Training Center Zhongxing Telecom Pakistan (Pvt.) Ltd System Architecture of ZXJ10 (V10.0)

Agenda Overall System Structure Peripheral Switching Module (PSM) Remote Switching Module (RSM) Remote Subscriber Unit (RSU)

Overall System Structure SNM RSMRSU PSMRSU MP PSM RSM RSU TCP/IP OMM MSM

Switching Network Module (SNM) Message Switching Module (MSM) Operation and Maintenance Module (OMM) Peripheral Switching Module (PSM) Remote Switching Module (RSM) Central Module Overall System Structure

PSM forms an independent exchange PSM 2Mb/s No.7/R2 To superior office

Overall system structure The multi-module forms an exchange. With a 2-level or 3-lever networking capability, module can further carry modules. Two cases: Level -1 is Central module Level -1 is PSM

Overall system structure ---- Overall system structure ---- feature of the ZXJ10 switch(5/7) -----the multi-module forms an exchange Central module PSM RSU 1-level 2-level 3-level RSM RSU RSM PSM RSM

Overall system structure ---- Overall system structure ---- feature of the ZXJ10 switch(6/7) -----the multi-module forms an exchange PSM access way ： Fiber Bus Interface (FBI ） board RSM access Way: Digital Trunk Interface (DTI) board Optical Digital Trunk (ODT) board built-in SDH

Overall system structure ---- Overall system structure ---- feature of the ZXJ10 switch(7/7) Each processor of the module can control only part of the resources, and execute part of the switching system functions

Peripheral Switching Module(PSM)

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Main function of the PSM In the single modules office,it performs the PSTN,ISDN subscriber access and call handling In a multi-module office,it is connected into the central module as one of the module offices

Control cabinet #0 Subscriber cabinet #1 Subscriber cabinet #2 PSM cabinets Subscriber cabinet #3 Subscriber cabinet #4

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Arrangement diagram of PSM module rack #1#2#3#4#5 BDTBSLC1 BDTBSLC0 BCTLBSLC1 BNETBSLC0 BSLC1 BSLC0 the 6th layer the 5th layer the 4th layer the 3rd layer the 2nd layer the 1st layer

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) k Switch module POWBPOWB DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI ASIG ASIG ASIG ASIG POWBPOWB BDTBDT BDTBDT 4 BCTLBCTL BNETBNET BSLCBSLC BSLCBSLC POWBPOWB CKI CKI SYCK SYCK SYCK SYCK DSN DSN DSN DSN DSNI DSNI DSNI DSNI DSNI DSNI DSNI DSNI DSNI DSNI DSNIDSNI DSNI DSNI DSNI DSNI FBI FBI FBI FBI POWBPOWB POWBPOWB DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI ASIG ASIG ASIG ASIG POWBPOWB POWBPOWB SMEM SMEM MP COMM COMM PEPD PEPD POWBPOWB MON MON COMM COMM COMM COMM COMM COMM COMM COMM COMM COMM POWAPOWA SLC SLC POWAPOWA SPI SPI SPI SPI SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC POWAPOWA SLC SLC POWAPOWA MTT MTT SP SP SP SP SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC

POWERAPOWERA SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SPISPI SPISPI POWERAPOWERA POWERAPOWERA SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC MTTMTT SPSP SPSP POWERAPOWERA POWERAPOWERA SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SPISPI SPISPI POWERAPOWERA POWERAPOWERA SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC MTTMTT SPSP SPSP POWERAPOWERA POWERAPOWERA SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SPISPI SPISPI POWERAPOWERA POWERAPOWERA SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC SLCSLC MTTMTT SPSP SPSP POWERAPOWERA

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM(1/6)

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM(2/6) PSM consists of the following basic parts: Switching unit Subscriber unit Digital trunk unit Analog signaling unit Control part Synchronization part

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM(3/6) Switching network unit

standby active working active standby Working mode: active/standby MP/DSN /DSNI-SP

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM(4/6) DSN unit can handle time slot switching of the voice channel. And control message channel Constitution:2 DSN boards Switching network unit DSN Work mode:active /standby

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM(5/6) Switching Network in PSM Main function: Performing voice channel connection switching of subscribers inside the module; Interconnected with central switching network module to realize inter-module voice channel connection; For MP to set up message switching connection and communication via semi-permanent connections with function units;

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM(6/6) Switching network unit T network unit ……… bi-directional HW at 8Mb/s(128TS) a 8K×8K T network

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- HWs distribution of DSN in PSM(1/4) 2 DSN board in a PSM Working mode :active/standby Each DSN board is a time division non-blocking switching network with single T structure Each DSN board has 64 HWS. A HW bus rate is 8Mb/s(128ts) Each DSN board has a capacity of 8K*8K time slots

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- HWs distribution of DSN in PSM(2/4) DSN Inter-module connection Message communication Connected with various units Self-looping testing Standby HW line

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- HWs distribution of DSN in PSM(3/4) HW0~34HWused for message communication HW4-1916HWused for inter-module connections HW HW HW62 usually a standby HW line, though it can also be for communication between units used for self-looping testingHW63 1HW SN. Function Used for various unit connection Those starting HW20 upward are used for connection with subscriber units. Each subscriber unit seizes two HW lines; Those starting HW61 downward are used for connection with digital trunks and analog signaling units. Each unit seizes one HW line;

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- HWs distribution of DSN in PSM(4/4) Dual-channel structure the voice channel and the message channel are separated.they go through the different HWs

FB I DS NI DSN DS NI FB I Total 42 HW lines （ HW20-HW61 ） to various function units To central SNM network or other module （ HW4-HW16 ） 16*8M 8M HW*16 lines DSN T-NET 16*8M DS NI 8M HW*10 lines 10*8M DS NI 4*8M COMM 2MHW Total 4 HW lines (HW0~HW3) to COMM board

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM DSNI(digital switching network interface board) Classification: An interface of MP level (MP-T network) An interface of SP level (SP –T network)

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM DSNI-C(digital switching network interface board) Function: An interface of MP level (MP-T network) It drives the various signals transmitted between MP and T network. It performs the conversion of 8Mb/s data stream and 2Mb/s data stream. A pair of DSNI boards handle 4 HWs. MP--COMM--DSNI—T network

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM DSNI-S(digital switching network interface board) Function: An interface of SP level (SP –T Network) It drives transmission between function unit and T network. No data rate conversion A pair of DSNI boards can handle 16 HWs. SP—DSNI--T network

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM FBI(Fiber Bus Interface) It applies synchronous multiplexing technique and optical fiber technique to implement the interconnections of Modules. It uses two optical fiber lines to transmit up to 16 lines of 8Mb/s PCM signals It can reduce connection wires and increase anti-interference ability of the system, and to reduce mutual cross talks among wires. These enable the PCM wire signals in T network to be correctly. Note : When HW lines 4~19 are used for intra-module unit connection,the FBI board must be replaced by the DSNI.

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Subscriber line unit

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Subscriber line unit 2 SP:active/standby 2 SPI(SP interface);active/standby MTT(multi-task test board):used for subscriber line test Max.40 SLC(subscriber line circuit) Each SLC board can provides 24 subscriber lines

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Subscriber line unit Connection with T-network and communication port One subscriber unit occupies 2 HW,2 comm. ports. The unit has realized dynamic time slot distribution ， with a line concentration ratio of from 1:1 to 4:1.

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Digital Trunk unit

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Digital Trunk unit The digital trunk unit is the interface unit between the digital switching system or between digital SPC switches and digital transmission devices. PCM 2Mb/s A A DT B B

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Digital Trunk unit One DT unit only has one DTI board One DTI board has 4 PCM (sub-unit) DTI PCM1 PCM2 Provide 120 digital trunk subscribers for every board PCM3 PCM4

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Digital Trunk unit Classification ： 1 ） CAS DTI 2 ） CCS DTI 3 ） connection between modules 4 ） connect with RLM 5 ） ISDN 30B+D Connection with T-network and communication port One digital trunk unit occupies 1 HW,1 comm. port.

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Analog signaling unit One Analog signaling unit only has one ASIG board. ASIG board can be configured as ---DTMF function ---MFC function ---TONE function ---CID function ---Conf. function

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Analog signaling unit DTMF:Dual tone Multi-frequency receiver /sender It is used for receiving the dialed numbers sent by a DTMF subscriber phone and detecting the sent DTMF signals.

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Analog signaling unit MFC: Multi-frequency compelled unit It handles the receiving and sending of inter-exchange MFC register signals.

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Analog signaling unit TONE:Signal tone unit It can provide various tones for the call services of switching system. CID:caller identification

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Analog signaling unit Each ASIG provides 120 channels. One ASIG board is divided into 2 sub-units,to be separately configured DSP1# DSP2#

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Analog signaling unit Appendix ： 860Asig Asig-1:with all the chip TONE/DTMF/MFC/CID/CONF + TONE/DTMF/MFC/CID /CONF Asig-2:without FLASH and conf. Chip for the two DSP DTMF/MFC/CID + DTMF/MFC/CID Asig-3:with FLASH only for DSP1 ， without conf.chip for all TONE/DTMF/MFC/CID + DTMF/MFC/CID DSP1# DSP2#

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Control part

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Control part Constitution a pair of active and standby MP shared memory board(SMEM) communication board(COMM) monitor board(MON) peripheral environment(PEPD)

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Clock synchronous part Retrieving the reference clock from the superior exchange(DTI or FBI),it provides synchronization timing signals SYCK CKI SYCK Working mode:Active/standby

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM Clock synchronous part Function ： according to the reference clock to generate the synchronous clock for the module or system(PSM). SYCK(synchronization oscillator) 2 SYCK boards 1 CKI board CKI Function ： provide 2.048MB/S,2.048MHZ(Bits) interface for SYCK.

Synchronization clock in PSM CKI SYCK D S N I (MP) 8MHz/16MHz/8KHz D S N I SP) FBIFBI DSNDSN 16MHz/8kHz8MHz/8KHz MP COMM MON 4MHz/8KHz SLU RSU DTU ASIG BITS External clock signal (DTI)

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- Structure of the PSM 2-level control mode in the PSM MP MON Units in module PEPD MPPP Some boards Detect the environments

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel COMM Board Function Classify: MP-MP—inter-module communication board MP-SP—intra-module communication board NO.7signaling board V5 signaling board U interface board(ISDN operator station)

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel COMM Board Note:MP-MP and MP-SP common ground Appearance in pairs Each pair can handle 32 channels

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel COMM Board MP-MP:COMM1/COMM2 Handle 8 modules message.(not used in single module)

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel COMM Board MP-PP:COMM3/COMM4 --Control T network connection 8 pair of TSs --Function units message connection: 24 pair of TSs Note:subscriber unit:2 pair of TSs digital trunk unit:1 pair of TS analog signaling unit: 1pair of TS

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel MP control T-network MP COMM Switching network 256Kb/s

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel The communication between the COMM board and MP MP COMM COMM board exchange messages with active/standby MP by means of dual port RAMs (MON,PEPD).

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel The intra-module control message path passes through the COMM and MONI board

MP NO.7/V5 COMM MON TNET SP DT DTMF /MFC/ TONE Ethernet HDLC link Asynchronous serial bus POWER 、 SYCK 、 DSNI 、 FBI NT Server

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel DSNI COMM1 COMM2 DSN HW0 HW1 HW2 HW3 DSN HW0 HW1 HW2 HW3 DSNI HW0 HW1 HW2 HW3 COMM3 HW12 HW13... COMM13... COMM4 COMM14 HW5 HW4 HW14 HW15 HW16 HW17 HW18 HW19 HW28 HW29... HW21 HW20 HW30 HW31 COMM5 COMM6 8M8M 8M8M 8M8M 8M8M 1M1M 1M1M 1M1M 1M1M 1M1M 1M1M 1M1M 1M1M

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel T netwo rk T netwo rk FBI SLU HW20-35 SLU HW36-51 SLU DTU ASIG HW52-61 DTU DSNI HW4-19 1*HW 2*HW DSNI DSNIDSNI DSNIDSNI COMM MP 16*2M HW0~3

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel MP COMMCOMM DSNI TNET HW0 to HW3 SNM or other PSM function unit DSNI FBI

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Message Channel Suppose:PSM/Mp want to send message to SP The message path: MP  COMM  DSNICTL  T network  DSNI  SP

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Voice Channel T network T network FBI SLU HW *HW SLU HW36-51 SLU DTU ASIG HW52-61 DTU DSNI HW4-19 1*HW 2*HW DSNI

Peripheral Switching Module(PSM) ---- Peripheral Switching Module(PSM) ---- The Voice Channel Suppose one subscriber in one SLU call another subscriber in another SLU,how is the voice channel between the two subscribers? SP---DSNI---DSN(T-network)---DSNI---SP

System structure SNM RSMRLM PSM MP PSM TCP/IP OMM RSM RLM MSM

16K switching network module The HW lines number is doubled and the increased HW lines are normally used to connect DT. So this module is usually used as tandem exchange.

16K switching network module B D T BDTBDT 4 BCTLBCTL POWBPOWB SMEM SMEM MP COMM COMM PEPD PEPD POWBPOWB MON MON 3 BNENBNEN BSLCBSLC POWCPOWC FBI FBI FBIFBI FBI FBI FBI FBI FBI FBI FBIFBI FBI FBI FBI FBI SYCKSYCK SYCKSYCK DSNI DSNI DDSNDDSN DDSNDDSN CKICKI DSNIDSNI DSNI DSNI DSNI DSNI DSNIDSNI DSNIDSNI DSNIDSNI DSNIDSNI DSNIDSNI POWCPOWC DSNIDSNI MP COMM COMM COMM COMM COMM COMM COMM COMM COMM COMM POWAPOWA SLC SLC POWAPOWA SPI SPI SPI SPI SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC POWAPOWA SLC SLC POWAPOWA MTT MTT SP SP SP SP SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC BSLCBSLC POWBPOWB DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI ASIG ASIG ASIG ASIG POWBPOWB POWBPOWB DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI DTI ASIG ASIG ASIG ASIG POWBPOWB

16K switching network module 16K switching network module ----HW distribution of 16K switching module FBIFBI FBIFBI FBIFBI FBIFBI FBIFBI FBIFBI FBIFBI FBIFBI DDSNDDSN DDSNDDSN DSNIDSNI DSNIDSNI DSNIDSNI DSNIDSNI DSNIDSNI DSNIDSNI DSNIDSNI DSNIDSNI DSNIDSNI DSNIDSNI HW HW 122 : self-loop HW : default to ASIG (from DDSN directly ) ， and can also share with SP etc. HW distribution of 16K switching module ( with backboard of BNEN )

16K switching network module 16K switching network module ----HW distribution of 16K switching module 17 ， 18 slotsHW0-HW3 25 ， 26 slots HW4-HW19 23 ， 24 slots HW20-HW35 21 ， 22 slots HW36-HW51 19 ， 20 slots HW52-HW67 2 ， 3 slots HW68-HW83 4 ， 5 slots HW84-HW99 6 ， 7 slots HW100-HW115 8 ， 9 slots HW116-HW121 HW123-HW127 : come out directly from DDSN,default to ASIG HW122 :self-looping

Compact switching module(4k) Typical configuration ： single processor cabinet ： 2400L+600DT double processor cabinet ： 5280L+600DT Network principle ： 1.Form exchanges independently ； 2.Used as peripheral remote modules to access the central module. Normally, they are not used as nearby module,but merely as network terminal nodes. 3.Normally not carry any lower level switching modules further down,or RLM(unless there are enough trunks)

Compact switching module BCTNBCTN BSLCBSLC 4 BSLCBSLC POWBPOWB SMEMSMEM MP MP COMM COMM COMM COMM TNET TNET PEPD PEPD MON MON COMM COMM TNET TNET ASIG ASIG ASIG ASIG ASIG ASIG DTI DTI DTI DTI DTI DTI DTI DTI POWBPOWB DTI DTI MP MP POWAPOWA SLC SLC POWAPOWA MTT MTT SP SP SP SP SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC POWAPOWA SLC SLC POWAPOWA SPI SPI SPI SPI SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC COMM COMM COMM COMM COMMCOMM POWAPOWA SLC SLC POWAPOWA MTT MTT SP SP SP SP SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC POWAPOWA SLC SLC POWAPOWA MTT MTT SP SP SP SP SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC POWAPOWA SLC SLC POWAPOWA SPI SPI SPI SPI SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC SLC BSLCBSLC BSLCBSLC BSLCBSLC

Compact switching module---- Compact switching module---- Flexible configuration COMM board ： 9,10 slots ： inter-module communication 11,12 slots ： intra-module communication 13,14 slots ： NO.7,V5 boards ASIG board ： slots （ can share trunk slots) DT board ： slots （ 25,26 slots can be shared by DTI and ODT ）

Compact switching module ---- Compact switching module ---- Hws distribution HW MPMP.. ASIG ASIG ASIG ASIG DT DT ODT /DT ODT /DT ASIG ASIG.. DT DT DT DT Hw 0,2 for communication Hw 1,3 idle.. Hw for SP

Compact switching module ---- Compact switching module ---- Hws distribution T network HW lines ： HW0 ， HW2 ： used for communication HW1 ， HW3 ： idle HW4-HW6 ： distributed to ASIG HW7-HW9 ： distributed to DT HW10-HW17: distributed to ODT HW18-HW29: distributed to SP HW30 ， HW31 ： used for self-looping

RSU RSU: Remote Subscriber Unit Each RLM is usually restricted to with in 960 subscriber lines. The way of connection between the PSM and RLM can be RDT board or RODT board.

RSU

RSU---- RSU---- Instruction of RSU MTT (multi-task test)board: ---used also as the DTMF number receiver and TONE voice resource. REPD board: ----control the power board and ODT board ----clock synchronization for RLM.

RSU---- RSU---- Question Q1.what will be paid attention to when using RODT to connect RSU? 1) Add “RODT” when configuring the transmission shelf for RSU; 2) For the RODT of host office, at maximum 2 8M HW can be configured for every board; 3) When configuring subscriber unit of RSU, the corresponding HW line connection between host office and RSU can be created; 4) If in step2,more than 2 8M HW are assigned,the step 3 can not continue.

Concrete Configuration of PSM

The Concrete Configuration of PSM ---- The Concrete Configuration of PSM ---- The circuit description Format: Module number_rack number_shelf number_board Position number_circuit serial number

The Concrete Configuration of PSM ---- The Concrete Configuration of PSM ---- The circuit description Module number: PSM form an single module: #2 Rack number: 1 control rack and 1~4 subscriber rack. The control rack number:#1 The subscriber rack number:#2~#5

The Concrete Configuration of PSM ---- The Concrete Configuration of PSM ---- The circuit description Shelf number: 1# ~ 6# (starting from the bottom shelf ) Board position number: 1# ~ #27 Circuit serial number: 0#~ SLC:0~23 DTI: 0~127

The Concrete Configuration of PSM ---- The Concrete Configuration of PSM ---- The circuit description Subscriber line : Each analog subscriber board:24 subscriber circuits Each shelf;20 ASLC board Each subscriber unit :2 shelf Each subscriber unit:40*24=960 subscriber lines Each PSM: 13 subscriber units, 13*960=12480 subscriber lines

The Concrete Configuration of PSM ---- The Concrete Configuration of PSM ---- The circuit description Digital trunk : Each DTI board :4 PCM (4*2Mb/s ports=120 voice channel)

The structure of background network

The structure of background network(1/3) MP NT Server TCP/IP protocol NT Client.. NT Client 。。。 router DDN PSTN/PSPDN MP

The structure of background network(2/3) The network contain 3 types of nodes: Foreground active/standby MP Background servers(server) Background maintenance terminal(clients) MP (foreground ) connects with background by the Ethernet. It uses the HUB to connect each other. The communication protocol is TCP/IP. The operation system of Sever and Client is WINDOWS NT

The structure of background network(3/3) Each MP and the computer in background have a IP address respectively. The arrangement is as follows: 1~128 identify the active/standby Mps of the 64 modules(MP nodes) 129~133are background NT Server nodes 134~187 are background Client nodes 254 is for the specific alarm panel.

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