Alcatel-Lucent OmniPCX Enterprise Communication Server RMAB

Alcatel-Lucent OmniPCX Enterprise Communication Server RMAB

Legal notice: Alcatel, Lucent, Alcatel-Lucent and the Alcatel-Lucent logo are trademarks of Alcatel-Lucent. All other trademarks are the property of their respective owners. The information presented is subject to change without notice. Alcatel-Lucent assumes no responsibility for inaccuracies contained herein. Copyright 2012 Alcatel-Lucent. All rights reserved. The CE mark indicates that this product conforms to the following Council Directives: - 2004/108/EC (concerning electro-magnetic compatibility) - 2006/95/EC (concerning electrical safety) - 1999/5/EC (R&TTE)

Chapter 1 Hardware description Presentation... 1.1 Environment... 1.1 Functional block... 1.2 List... 1.2 Description of the blocks... 1.3 Chapter 2 Hardware configuration Reference... 2.1 Presentation... 2.1 Strapping... 2.1 Meaning of the LED... 2.2 Chapter 3 External connections 0-1

Connection... 3.1 Output pins... 3.1 0-2

1.1 Presentation The RMAB (Remote Maintenance Access Board) is used to connect the PABX to a local or remote operator for system maintenance purposes. Its main functions are: - connection in local or remote mode to the PABX boards, - access control, - remote reset of the PABX, - remote reset of the RMA board, - reception, recording and action on PABX or external alarms, - transmission of commands. The configuration of RMA board is describe in RMAB - Hardware configuration. The connections of RMA board are describe in RMAB - External connections. 1.2 Environment 1-1

Chapter 1 1.3 Functional block Figure 1.1: RMAB Inputs / Outputs diagram Figure 1.2: Synoptic functional diagram RMAB 1.3.1 List Card RMAB is made up of the following elements: 1-2

- a CPU, - a real time clock module, (RTC), - memories, - a set of commands, alarms and resets, - a external interface, - a power supply. 1.3.2 Description of the blocks 1.3.2.1 CPU 1.3.2.2 RTC This part is the heart of the board. The CPU comprises two Motorola 68302 microcontrollers. The main characteristics of the 68302 are: - 16 bit microcontroller, - includes a 68000 and a RISC communications processor. It is possible to inhibit the 68000 and use the component as a smart peripheral, clock frequency of 16.67 MHz, 3 UART serial ports. One of the 68302 microcontrollers is master, the other slave. The functions of the master are those of a traditional microcontroller with, in addition, the UART controller function for ports SyA, SyB, ExA, RTC controller and component selection. The slave CPU handles the UART controller functions for ports ExB, ExC, ExD and component selection. The frequency of the master CPU clock is supplied to all the board components that use it. The CPU can be reset in 3 ways: - on start-up, - by push-button on the front panel, - by software command. - time, - calendar, 1.3.2.3 Memories - battery backup (about 4 hours). The oscillation frequency is 32,768 KHz. There are three types of memory present on the RMAB: - Flash EPROM (512 kb) comprising two modules, - static RAM (256 kb) comprising two modules, - EPROM (512 kb) used to load the flash. 1-3

Chapter 1 1.3.2.4 Set of alarms, resets and commands 1.3.2.4.1 Alarms 1.3.2.4.2 Resets The RMAB can receive 5 alarms: - one from the system CPU, - 4 external ones. Note: The two system CPU alarms are configured in wired OR. The RMA board can send a reset to each of the CPUs (main and standby). Note: One reset per CPU board. These two resets are inhibited during reset of the RMAB. 1.3.2.4.3 Commands Two commands carried out by relay contact are available. The current loop must not exceed 1A/30V or 400mA/60V. Caution: The maximum switching voltage is 60V at relay contact level. 1.3.2.5 External interface This module comprises: - DIN 96 pin connector (V24, alarms, Resets, commands, APA), - two metric connectors for board power supply, - one EMI protection for the V24 ports. 1.3.2.6 Power supply The power supply for the board is provided by the PABX -48V. The converter delivers the 5V/1.8A and 12V/60mA required for its operation. 1-4

2.1 Reference RMAB board reference : 3BA 23081 AB 2.2 Presentation The diagram below gives the position and number for each strap present on the RMAB. Figure 2.1: View of RMAB with strappings 2.3 Strapping Ex-factory strappings are shown on grey background 2-1

Chapter 2 2.4 Meaning of the LED Figure 2.3: RMAB front panel table 2.1: Abbreviations Name Meaning ACT µp (green) ACT processor microprocessor operation PWR (green) PoWeR mains power on INT INTernal internal alarm ONL ON Line not used CPU CPU PABX CPU alarm EXT EXTernal external alarm 2-2

3.1 Connection The RMAB plugs either into a BRMA box either into an interface position of PABX. The RMAB /CBRMA cable is describe in RMAB/CBRMA cable - Hardware description. When the RMAB board is in a BRMA box, the connections are described inm2 cabinet - Internal connections. 3.2 Output pins The RMA board output points are shown below : 3-1

Chapter 3 C B A REMARkS 1 APA_B APA_A APA_A, APA_B = wires for telephone lines 2 3 GND GND GND 4 RXD1 ALCPU1 TXD1 RXDi, TXDi, RTSi, CTSi, DCDi, DSRi, DTRi, 5 CTS1 RALCPU1 RTS1 RIi, RXCKi, TXCKEi = outputs wires for the V24 6 DCD1 RMTRES1 DTR1 7 DSR1 GND RI1 ALCPUi, RALCPUi = wires for the CPU alarm 8 GND GND GND 9 RXD2 GND TXD2 RMTRESi = wires for remote reset 10 CTS2 ALCPU2 RTS2 11 DCD2 RALCPU2 DTR2 12 DSR2 RMTRES2 RI2 13 GND GND GND 14 RXD3 DCD3 TXD3 15 GND GND GND 16 RXD4 GND TXD4 17 CTS4 RXCK4 RTS4 18 DCD4 TXCKE4 DTR4 19 DSR4 GND RI4 20 GND GND GND 21 RXD5 RXCK5 TXD5 22 CTS5 TXCKE5 RTS5 23 DCD5 GND DTR5 24 DSR5 GND RI5 25 GND GND GND 26 GND GND GND ALEXTi, RALEXTi, STLINE, RSTLINE = 27 TELEXT1 GND ALEXT1 wires forr external alarms 28 RTELEXT1 GND RALEXT1 29 TELEXT2 GND ALEXT2 30 RTELEXT2 GND RALEXT2 TELEXTi, RTELEXTi = wires for external commands 31 STLINE GND ALEXT3 32 RSTILNE GND RALEXT3 3-2