numbered 0 to 7. 7 O The M6501R IP PBX only has shelf 0.
Correspondence between slots and MMCs The address of a device on a card comprises two physical addresses and a logical address. The first address is the number of the shelf in which the card is fitted. The second address is the number of the slot in which the card is fitted. The third address is given by the MMC which assigns an equipment number.
Card locations Main cabinet The following tables show the positions of the various cards of the M6501L IP PBX in the shelves of the main cabinet.
Expansion cabinet The following tables show the positions of the M6501L IP PBX various cards in the shelves in the expansion cabinet.
ADS300 power supply module (HR5981D) The ADS300 is an AC/DC power supply module designed to replace the ADS200.
The table below gives the main characteristics of the ADS300: ADS300 Mains power voltage Power 148 230 V (+/- 10%) 50-60 Hz 300 W ADS300 Converter -48 V +5 V -5 V +12 V -12 V 40 V remote power supply (insulated to 3 kV) 25-50 Hz alarm External backup battery 20/10/2004 4,5 A 9A 0,8 A 0,5 A 0,3 A 0,7 A 0,15 A (symmetrical current) 48 V PS10270JENAA01
Description of the connectors on the front panel of the ADS300 Description of the LEDs on the front panel of the ADS300 PS10270JENAA01 20/10/2004 149
Description of the ADS300 connections The diagram below shows how to connect an external battery to the ADS300. To this end, a factory-pre-wired cord is supplied with the ADS300.
8 1 8 1 OCT4 (HJ4444A) PS10270JENAA01 20/10/2004 151
Description of the card The OCT4 card is the central unit of the M6501L/R IP PBX and is managed in release R2.1 (V14.2) and later. The OCT4 card requires a PTGBUS card (HJ4238AB02) to be installed. This card controls priority on the system bus and is pre-installed at the factory on the cabinet backplane.
NAME Function J4 Description of the contacts Position of the TMOCT4 card. J5 Location of the VOCT3 card. 21 40 1 20 J9 Vue côté pins 1 9 16 9 10 11 12 13 14 15 16 8 Alarm input connections and dry relay contact locations. (see the description of the J9 connector) Used to connect a VT100 console or PC emulating a VT100. pin 1: TXD2 pin 2: RXD2 pin 3: GND pin 4: not connected Used to connect four digital sets (2 sets per connector).
J3 connector DECT primary synchronisation port. Contact Textual specification Contact Textual specification 1 AHGA Clock out of range alarm 5 HDECT1+ 2 AHGB not used 6 HDECT1- 3 HBIT1+ 2.048MHz bit clock 7 HEXTA 4 HBIT1- 8 HEXTB DECT synchro not used J6 connector DECT secondary synchronisation port. Contact Textual specification Contact Textual specification 1 AHGA Clock out of range alarm 5 HDECT2+ 2 AHGB not used 6 HDECT2- 3 HBIT2+ 2.
Description of the relays The following diagrams show the relays R1, R2, R3, and R4 on the OCT4 card. R1: Switching relay R1 R2: Impaired operation alarm relay B7 : R1B R2 A3 : R2C B6 : R2B A6 : R2A A7 : R1A B8 : +12V +12V B8 : GND R3: Restricted service relay used when connecting a common bell R3 B5 : R3B A5 : R3A R4: Watchdog alarm relay R4 B4 : R4B A4 : R4A SW1: RESET, manual initialisation. SW2: NMI, reserved for factory tests.
Description of lights Light Function VM On steady VO2 On steady VUC Flashes if the card is functioning correctly SYNC Flashes while receiving a clock signal from the network Description of PTGBUS card switches Switch PTGBUS OFF Position 1 OFF 2 OFF 1 156 20/10/2004 PS10270JENAA01
ROCT3B (HJ3990C) 4 J4 1 4 J2 J5 1 4 1 4 J7 1 4 J8 1 4 J9 1 4 J10 1 4 J11 1 2 J3 1 ON 1 2 CA1 8 7 6 5 4 3 2 1 J1 J12 8 7 6 5 4 3 2 1 J13 Description of the card This card is only fitted in the expansion cabinet; it enables the connection of up to 16 digital sets.
Description of the connectors NAME Function J4 to J11 Connecting digital sets J4: pins 4 and 3: eqpt num. 0 J4: pins 2 and 1: eqpt num. 1 To J11: pins 4 and 3: eqpt num. 14 J11: pins 2 and 1: eqpt num. 15 48 V power supply connection for digital equipment pin 2: (+) 48 V pin 1: (-) 48 V 4 1 J3 2 Description of the contacts 1 Description of the switches CA1: this switch sets the call charging frequency to 12kHz or 16 kHz.
TMOCT4 (HJ4459 A or B) Description of the card The TMOCT4 card is an optional daughter card of the OCT4 card. There are two versions: • version A: memory expansion (8 Mb of Flash memory) and additional signal processor (TMS 320LC206), identical to the signal processor fitted on the OCT4 card. • version B: additional signal processor (TMS 320LC206), identical to the signal processor fitted on the OCT4 card. This card replaces the MOCT3 and TOCT3 cards fitted on the OCT3B card.
VOCT3 (HJ4043A) J1 J2 Description of the card This card enables the addition of a PROM containing stored music-on-hold and a PROM with eight spoken announcements each lasting eight seconds. A RAM chip can also be used to record a 64-second customised message. Description of the connectors J2: female jack used to connect a microphone and record a message to RAM. Description of the switches There are no switches on this card. Description of lights There are no lights on this card.
Description of the PROMs The PROMs contain: • music-on-hold by Vivaldi • eight spoken announcements each lasting eight seconds These eight announcements are: Message 1, Message left: A message has been left for you, please check your mailbox. Message 2, Congestion: Due to overflow we cannot connect your call Message 3, Operation accepted: Your request is registered. You can hang up. Message 4, Wake-up: You are called back as requested. Have a nice day.
PT2 (HJ4243A) J1 J4 CA1 J7 ON PROG FLASH J6 J5 J3 J2 SW2 SW1 NRA RUN RX TX LINK COL 162 20/10/2004 PS10270JENAA01
Description of the card The PT2 card is a CLX expansion card. It uses an ASPEN microcontroller operating at 133 MHz. The PT2 card provides three functions: • a gateway function between an Ethernet LAN and the X.25 switch in the PBX (TCP/IP-X25) • the tunnelling function, allowing the PBX to use an IP network to carry the MC6500 IP PBX signalling channel and X.
Description of the connectors NAME Function J2 Description of the contacts RJ45 connector: Connection to the IEEE 802.3 LAN 1- TPTX+ 2- TPTX3- TPRX+ 4- NC. 5- NC. 6- TPRX7- NC. 8- NC. HE14 2X5 pin connector. Used to connect a VT100 console or PC (debug). Not used J4 HE14 1x8 pin connector. "In situ" programmable component loading. Not used J5 HE14 2 x 6-pin connector. Used to connect a JTAG emulator. Not used 2x40 pin and 2x20 pin connectors. Location of the VOIP4 or VOIP4E daughter card.
Description of lights The six LEDs described in the table below show the operating status of the PT2 card: NAM E Color Status COL Green On Ethernet collision LINK Green On Link to the Ethernet switch TX Green On Transmission to LAN RX Green On Reception from LAN RUN Green Function Card loading flashing slowly During loading flashing quickly Busy NRA PS10270JENAA01 red On Fault warning 20/10/2004 165
VOIP4/VOIP4E There are six different PT2 daughter card variants: VOIP4 8-channel, 16-channel, and 32channel and VOIP4E 8-channel, 16-channel, and 32-channel. The VOIP4E card is an upgraded VOIP4 card, with improved echo cancellation management.
VOIP4-32 (HJ4256D VOIP4E-32 (HJ4449A) ) Description of the card The VOIP4/VOIP4E card is used to manage voice over IP circuits. This card uses the J6 and J7 connectors on the PT2 card.
1 4 1 1 2 1 6 4 BTX (HJ4190A) Description of the card The BTX card is a 4000 record call charging buffer card. This card is described in a separate document supplied with the card. Please refer to the instructions supplied with the card for more information.
CA1 (HJ2678A) J1 3 2 1 SW1 3 2 1 SW2 3 2 1 SW3 3 2 1 SW4 1 6 1 6 AB AB AB AB CR2 CR1 1 6 1 6 J2 J3 J4 J5 Description of the card This card enables four V24 asynchronous terminals to be connected in V28 or V10 mode.
Description of the connectors NAME Description of the contacts Function J2 1 2 3 4 5 AB AB Used to connect equipment 0 AB Used to connect equipment 1 1 2 3 4 5 J3 1 2 3 4 5 AB 1 2 3 4 5 See connectors J2, J3, J4, and J5 J4 1 2 3 4 5 AB AB Used to connect equipment 2 AB Used to connect equipment 3 1 2 3 4 5 J5 1 2 3 4 5 AB 1 2 3 4 5 Connectors J2, J3, J4, and J5: the contacts on these connectors are described in the table below: Contact 170 Function Contact Function A1 TD (trans
Description of the switches Switches SW1, SW2, SW3, and SW4 are used to set V10 or V28 mode.
DCE (Data circuit terminal equipment): Identification DCE Direction Transmission Circuit number CCITT EIA 9 pins 25 pins 104 RD RD 2 3 <--- A1 received data 103 ED ST/TD 3 2 ---> A2 transmitted data 109 DS/DP CD 1 8 <--- B4 data terminal input 105 DPE RTS 7 4 ---> B3flow control output 102 TS GND 5 7 ---> A5 0 V return for junction output Description of the CA1 card connector B1 not wired B2 not wired 106 PAE CTS 8 5 <--- A4 flow control input 108 TDP DTR
CC1 (HJ4069D) J1 J3 1 8 ON J4 J2 J5 Description of the card The CC1 card can be used to record, play, and manage synchronised messages. It is used to manage 64 different spoken announcements, each lasting between 1 second and 16 minutes.
Description of the connectors NAME Function J2 Connection to the PC parallel port J3 Not fitted J4 Not fitted J5 Tape recorder connection Description of the switches There are no switches on this card.
CHP1 (HJ3636B) J1 1 5 AB J3 J2 Description of the card This card is a tool card used to load software and enable a PC parallel port connection.
Description of the connectors NAME J2 Function Connection to the PC parallel port J3 Reserved for factory testing 5 4 3 2 1 AB Description of the switches There are no switches on this card.
CP1 (HJ2706A) J1 1 2 3 SW1 1 6 AB CR1 CR2 J2 Description of the card This card enables data to be sent in packet mode on the B channel in an ISDN link.
Description of the connectors J2: connector reserved for factory testing. This card has no external connections. Description of the switches SW1: jumper switch reserved for factory testing. The default position is 1-2. SW2: this jumper switch selects V10 mode (position 1-2) or V28 (pos. 2-3).
CS1 (HJ2696A) J1 3 2 1 SW1 3 2 1 SW2 1 6 AB AB CR2 CR1 1 6 J2 J3 Description of the card This card enables two X.25 synchronous interfaces to be connected in V28 or V10 mode.
Description of the connectors NAME Description of the contacts Function J2 Used to connect equipment 0 AB 1 AB 6 1 2 3 4 5 6 See J2 and J3 connectors J3 Used to connect equipment 1 AB 1 AB 6 1 2 3 4 5 6 J2 and J3 connectors: the contacts on these connectors are described in the table below.
List of circuits for the X.
LA4 (HJ2843A) J1 4 1 4 1 J2 J3 Description of the card The LA4 card enables the connection of four Z interface analogue terminals, such as decadic or DTMF sets, answering machines, group 3 fax machines, etc.
Description of the connectors NAME J2 4 Function Description of the contacts connector for connecting two analogue sets pins 4 and 3: analogue set 0 pins 2 and 1: analogue set 1 connector for connecting two analogue sets pins 4 and 3: analogue set 2 pins 2 and 1: analogue set 3 1 J3 4 1 Description of the switches There are no switches on this card. Description of lights There are no lights on this card. Line characteristics Line resistance, including set: 500 Ohms • 0.
LA8 (HJ2763B) J1 4 1 4 1 4 1 4 1 J2 J3 J4 J5 Description of the card The LA8 card enables the connection of eight interface Z analogue terminals, such as decadic or DTMF sets, answering machines, group 3 fax machines, etc.
Description of the connectors NAME J2 4 Function Description of the contacts used to connect two analogue sets pins 4 and 3: analogue set 0 pins 2 and 1: analogue set 1 used to connect two analogue sets pins 4 and 3: analogue set 2 pins 2 and 1: analogue set 3 used to connect two analogue sets pins 4 and 3: analogue set 4 pins 2 and 1: analogue set 5 used to connect two analogue sets pins 4 and 3: analogue set 6 pins 2 and 1: analogue set 7 1 J3 4 1 J4 4 1 J5 4 1 Description of the switche
LD4 (HJ4054A) J1 J4 J9 SW1 1 SW8 ON CA1_1 ON CA1_1 ON CA1_1 1 M40V SW7 M48V ADAPT ADAPT ADAPT ON CA1_1 J3 ALIM 1 ALIM SW4 1 SW5 1 ALIM ALIM SW6 5 10 SW3 1 8 1 8 1 2 1 J8 J7 J2 PS10270JENAA01 20/10/2004 186 J5 J6 ADAPT 1 6
Description of the card The LD4 card has four T0/S0 interfaces and is used to manage 2- or 4-channel DECT base stations. There are two possible configurations: Without ADPCM daughter card: connection to the ISDN network, ISDN terminals or connection of two-channel DECT base stations.
Description of the switches CA1.1 to CA1.4 : these switches are used to adapt lines (factory setting, leave set to ON). CA2: configure according to the card's location and mode (master/slave). Case of LD4 in T0 configuration (shelf 0 of the main cabinet only) CA2.1 (VALH) Function ON CA2.1 is active only in Shelf 0 in the main cabinet (positions 0-5). Set it to ON if the LD4 card is used in T0 mode, to synchronise the PBX clock with the public network clock.
LD4N (HJ4734A) J1 J14 1 2 3 J14 J11 J6 J5 J4 J3 CA1 HVAL 1 6 5 10 J2 1 2 ON 2 1 SW5 SW6 J1-1 J2-1 4 1 4 1 1 4 1 4 DISA J1-2 J2-2 RUN J1-3 J2-3 J1-4 J2-4 CA1 HVAL CA1.1 = ON HVAL CA1.1 = OFF H not validated CA1.
Description of the card The LD4N card has four T0/S0 interfaces and is used to manage 2- or 4-channel DECT base stations. There are two possible configurations: Without ADPCM daughter card: connection to the ISDN network, ISDN terminals or connection of two-channel DECT base stations.
Description of the connectors Name Function J2 2 STOCKO male connector, 2 pins Used to connect the 40 V remote power supply on ISDN terminals Pin 1 : M40V Pin 2 : P40V 1 J3 1 2 3 4 5 AB AB 1 2 3 4 5 HE14 2X5 pin connector Factory reserved J4 HE14 8 pin connector Factory reserved J5, J6 AMP CMS 2x10 pin connector ADPCM 16 daughter card connection Caution: the ADPCM8 daughter card is not managed by the LD4N card J7 à J10 Four STOCKO male connectors connection of the S0/T0 interfaces 4 1 J11
Description of the switches Micro-switch CA1 (HVAL) is used to configure synchronisation (T0). Case of LD4N in T0 configuration (shelf 0 of the main cabinet only) CA1 (HVAL) ON OFF Fonction CA1 is active only in Shelf 0 in the main cabinet (positions 0-5) and if card is used in T0.
ADPCM card (HJ4055A) + C1 J1 Vue côté composants Vue côté soudure Description of the card This 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. This card uses the J5 or J6 connector on the LD4 card. The ISDN cards that support the ADPCM cards enable the connection of two 4-channel DECT base stations.
ADPCM 16 card (HJ4399A) MN2 M MN5 M Description of the card This card provides the 32 kbit/s ADPCM 16 encoding/decoding function that enables multiple simultaneous calls on the same base station; it also provides echo damping and cancellation functions. This card uses the J5 and J6 connector on the LD4 card. Physically and mechanically it occupies the slot of 2 ADPCM cards (HJ4055A). The ISDN cards that support the ADPCM 16 cards enable the connection of two 4-channel DECT base stations.
LH8 (HJ4070A) J1 4 1 4 1 4 1 4 1 J2 J3 J4 J5 Description of the card The LH8 card provides the same features as the LA8 card, plus an extra feature that lights an LED on sets if messages have been left (for hotel configuration). Refer to the LA8 card for the description of the connectors.
LI1 (HJ3950B) 4 J1 3 2 1 CA2 ON 4 3 2 1 CA1 ON 10 1 10 1 J2 J3 Description of the card The LI1 card enables the connection of two- or four-wire tie lines + E&M signalling.
Textual specification of the connectors NAME Function J2 tie line (TL) connection equipment 0 10 1 J3 tie line (TL) connection equipment 1 10 1 Description of the switches CA1 and CA2: switches CA1 (equipment 1 - connector J3) and CA2 (equipment 0 - connector J2) are used to configure the transmission type (2- or 4- wire), signalling type (50 Hz or E&M) and gain (short line or standard line). Switches CA1.1 and CA2.1 must be set to the OFF position.
2-wire 50 Hz link The diagram below shows the wiring for a two-wire 50 Hz link. 10 GND GND 10 9 TA 00 TA 10 9 8 4 3 2 1 OFF ON 8 7 LERA 0 LERA 1 7 6 LERB 0 LERB 1 6 5 5 4 4 3 3 2 2 1 1 J2/J3 J2/J3 PBX A PBX B 4 3 2 1 OFF ON 2-wire + E&M link The diagram below shows the wiring for a two-wire E&M link.
4-wire + E&M link The diagram below shows the wiring for a four-wire + E&M link. 4 3 2 1 OFF ON 10 GND GND 10 9 TA 00 TA 10 9 8 TB 00 TB 10 8 7 LERA 0 LERA 1 7 6 LERB 0 LERB 1 6 5 LRA 0 LRA 1 5 4 LRB 0 LRB 1 4 3 R 00 R 10 3 2 2 1 1 J2/J3 J2/J3 PBX A PBX B 4 3 2 1 OFF ON 4-wire + 2 E&M link The diagram below shows the wiring for a four-wire + 2 E&M link.
Description of lights Color 10 Function red lights when the corresponding circuit is busy green lights when the corresponding circuit is in transmission mode green lights when the corresponding circuit is in reception mode J2 Eqt0 1 10 J3 Eqt1 1 200 20/10/2004 PS10270JENAA01
LM8 (HJ2781A) J1 4 1 4 1 4 1 4 1 J2 J3 J4 J5 Description of the card The LM8 card enables the connection of four digital sets and four analogue sets.
Description of the connectors NAME J2 Function Description of the contacts used to connect two analogue sets pins 4 and 3: analogue set 0 pins 2 and 1: analogue set 1 used to connect two analogue sets pins 4 and 3: analogue set 2 pins 2 and 1: analogue set 3 used to connect two digital sets pins 4 and 3: digital set 0 pins 2 and 1: digital set 1 used to connect two digital sets pins 4 and 3: digital set 2 pins 2 and 1: digital set 3 4 1 J3 4 1 J4 4 1 J5 4 1 Description of the switches The
LN4 (HJ2845A) J1 4 1 4 1 J2 J3 Description of the card The LN4 card enables the connection of four digital sets.
Description of the connectors NAME J2 Function Description of the contacts used to connect two digital sets pins 4 and 3: digital set 0 pins 2 and 1: digital set 1 used to connect two digital sets pins 4 and 3: digital set 2 pins 2 and 1: digital set 3 4 1 J3 4 1 Description of the switches There are no switches on this card. Description of lights There are no lights on this card. Line characteristics • 0.4 mm cable: approximately 1 km (maximum distance between set and cabinet) • 0.
LN8 (HJ2764A) J1 4 1 4 1 4 1 4 1 J2 J3 J4 J5 Description of the card The LN8 card enables the connection of eight digital sets.
Description of the connectors NAME J2 Function Description of the contacts used to connect two digital sets pins 4 and 3: digital set 0 pins 2 and 1: digital set 1 used to connect two digital sets pins 4 and 3: digital set 2 pins 2 and 1: digital set 3 used to connect two digital sets pins 4 and 3: digital set 4 pins 2 and 1: digital set 5 used to connect two digital sets pins 4 and 3: digital set 6 pins 2 and 1: digital set 7 4 1 J3 4 1 J4 4 1 J5 4 1 Line characteristics • 0.
LR4 (HJ2765BA) 2 1 S2 ON J5 J7 J9 J11 J4 J6 J8 J10 1 2 3 4 S1.1 ON 1 D1.1 D1.4 4 D1.2 1 2 3 4 D1.3 ON S1.2 ON ON 4 1 1 2 3 4 S1.3 1 2 3 4 S1.4 J2 J3 Description of the card The LR4 card enables the connection of four analogue trunk lines. A variant of the LR4 card is available under the reference LR4-DTOC (HJ2765FA); this variant is pre-equipped with DTOC daughter cards (see DTOC configuration below).
Description of the connectors NAME J2 Function Description of the contacts used to connect two analogue trunk lines pins 4 and 3: trunk line 1 pins 2 and 1: trunk line 2 used to connect two analogue trunk lines pins 4 and 3: trunk line 3 pins 2 and 1: trunk line 4 4 1 J3 4 1 J4 and J5 used to connect the charge detection card for LR1 J6 and J7 used to connect the charge detection card for LR2 J8 and J9 used to connect the charge detection card for LR3 J10 and J11 used to connect the charge
S1.x.3 S1.x.4 ON ON Switch Gain Standard line gain, usable for 1.5 to 3.5 km (factory setting) ON OFF 3 OFF 4 OFF Short line gain, usable for 0 to 1.5 km ON OFF 3 4 S2: this switch is used to set the charging frequency. S2.1 OFF S2.2 Switch OFF 2 Charging frequency 12 kHz 1 ON ON ON 2 16 kHz 1 ON Description of lights NAME Color Status Function D1.1 Green Off On Flashing idle line seizure dialling rate D1.2 Green Off On Flashing idle line seizure dialling rate D1.
DTOC (HJ3787B) ON 1 2 3 4 CA1 Description of the card This card detects the busy tone. One card of this type can be mounted on the LR4 for each trunk line. Description of the switches CA1.1, CA1.2, and CA1.3: these switches are used to configure the card to suit the tones used in different countries. These switches are pre-set. CA1.4: this switch is used to modify the sensitivity of the DTOC card. CA1.
FTXA (HJ2817A) X2 X1 X1 X2 Description of the card The FTXA card is a 50 Hz charge detection card. One card of this type can be mounted on the LR4 for each trunk line. Description of the switches There are no switches on this card. Description of lights There are no lights on this card.
FTXC (HJ2818A) X2 X1 X1 X2 Description of the card The FTXC card is a 12/16 kHz charge detection card. One card of this type can be mounted on the LR4 for each trunk line. Description of the switches There are no switches on this card. Description of lights There are no lights on this card.
LS0 (HJ3963A) J1 10 9 8 7 6 5 4 3 2 1 2 1 SW1 ON SW2 ON ST6 ST7 4 1 1 2 3 1 2 3 J3 Description of the card The LS0 card can be used to connect an ISDN T0 interface.
Description of the connectors NAME J3 4 Function Description of the contacts used to connect the T0 interface pin 4: RTpin 3: RT+ pin 2: ETpin 1: ET+ 1 Description of the switches Set the switches and jumpers (SW1, SW2, ST6, and ST7) as shown in the diagram below: ON ON 2 10 9 1 8 SW2 7 6 5 ST6,ST7 4 1 2 3 3 2 1 SW1 214 20/10/2004 PS10270JENAA01
LS1 (HJ3924A) J1 9 10 ON SW1 1 2 3 ST6 ST7 1 2 3 ST1 ST8 ST9 4 1 2 3 2 1 4 1 2 3 1 1 2 3 1 1 2 3 1 2 3 1 2 3 8 ST2 ST4 ST3 7 6 5 4 3 2 1 ON SW2 10 9 8 7 6 5 4 3 2 1 J3 J2 J4 Description of the card The LS1 card enables the connection of two T0 interfaces, one T0 and S0 interface, or two S0 interfaces.
Textual specification of the connectors NAME Function Description of the contacts pin 2: (+) 40 V pin 1: (-) 1 used to connect the 40 V power supply for the ISDN terminals (connect to the ADS300 power supply module) 4 used to connect the T0 or S0 interface on equipment 0 T0 configuration (J3 or J4) pin 4: RTpin 3: RT+ pin 2: ETpin 1: ET+ RT: Reception on T interface ET: Transmission on T interface J2 2 J3 1 J4 4 used to connect the T0 or S0 interface on equipment 1 S0 configuration (J3 or J4) p
1 T0 / 1 S0: switch configuration with a T0 as equipment 0 (J3) and an S0 as equipment 1 (J4): ON ON 10 9 10 9 8 8 7 6 5 7 6 5 ST1,ST2 1 2 3 4 ST3,ST4 1 2 3 4 3 2 3 2 1 1 SW1 SW2 2 S0: switch configuration with an S0 on both equipment connectors (J3 and J4): ON 10 9 8 7 6 5 ST1, ST2 ST3, ST4 4 1 2 3 3 2 1 SW1, SW2 Characteristics of the S0 bus The number of terminals connected is dependent on the type and length of bus.
S0 bus types In the diagrams the S0 bus terminator is shown by a dot.
Maximum number of devices on a point-to-point bus: - 1 connector - 1 terminal L1 ≤ 90 m Connector 1 T0 PBX S0 TE1 T0 Connector 2 TE4 L2 ≤ 90 m Maximum number of devices on a Y bus: - 8 connectors (n1 + n2) - 4 terminals (where L1 and L2 ≤ 130 m). S0 bus terminator S0 bus terminator A 100 Ohm terminator must be fitted to each end of an S0 bus. Power to terminals ISDN terminals are powered by the S0 bus. Connect the 40 V power supply to the J2 connector on the LS1 card.
LT2 (HJ3970B) J1 2 2 1 2 1 CA4 ON 1 J2 1 2 3 4 5 6 7 8 1 2 ON CA6 1 2 3 4 CA5 ON ON CA3 1 2 3 4 CA7 ON 1 2 3 4 5 ON 1 2 3 4 5 CA2 ON 1 2 3 4 CA8 J3 1 3 5 7 9 6 1 2 4 6 8 10 J4 Description of the card The LT2 card enables operation in ISDN T2/S2 or PCM mode, both at 2.048 Mbits/s. These modes are selected using the various switches on the card.
Description of the connectors NAME Function Description of the contacts J2 and J3 not used (factory tests) J4 used to connect the T2 interface from the TNL or another LT2 card (transmission and reception pair). 6 1 pin 6: screen pins 5 and 4: to TNL, transmission pair pin 3: screen pins 2 and 1: to TNL, reception pair Description of the switches CA8: this switch sets either ISDN (T2/S2) or PCM mode. CA8.4 CA8.3 CA8.2 CA8.1 PCM type OFF OFF OFF OFF LT2 card used in T2-S2 mode.
CA8.4 CA8.3 CA8.2 CA8.1 PCM type ON OFF OFF ON PCM (SF) 15 dB PCM E1 at 1.544 Mbps (export) OFF ON OFF ON Extended PCM (ESF) 0 dB PCM E1 at 1.544 Mbps (export) ON ON OFF ON Extended PCM (ESF) 7.5 dB PCM E1 at 1.544 Mbps (export) OFF OFF ON ON Extended PCM (ESF) 15 dB PCM E1 at 1.544 Mbps (export) ON OFF ON ON PCM E2 (32TS) 2 Mbps OFF ON ON ON ISDN T2 E1 2 Mbps 16TS ON ON ON ON Not used - Folio 2 de 2 - * Use of T2 or S2 is confirmed through the user interface.
CA5 and CA7: configuration of the line coding, remote alarms and distances. CA5 switch CA5.1 CA5.2 CA5.3 CA5.
CA7.1 CA7.2 CA7.3 CA7.4 CA7 switch 1 2 3 2 3 1 OFF OFF OFF OFF ON OFF ON OFF OFF ON ON ON OFF OFF ON OFF ON ON ON OFF ON ON ON 1 1 1 1 1 1 1 224 2 2 2 2 2 2 2 2 3 3 3 3 3 3 3 3 24 TS PCM in ANSI T1 mode (factory setting) ON 24 TS PCM in CCITT mode ON Rated transmission level (factory setting) ON Line length = 0-35 m (0-3,505.20 cm) ON Line length = 25-65 m (82-213 ft) ON Line length = 55-95 m (180-9,509.
CA6, CA3 and CA2: these switches are used to configure the line impedance. CA6.1 CA6.2 CA3.1 CA3.2 CA2.1 CA2.2 OFF OFF ON ON ON Switch ON OFF 1 2 ON ON OFF OFF 2 OFF OFF ON 1 1 2 2 OFF CA6 CA2 ON ON ON 1 OFF 1 2 1 2 CA6 75 Ω (E1) OFF CA3 OFF 100 Ω (T1) CA2 ON 1 OFF 2 OFF ON ON 1 2 CA3 OFF OFF 1 OFF CA6 OFF ON ON ON ON Line impedance OFF CA3 120 Ω (E1) 2 OFF CA2 CA4: this switch is used to configure the clock and switch the card to programming mode.
RL1 (HJ4129A) J1 Normal 1 J7 Program Test Normal 2 4 1 J4 J8 Loader 3 Reset 3C J10 J6 SW2 Alert Power SW3 Fusible Description of the card The RL1 card provides a router to enable interconnection of LANs via the ISDN network; it also provides an S0 interface.
Description of the connectors NAME J4 Function Used to connect the configuration console of the router A B 1 2 J6 Ethernet connection 8 1 J7 Not fitted J8 Reserved for factory testing J10 External power supply connector for the router Description of the switches CA1 and CA2: CA1 and ON ON Position Function ON Normal mode, leave set to ON OFF Reserved for factory testing SW1: you can select programming mode by setting switch SW1 to ON.
Description of lights No.
MVD (HJ3947A) Refer to the MC7460 (MCPS6938ABAAA01).
BVF (HJ4217A) – daughter card FBVF (HJ4218A) The BVF card is only compatible with software release 11.6 (GEN B6B) and above. Refer to the BIP Message (MCPS8830ADAAA01).
BVF2 (HJ4217B) – daughter card FBVF2 (HJ4218B) The BVF2 card is only compatible with software release 11.6 (GEN B6B) and above. Refer to the BIP Message voicemail card installation and implementation guide (*PS8965A*).
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Appendix B: Alarm and event codes Description of errors Error number Description 200 A serious software fault has been detected by the program number LC XXX. This fault causes a system restart. The information accompanying this error message will vary depending on the number of the program that generated the fault. Action Monitor the error. The system automatically restarts when this error occurs. 201 A serious software fault has been signaled by the program number LC XXX.
Error number 20D Description There is an incorrect PAS type file parameter. (INDEX = fault code AGD). the AGD number of the accessed table: 1 byte the logic cluster number the number of the PAS file AGD descriptor: 1 word *1 word is displayed as 2 inverted bytes. 3=IRMX286 primitive call problem. 5= AGD internal fault: internal file full, incorrect message code in AGD message 6=BASIC I/O call problem 7=no resources (memory space), GEDI primitive call problem 9=fault, transaction duration value too high.
Error number Description 214 A programming error was detected by the IRMX286 monitor. If the IRMX error code is different from C008H/C00AH/C00CH: - error code IRMX286 (appendix 3): 1 word. - DS, ES, DI, SI, BP, SP, BX, DX, CX, AX: 14 words. fault code, IP, CS, flags - first words in stack. If the IRMX error code is C008H/C00AH/C00CH: - error code IRMX286: 1 word. - processor error code: 1 word. - IP, flags: 2 words. - AX, CX, DX, BX, SP, BP, DI: 8 words. - ES, CS, SS, DS: 4 words.
Error number Description 607 The processor has shut down. Program registers interrupted: - REB, IP, CS, flags - DS, ES, DI, SI, BP, SP, DX, CX, AX. *1 register is displayed as 2 inverted bytes. Action Monitor the error. The system automatically restarts when this error occurs. 608 The OCT card does not recognise the I/O address. Program registers interrupted: - REB, BP, DS, ES, DI, SI, BP, SP. - BX, DX, CX, AX, IP, CS, Flags. - first words in stack. *1 register is displayed as 2 inverted bytes.
Error number Description 708 The CLX card has detected a bus time-out. Action Monitor the error. The system automatically changes the CLX card status to faulty when this error occurs. C05 The number of active operator stations is greater than that authorised by the dongle (voice mail). Action Check the number of stations authorised by the dongle. 1000 External clock control problem (VCXO absent?) Action Monitor the error. Contact the maintenance support team.
Error number Description 3E00 Unsuccessful call due to establishment failure on level 2. 2 specific program words. *1 word is displayed as 2 inverted bytes. Action Monitor the error. 3E01 There is an activation problem on T0 access. 2 specific program words. *1 word is displayed as 2 inverted bytes. Action Monitor the error. 4800 The LB4 card cannot be woken up. Card number. Action Monitor the error. The state of the card is changed to faulty.
Error number Description 4901 The BS and MB4 cards cannot communicate. Action Monitor the error. The system automatically changes the BS status to blocked when this error occurs. 4902 The communication between the BS card and the LB4 card is restored (after receiving error 4901 h). Action Monitor the error. The system automatically changes the BS status to in service when this error occurs. 6D00 PCM interface on LT2 card is not configured in selected mode. No action or information for the operator.
Error number Description 6F03 The type of 2-channel BS coding when this error occurs is not compatible with that of the PBX. Action Monitor the error. The system automatically changes the base station state to faulty when this error occurs. 7004 Onset of PCM alarm on an LT2_RTC card. - frame alarm register (8 least significant bits): 1 word. - multiframe alarm register (8 least significant bits): 1 word. 1 word is displayed as 2 inverted bytes.
Operating system errors Value(hex ) Error description 0 Normal. 1 Timeout for unaccomplished task request. 2 Insufficient memory space for task request. 2 Other task is currently accessing data protected by a region. 4 Task attempt to violate monitor protection. 5 Incorrect system call. 6 Token with a value corresponding to an impossible transition of this task status. 7 Task attempt to execute an operation resulting in an impossible state transition for that task.
Value (hex) Error description 40 Directory name begins with “:” but does not contain a “::” pair. 41 Extended I/O system can no longer transfer the remaining data from the buffer to the output peripheral. 42 Basic I/O system has insufficient memory space to process the request. 44 Peripheral containing required file not in service. 45 Extended I/O system cannot find the logical name requested in the object directories it manages.
Value (hex) Error description 81 The string returned as a parameter name is longer than that of the buffer supplied by the user at the time of the call. 82 Analysis buffer contains a command separator. 83 Analysis buffer contains a continuation character. 84 Numeric value contains an incorrect numeric character. 85 Last value missing in the list of values. 86 Joker character used in the wrong context, as an intermediate component of a complete file name.
Programming error codes Value (hex) 244 Error description 8000 Division by zero performed by a task. 8001 Overflow interrupt occurrence. 8002 A token refers to an existing object which is not the type of object required. 8003 Task attempting to access beyond the end of a segment. 8004 Task attempting to access beyond the end of a segment. 8006 The I/O system code was deleted due to an error in an application program. Recovery impossible. 8007 8087 error.
