o9500r-v12-m

Loop- O9500R

SDH/SONET IMAP USER'S MANUAL

LOOP TELECOMMUNICATION INTERNATIONAL, INC. 8F, NO. 8, HSIN ANN RD. SCIENCE-BASED INDUSTRIAL PARK HSINCHU, TAIWAN Tel: 886-3-578-7696 Fax: 886-3-578-7695

TABLE OF CONTENTS 1 PRODUCT DESCRIPTION.......................................................................................................1

1.1 DESCRIPTION ................................................................................................................1

1.2 SPECIFICATION .............................................................................................................2

1.3 APPLICATION................................................................................................................7

2 INSTALLATION.......................................................................................................................10

2.1 SITE PREPARATION .....................................................................................................10

2.2 MECHANICAL INSTALLATION .....................................................................................10

2.2.1 Overview....................................................................................................................10

2.2.2 Chassis Grounding .....................................................................................................11

2.2.3 Rack Mounting Instruction ........................................................................................12

2.2.4 Interface Block Diagram............................................................................................13

2.3 ELECTRICAL INSTALLATION .......................................................................................13

2.3.1 Power Connection......................................................................................................13

2.3.2 Fiber Optic Line Connections ....................................................................................13

2.4 CONFIGURATION TYPE ...............................................................................................14

3 O9500R INTERFACE...............................................................................................................17

3.1 POWER........................................................................................................................18

3.1.1 Power module, -48V DC............................................................................................18

3.2 CONNECTOR CARD (CONN).......................................................................................19

3.2.1 VT-100 Terminal Interface ........................................................................................19

3.2.2 Alarm Interface ..........................................................................................................20

3.2.3 Alarm Input/ Output...................................................................................................20

3.2.3.1 Clock Input/Output .................................................................................21

3.3 XCU CARD.................................................................................................................22

3.3.1 XCU Card LEDs........................................................................................................22

3.3.2 Power up Initial Test Conditions ...............................................................................24

3.3.2.1 Boot Loader ............................................................................................24

3.3.2.2 Decompress.............................................................................................24

3.3.2.3 Initialization and Self-testing..................................................................25

3.3.3 Ethernet Interface.......................................................................................................25

3.3.4 Optical Connections...................................................................................................26

3.4 TRIBUTARY CARDS OVERVIEW ..................................................................................26

3.4.1 High Speed (Ethernet) Cards .....................................................................................26

3.4.1.1 E1/T1 Card..............................................................................................27

3.4.1.2 STM-1/4 and OC-3/12 Interface Card ....................................................27

3.4.1.3 E3/T3 Card..............................................................................................28

3.4.1.4 Ethernet Card ..........................................................................................28

3.4.2 Low Speed Card.........................................................................................................29

3.5 FAN TRAY...................................................................................................................30

4 EOW (ETHERNET ORDER WIRE) WITH VOIP TECHNOLOGY .................................31

4.1 OVERVIEW..................................................................................................................31

4.2 EOW WITH 1+1 PROTECTION ......................................................................................32

4.3 EOW APPLICATIONS...................................................................................................33

4.3.1 Point-to-point using analog phone .............................................................................33

4.3.2 Multipoint with IP address using analog phone only.................................................35

4.3.3 Multipoint with SIP Proxy Server..............................................................................36

4.4 HOW TO SET UP ..........................................................................................................38

4.4.1.4 Line Setup...............................................................................................40

4.4.1.5 Setup Status.............................................................................................41

4.4.2 Using User ID to Represent the IP Address...............................................................41

4.4.3 Accessing the Interactive Voice Response Menu ......................................................42

5 TIMING SOURCE OPERATION ...........................................................................................43

5.1 CLOCK SYNCHRONIZATION OVERVIEW ......................................................................43

5.1.1 Primary Timing Path..................................................................................................43

5.1.2 Timing Path Protection ..............................................................................................44

5.1.3 Timing Choices for Transport Systems......................................................................44

5.2 CLOCK TIMING ON THE O9500R.................................................................................45

5.2.1 Clock Priority.............................................................................................................46

6 LOOPBACK AND DIAGNOSTIC SETUP ............................................................................47

6.1 LOCAL LOOPBACK......................................................................................................47

6.2 LINE LOOPBACK .........................................................................................................47

6.3 PAYLOAD LOOPBACK .................................................................................................47

6.4 PERFORMANCE SETUP ................................................................................................48

7 SYSTEM OPERATION............................................................................................................49

7.1 POWER ON..................................................................................................................49

7.2 SELF TEST...................................................................................................................49

7.3 LOGON TO THE MAIN MENU.......................................................................................49

7.3.1 Logoff and Return to Default.....................................................................................49

7.4 MENU TREE ................................................................................................................50

8 SYSTEM SETUP.......................................................................................................................52

8.1 SYSTEM CONFIGURATION SETUP ................................................................................52

8.1.1 System Setup..............................................................................................................52

8.1.2 SNMP Setup ..............................................................................................................53

8.1.2.1 SNMP System Setup...............................................................................53

8.1.2.2 V1 Community & Trap Setup .................................................................54

8.1.2.3 V3: User-Based Security Model Setup ...................................................55

8.1.2.4 V3: View-Based Access Control Model Setup 1.....................................55

8.1.2.5 V3: View-Based Access Control Model Setup 2.....................................56

8.1.2.6 V3: Target & Notify Setup......................................................................57

8.1.3 Password Setup ..........................................................................................................58

8.1.4 Timing Source............................................................................................................60

8.1.5 Customer Information Setup......................................................................................68

8.1.6 SNTP Setup................................................................................................................69

8.1.7 DHCP Relay Setup ....................................................................................................70

8.1.8 Bridge and Router Setup............................................................................................71

8.1.8.1 Network Interface Setup I .......................................................................71

8.1.8.2 Network Interface Setup II......................................................................72

8.1.8.3 Network Interface Setup III ....................................................................73

8.1.8.4 Static Route Setup...................................................................................74

8.1.8.5 Bridge Spanning Tree Setup I .................................................................76

8.1.8.6 Bridge Spanning Tree Setup II................................................................77

8.1.8.7 Bridge Spanning Tree Setup III ..............................................................78

8.1.9 Hand-waving LED Setup...........................................................................................79

8.1.10 SSH Setup ..................................................................................................................80

8.1.11 M13 Setup..................................................................................................................81

8.2 SDH/SONET SETUP...................................................................................................83

8.2.1 System Mode Setup ...................................................................................................83

8.2.2 Overhead Setup..........................................................................................................85

8.2.2.1 Line Overhead Setup...............................................................................85

8.2.2.2 HO-Path/STS-Path Overhead Setup .......................................................87

8.2.3 ALS/APSD Setup ......................................................................................................88

8.2.4 DCC Channel Setup...................................................................................................89

8.2.5 Path Granularity .........................................................................................................90

8.2.6 MSP APS Command..................................................................................................91

8.2.7 Loopback/Diagnostics Setup......................................................................................91

8.2.7.1 XCU Port Loopback Test ........................................................................92

8.2.7.2 XCU Diagnostics ....................................................................................93

8.2.8 Performance Setup/Clear ...........................................................................................94

8.2.8.1 Clear Performance Data..........................................................................94

8.2.8.2 Performance Threshold Cross Alarm Setup ............................................95

8.2.9 Idle Path Alarm Insertion Setup.................................................................................96

8.2.10 SNCP/UPSR APS Setup ............................................................................................97

8.3 PDH SETUP ................................................................................................................99

8.3.1 QDS 1:1 Protection ....................................................................................................99

8.3.2 PDH Ring Protection ...............................................................................................100

8.3.3 Bit Error Rate Test ...................................................................................................101

8.4 MAP SETUP...............................................................................................................102

8.4.1 Cross Connect Create...............................................................................................102

8.4.2 Cross Connect Delete...............................................................................................106

8.4.3 Path-protected TSA Setup........................................................................................107

8.4.4 Clear XCU Port Cross Connect ...............................................................................108

8.4.5 TE Mapper Setup .....................................................................................................110

8.4.6 More TE Mapper Function ......................................................................................112

8.4.6.1 TE Mapper Setup .................................................................................. 112

8.4.6.2 Trace Message & EPSL Setup .............................................................. 113

8.4.6.3 RDI Mode Setup ................................................................................... 114

8.4.6.4 General Alarm Setup............................................................................. 115

8.4.6.5 Loopback Setup .................................................................................... 116

8.4.6.6 SNCP/UPSR APS Setup ....................................................................... 117

8.4.6.7 Performance Alarm/Threshold Setup.................................................... 118

8.4.6.8 Performance Clear ................................................................................ 119

8.4.7 TSI Function Setup ..................................................................................................119

8.4.8 DS0 TSI Map Setup .................................................................................................120

8.4.9 Active Map Change .................................................................................................121

8.4.10 Map Delete...............................................................................................................121

8.4.11 Map Copy ................................................................................................................121

8.5 ALARM SETUP ..........................................................................................................122

8.5.1 System Alarm Setup I ..............................................................................................122

8.5.2 System Alarm Setup II.............................................................................................124

8.5.3 Line Alarm Mask/Relay Setup.................................................................................125

8.5.4 High-Order/STS Path Alarm Mask/Relay Setup .....................................................126

8.5.5 Low-Order/VT Path Alarm Mask/Relay Setup........................................................127

8.5.6 SDH/SONET Alarm Severity Setup ........................................................................128

8.5.7 External (Environment) Alarm Setup ......................................................................128

8.5.8 SD/SF Threshold Setup............................................................................................130

8.5.9 Insert AIS Alarm Setup............................................................................................131

8.5.10 Alarm Output Setup .................................................................................................132

8.6 FILE TRANSFER.........................................................................................................133

8.6.1 Download Mainboard Firmware..............................................................................133

8.6.2 Download Current Configuration ............................................................................133

8.6.3 Download Backup Configuration ............................................................................134

8.6.4 Upload Current Configuration from FLASH...........................................................134

8.6.5 Upload Backup Configuration from FLASH...........................................................135

8.6.6 Change Firmware Boot Bank...................................................................................135

8.6.7 Copy Firmware to other XCU..................................................................................136

8.7 STORE/RETRIEVE BACKUP CONFIGURATION ............................................................137

8.8 UNIT REGISTRATION.................................................................................................138

9 APPENDIX A: O9500R ALARM TRAP INFORMATION ................................................142

9.1 TRAP DEFINITION .....................................................................................................142

9.2 ALARM QUEUE UNIT: UNIT INDEX ...........................................................................146

9.3 ALARM QUEUE CARD MODEL: CARD MODEL TYPE...................................................147

9.4 ALARM QUEUE REG MODEL: REG. MODEL TYPE ......................................................148

9.5 ALARM QUEUE PORT NUMBER: PORT INDEX............................................................148

9.6 ALARM QUEUE VCCHAN : VC CHANNEL..................................................................148

9.7 ALARM QUEUE ALMNUM 0 ~ 30: SYSTEM ALARM...................................................149

9.8 ALARM TYPE NUMBERS ...........................................................................................150

9.8.1 36 ~ 126: SHD alarm ...............................................................................................150

9.8.2 136~226 SONET Alarm ..........................................................................................151

9.8.3 300 ~ 303: E1T1 alarm ............................................................................................152

9.8.4 500 ~ 502: E3T3 alarm ............................................................................................152

9.8.5 1020 DTE-A (V.35/X.21/V.36/..) / 5RS232 (5X50) card........................................152

9.8.6 1020~1022 8RS232 (8X50) card .............................................................................152

9.8.7 1020~1027 QE1 card ...............................................................................................152

9.8.8 1020~1027 QT1 Card ..............................................................................................152

9.8.13 1431~1439 TDMoE Card ........................................................................................154

9.9 ALARM NUMBER FOR ALARM QUEUE ......................................................................155

10 APPENDIX B INBAND MANAGEMENT ........................................................................157

10.1 INTRODUCTION .........................................................................................................157

10.2 HARDWARE ..............................................................................................................158

10.3 SETUP TSI MAP ........................................................................................................158

LIST OF FIGURES

Figure 1-1 O9500R Application ............................................................................................... 7

Figure 1-2 SDH/SONET SAM for Smart Building Application ................................................. 8

Figure 1-3 GSM Application..................................................................................................... 9

Figure 1-4 POTS Switch Applications...................................................................................... 9

Figure 2-1 O9500R Front Panel View ....................................................................................11

Figure 2-2 Back Panel View and Chassis Ground Location.................................................. 12

Figure 2-3 Location of Rack Mount Ears (Brackets).............................................................. 12

Figure 2-4 O9500RADM Interface Block Diagram ................................................................ 13

Figure 2-5 O9500R Terminal Multiplexer Configuration ........................................................ 14

Figure 2-6 Two Terminal Multiplexers or an ADM.................................................................. 15

Figure 2-7 O9500R Two Fiber Ring ADM.............................................................................. 15

Figure 2-8 One Ring ADM and One TM ................................................................................ 16

Figure 2-9 O9500R Equipment Configuration: Two Ring ADMs ........................................... 16

Figure 3-1 48Vdc Power Module ........................................................................................... 18

Figure 3-2 Connector Card.................................................................................................... 19

Figure 3-3 XCU Card ............................................................................................................. 22

Figure 3-4 E1/T1 Card ........................................................................................................... 27

Figure 3-5 B155/622 Card ..................................................................................................... 27

Figure 3-6 E1/T1 Card ........................................................................................................... 28

Figure 3-7 E1/T1 Card ........................................................................................................... 28

Figure 3-8 Fan Location......................................................................................................... 30

Figure 4-1 Location of the Eow Phone Adapter..................................................................... 31

Figure 4-2 The EoW Front Panel........................................................................................... 31

Figure 4-3 Ethernet Cable Setup for 1+1 Protection ............................................................. 32

Figure 5-1 Primary Timing Path in a Digital Network-1 ......................................................... 43

Figure 5-2 Timing Path Protection in a Digital Network- 2..................................................... 44

Figure 6-1 Loopback Block Diagram ..................................................................................... 48

Figure 7-1 Menu Tree for DISPLAY....................................................................................... 50

Figure 7-2 Menu Tree for SETUP.......................................................................................... 51

Figure 8-1 Aggregate Line Protection Grouping.................................................................... 85

Figure 8-2 Cross Connect Diagram..................................................................................... 104

LIST OF TABLES

Table 3-1 List of O9500R Plug-in Cards ................................................................................ 17

Table 3-2 Pin-out for -48 DC Connector ................................................................................ 18

Table 3-3 DB9 Console Port Pin-out Table ............................................................................ 19

Table 3-4 Pin-out for Alarm Input Connector ......................................................................... 20

Table 3-5 Pin-out for Alarm Output Connector....................................................................... 20

Table 3-6 RJ-45 Pin out for Clock Input/Output ..................................................................... 21

Table 3-7 Functions of XCU LEDs......................................................................................... 22

Table 3-8 Function of XCU Buttons ....................................................................................... 22

Table 3-9 Function of XCU Connectors ................................................................................. 22

Table 3-10 LED Indication for XCU Card............................................................................... 23

Table 3-11 RJ-45 Pin out for Ethernet Port............................................................................ 25

Table 3-12 Fan Control Temperatures ................................................................................... 30

Table 4-1 Interactive Voice Response Menu ......................................................................... 42

Table 6-1 Performance Monitoring Parameters..................................................................... 48

Table 7-1 Command Group Functions................................................................................... 50

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GR .

PRC ,

CHAPTER 1 PRODUCT DESCRIPTION

1

1 PRODUCT DESCRIPTION

1.1 Description

The Loop-O9500R SDH/SONET IMAP (Integrated Multi-service Access Platform) is an economical STM-1/4 (OC-3/12) access multiplexer designed to provide integrated access to STM-1/4 (OC-3/12) optical lines through either a non-blocking VC11/VC12/VC3/VC4 cross-connect with HS (High Speed) modules or through an additional non-blocking DS0 cross-connect fabric with LS (Low Speed) modules. The 6U shelf supports: - 4 HS tributary module slots - 6 LS tributary module slots With up to 4 aggregate optical STM-1/4 (OC-3/12) or electrical STM-1/OC-3 line interfaces, the Loop-O9500RSDH/SONET IMAP offers service providers a versatile protection scheme including UPSR/SNCP and MSP(1+1) protection for both ring and linear network topology. It can work with the Loop-O9100 and Loop-O9400 in the same topology. The HS tributary modules include optical STM-1/4 (OC-3/12), E3/T3, E1/T1 interfaces and Fast Ethernet over STM-1/4 (OC-3/12). Fast Ethernet signals are mapped onto STM payload through standard techniques GFP, LAPS, VCAT and LCAS. These HS modules are identical to those used in the rack version of the Loop-O9400. The LS tributary modules are connected through a full non-blocking DS0 cross-connect and together can act as a mini DACS. The modules include 4channel E1/T1, dry contact I/O, G.HSDSL, bridge and router card, FXS and FXO voice card, E&M, RS232, low speed optical cards, DTE cards and so on. All LS modules are identical to those used in rack version of the Loop-AM3440. All interfaces are fully compliant with the relevant ETSI standards and ITU recommendations. The SDH/SONET IMAP provides full Operation, Administration, Maintenance and Provisioning (OAM&P) functionality. Users can easily operate SDH/SONET IMAP locally or remotely for centralized management with LoopView (EMS) and Loop-iNMS (integrated NMS).


2

1.2 Specification

High Speed or High Density Tributary Modules Max. Number of Aggregate Lines 4 STM-1/4 (OC-3/12) aggregate optical lines or 4 STM-1 (OC-3) aggregate electrical lines

Max. Number of Tributary Lines 4 STM-4 (OC-12) tributaries without protection 8 STM-1 (OC3) tributaries without protection 12 E3/T3 tributaries without protection 252 E1/T1 tributaries without protection 4 GbE +32 FE EoS with build in L2 switch tributaries without protection 4 GbE or 32 FE EoS without build in L2 switch tributaries without protection SFP Module Characteristics (Please reference to SFP optical module brochure) T1 Interface Line Rate 1.544 Mbps 32 ppm Jitter ITU G.824 Line Code AMI/B8ZS Framing Unframed with a framing monitor

on receiving side Input Signal ITU G.703 DSX-1 0dB to 6dB Impedance 100 ohm twisted pair Output Signal ITU G.703 DSX-1 w/short (0-110,

110-220, 220-330, 330-440, 440-550 feet)

Connector SCSI-II 68-pin One connector for 16 ports Two connectors for 32 ports Four connectors for 63 ports

Output Mask Bellcore GR-499-core E1 Interface Line Rate 2.048 Mbps 50 ppm Jitter ITU G.823 Line Code AMI/HDB3 Framing Unframed with a framing monitor

on receiving side Input Signal ITU G.703 Impedance 75 ohm coax/120 twisted pair Output Signal ITU G.703 Connector SCSI-II 68-pin

One connector for 16 ports Two connectors for 32 ports Four connectors for 63 ports

Output Mask ETS 300 689 Sec.4.2.1.2 ITU G.703 E3 Interface Line Rate 34.368 Mbps 20ppm Jitter ITU G.823 Line Code HDB3 Framing Unframed, G.751 Input Signal ITU G.703 Impedance 75 ohm coax Output Signal ITU G.703 Connector BNC connector Output Mask ETS 300 689 Sec.4.2.1.2 ITU G.703 T3 interface Line Rate 44.736 Mbps 20ppm Jitter ITU G.824 Line Code B3ZS Framing Unframed, M13/Mx3, G.747 Input Signal ITU G.703 Impedance 75 coax Output Signal ITU G.703 Connector BNC connector Output Mask Bellcore GR-499-core Fast Ethernet interface Line Rate 10/100M bps Mapping n x VC12, n x VC3, or n x VC4

RSTP (802.1W), Connector RJ45 VLAN (802.1Q, 802.1P) Flow Control (802.3X) MSTP (802.1S) IGMP Snooping

Layer2 Protocol

QoS Prrocess Protocol VCAT, GFP(G.7041), LAPS,

LCAS(G.7042), and non-LCAS


1

Gigabit Ethernet interface Line Rate 10/100/1000Mbps Mapping n x VC12, n x VC3, or n x VC4 Layer2 Protocol RSTP (802.1W), Connector RJ45 VLAN (802.1Q, 802.1P) Flow Control (802.3X) MSTP (802.1S) IGMP Snooping QoS Process Protocol VCAT, GFP(G.7041), LAPS,

LCAS(G.7042), and non-LCAS

7 FOM Fiber Optical Interface Port number 7 Source Laser Line

Code Scrambled NRZ

Wavelength 1310 50 nm, 1550 40 nm Optical Line Rate 38.84Mbps Connector SFP housing with LC type Reach 2~240 Km

(For more detail, please refer to the SFP table below)Protection 1+1 Line Protection

Diagnostics Test

Optical Fiber Local and remote loopbacks E1 Link Local and remote loopback, send test pattern Low Speed Tributary Modules Network Line Interface - 4 E1 Line Rate 2.048 Mbps 50 ppm Framing ITU G.704 Line Code AMI or HDB3 Connector BNC/RJ48C Input Signal ITU G.703 Electrical 75 ohm Coax/120 ohm twisted pair Output Signal ITU G.703 Jitter ITU G.823 Network Line Interface - 4T1 Line Rate 1.544 Mbps 32 ppm Output Signal DSX1w/0, -7.5, -15 dB LBO Line Code AMI or B8ZS Framing D4/ESF (selectable) Input Signal DSX-1 0 dB to -30 dB w/ALBO Connector RJ48C Network Line Interface - 3E1 Line Rate 2.048 Mbps 50 ppm Framing ITU G.704 Line Code AMI or HDB3 Connector BNC/RJ48C Input Signal ITU G.703 Electrical 75 ohm Coax/120 ohm twisted pair Output Signal ITU G.703 Jitter ITU G.823 Function Support DS0-SNCP G.shdsl Line Interface (2GH/4GH) Number of ports 2 or 4 Line Rate for 4-channel G.shdsl n x 64Kbps (n= 3 to 31) Line Rate for 2-channel G.shdsl n x 64Kbps (n= 3 to 15) Line Code 16-TCPAM, full duplex with adaptive echo cancellation Connector RJ45 Electrical Unconditioned 19-26 AWG twisted pair Sealing current Max. 20 mA source current Clock Source From System, Line Diagnostic Test G.SHDSL Loopback: To-LINE, To-bus

BERT: QRSS DTE(X.21/V.11) Interface (-6X21A) Data Port Up to six 6-port DTE X.21 card; 1-port DTE X.21 card (future option) Data Rate 56 or 64 Kbps, n = 1 to 32 Connector DB15


1

DTE (V.35/ V.36) Interface (6V35A/6V36A) Data Port Up to six 6-port DTE V.35/ V.36 cards Data Rate 56 or 64 Kbps, n = 1 to 32 Connector For V.35 card: DB25S (optional conversion cable DB25S to M34 connector)

For V.36 card::DB25S (optional conversion cable DB25S to DB37 connector) DTE (EIA530/RS449) Interface (6 EIA530A/6RS449A) Data Port Up to six 6-port EIA530 DTE card Data Rate 56 or 64 Kbps, n = 1 to 32 Connector DB25S (optional conversion cable DB25S male to DB37 female connector for RS449) C37.94 Interface (1/4C37) Source LED Wavelength 820nm 2Km reach Connector ST Optical Budget 50 Mircon core/9.6 db

62.5 Mircon core/ 15db Dry Contact I/O card (8DC) Inputs - Outputs - 8-channel 2-port per card, 4-pair per port 8-channel 8-pair per card Connector RJ45 Connector Screw type Internal Resistance 1 K Initial Insulation Resistance Min. 100M ohm (at 500 Vdc) Activation Current 3 mA Max. Current 5A Deactivation Current 1.5 mA Max. Voltage 100 Vdc, 250 Vac Allowable Current 4 mA Dry Contact Type B Interface Inputs - Outputs - 8-channel 2-port per card, 4-pair per port 8-channel 8-pair per card Connector RJ45 Connector Screw type Internal Resistance 100 K Initial Insulation Resistance Min. 1000M ohm (at 500 Vdc) Activation Current 3 mA Max. Current 2A Deactivation Current 1.5 mA Max. Voltage 220 Vdc, 250 Vac Allowable Current 4 mA Co-directional (G.703) card Interface ITU G.703 64 Kbps co-directional interface Connector 120ohm, RJ48 Line Distance Up to 500 meters Loopack DTE Payload Loopback, Local Loopback Router-B Interface (RTB) Number of ports 8 LAN ports, Max. 64 WAN ports. Each WAN port has data rate n x 64K bps, 1 n 32

( 8Mbps for total of all 64 WAN ports Physical Interface 10/100 BaseT x 8 Connector RJ45 Routing protocol RIP-I, RIP-II, OSPF, Static Supporting Protocols PPP (IPCP/BCP), MLPPP, HDLC, Frame Relay, and Cisco compatible HDLC, NAT/NAPT,

DHCP Diagnostic Ping, Trace route QoS Rate limit DTE(RS232-X.50 mux. 8-port) Interface (RS232/V.24) Data Port Up to twelve 8-port RS232 cards MUX Maximum 5 subrate port per 64K bps

Mux mode 0.6K, 1.2K, 2.4K, 4.8K, 9.6K Asynchronous Independent mode 0.6K, 1.2K, 2.4K, 4.8K, 9.6K, 19.2K, 38.4K Mux mode 0.6K, 1.2K, 2.4K, 4.8K, 9.6K

Data Rate

Synchronous Independent mode 0.6K, 1.2K, 2.4K, 4.8K, 9.6K, 19.2K, 38.4K, 48K, 64K

Port Number Card Type 1 2 3 4 5 6 7 8 Eight RJ48 Async Async Async Async Async Async Async Async Two DB44 + Two RJ48 Async/Sync Async/Sync Async Async/Sync Async/Sync Async Async Async

Eight RJ48 (port 1 to port 8) Connector DB44 (port1,port2,port3), DB44 (port4,port5,port6), RJ48 (port7) and RJ48(port8)


2

Conversion Cable A three-into-one conversion cable adapts the DB44 connector to 3 connecters (one DB9S and two DB25S)Electrical RS232 Interface, DCE Voice Card- E&M

Connector Eight RJ45 Alarm Conditioning CGA busy after 2.5 seconds of LOS, LOF Encoding A-law or -law, user selectable together for all Impedance Balanced 600 or 900 ohms Longitudinal Conversion Loss > 46dB Longitudinal Balance > 63dB Gain Adjustment (Per-port setting) -10 to +7 dB / 0.1dB step for transmit (D/A) gain

-10 to +14 dB / 0.1dB step for receive (A/D) gain I/O voice power range A/D digital input level: -66 dBm (0.00039 Vrms) ~ + 3 dBm (1.09 Vrms)

D/A analog output level: -66 dBm (0.00039 Vrms) ~ + 7 dBm (1.74 Vrms) Signal/Distortion > 25dB with 1004 Hz, 0dBm input Frequency Response - 0.25 to -1 dB from 300 to 3400 Hz Carrier connection Side A ( exchange side) and Side B (carrier side) setup by side switch Idle Channel Noise Max. 65 dBm0p wire mode 2 wire and 4 wire (programmable) Signaling Type 1, Type 2, Type 3, Type 4, and Type 5, Transmit only (programmable) Modems Full compatibility with V.90 modems All in-band signaling tones are carried transparently by the digitizing process. Customer is responsible for in-band signaling compatibility between a telephone and a switch, or between a PBX and a switch.

Voice Card (12FXS, 12FXO, 24FXS, 24FXO) 12 FXS/FXO Connector Twelve RJ11 24 FXS/FXO Connector One RJ21X Female Alarm Conditioning CGA busy after 2.5 seconds of LOS, LOF Encoding A-law or -law, user selectable together for all AC Impedance Balanced 600 or 900 ohms (selectable together for all) Longitudinal Conversion Loss > 46dB Cross talk measure Max -70dBm0 Gain Adjustment -21 to +10 dB / 0.1dB step transmit & receive Signal/ Distortion > 25dB with 1004 Hz, 0dBm input Frequency Response - 0.25 to -1 dB from 300 to 3400 Hz, coincide with ITU-T G.712 Idle Channel Noise Max. 65 dBm0p Variation of Gain 0.5dB FXO Ringing REN 0.5B (AC)

Detectable Ringing 25 Vrms Loop Resistance 1800 DC Impedance (ON-HOOK) > 1M DC Impedance (OFF-HOOK) 235 @ 25mA feed 90 @ 100mA feed FXS Loop Feed -48Vdc or -24Vdc with 25mA current limit per port

Jumper Selectable: 25mA, 30mA, 35mA FXS signalling Normal / Automatic Ring down FXS Ringing 1 REN at 5K meters per port

16.7Hz, 20Hz, 25Hz, 50Hz, user selectable for all ports 38 to 85 Vrms (sine wave), 76 Vrms for default Ring Voltage 2 sec on 4 sec off, or 1 sec on 2 sec off optional for PLAR Signaling Loop Start, DTMF, pulse, PLAR, Battery Reverse Optional Signaling (for special order)

Ground Start, Metering pulse (12 KHz, 16 KHz), and P( in PLAR mode, PLAR signalling bits are programmable.

Signaling Bit A,B,C,D Programable bit z All in-band signaling tones are carried transparently by the digitizing process. z Customer is responsible for in-band signaling compatibility between a telephone and a switch, or between a PBX and a switch.z -24Vdc power is for FXS PCB version L and up

Voice Card 12 MAG (Magneto) Connector Twelve RJ11 Alarm Conditioning CGA busy after 2.5 seconds of LOS, LOF Encoding A-law or -law, user selectable together for all Impedance Balanced 600 or magneto telephone impedance match Longitudinal Conversion Loss > 46dB Gain Adjustment -21 to +10 dB / 0.1dB step transmit & receive


3

Signal/ Distortion > 25dB with 1004 Hz, 0dBm input Frequency Response - 0.25 to -1 dB from 300 to 3400 Hz, coincide with ITU-T G.712 Idle Channel Noise Max. 65 dBm0p Min Detectable Ringing Voltage 16 Vrms Ringing Detectable Across L1 and L2 (Tip and Ring), L1 and GND (Tip and GND)

Voltage: 76 Vrms (sine wave) Frequency: 20Hz

Ringing Generation

Cadence: 1 sec on 2 sec off, or 2 sec on 4 sec off Ringing Send Across L1 and L2 (Tip and Ring), L1 and GND (Tip and GND) Signaling Magneto MRD(Ringing across Tip and Ring or Tip and Ground) Signaling Bit A,B,C,D Programable Signaling is carried transparently by the digitizing process. Use Magneto card default setting for communications between magneto telephones Use Magneto card PLAR mode setting for communications between a magneto telephone and a regular telephone

Conference Card*

RS232 Interface Data Port 2-ports per card ASYNC Data Rate 300, 600, 1.2K, 2.4K, 4.8K, 9.6K, 19.2K SYNC not supported Connector Two DB9, DCE, female

FXS Voice Interface

Connector Two RJ11 Encoding G.723 Longitudinal Conversion Loss > 46dB Cross Talk Measure Max -70dBm0 Gain Adjustment transmit (D/A) gain 0, +6dB

receive (A/D) gain +6, 0, -6dB Signal/ Distortion > 25dB with 1004 Hz, 0dBm input Idle Channel Noise Max. 65 dBm0p Loop Resistance Max 1800 ohm FXS Loop Feed Normal -48 Vdc with 25mA current limit

2 REN 20Hz 76 Vrms

FXS Ringing

2 sec on / 4 sec off for 1 min, or 1 sec on / 2 sec off for 30 sec (programmable)

Signaling Loop Start, DTMF

E&M Voice Interface Connector Two RJ45 Encoding G.723 Impedance Balanced 600 ohms Longitudinal Conversion Loss > 46dB Gain Adjustment transmit (D/A) gain 0, +6dB

receive (A/D) gain +6, 0, -6dB Signal/Distortion > 25dB with 1004 Hz, 0dBm input Idle Channel Noise Max. 65 dBm0p Carrier Connection Side A = exchange side, Side B = carrier side (Jumper selectable) Phone line power+12V Type P (Jumper enable) Operation mode Master, standard (Jumper selectable) Wire Mode 4 wire Signaling Type Type 1, Type 4, and Type 5 (Jumper selectable)

Single rainging for 5 sec only EM Ringing 2 sec on / 4 sec off for 1 min, or 1 sec on / 2 sec off for 30 sec (programmable)


4

TDMoE Combo Gigabit Ethernet(GbE) Interface

Number of Ports 2 Speed 10/100/1000M bps Connector RJ45 for twisted pair GbE, LC for optical GbE, auto detection

Gigabit Ethernet(GbE) Interface

Number of Port 2 Speed 10/100/1000 BaseT Connector RJ45

Ethernet Function

MDI/MDIX for 10/100/1000M BaseT auto-sensing Basic Features Ping function contained ARP Per port, programmable MAC hardware address learn limiting (max. MAC table 8192 (8k) entry) Packet Delay Variation:

- Unframed T1: Up to 340 ms - Framed T1: Up to 256 ms - E1:up to 256 ms - Framed T1 with CAS: Up to 192 ms

Packet Transparency Packet transparency support for all types of packet types including IEEE 802.1q VLAN and 802.1ad (Q-in-Q)

QoS User configurable 802.1p CoS, ToS in out going IP frame Ingress packet Rate limiting buckets per port for ethernet port Traffic Control Supporting Rate-based and Priority-based rate limiting for LAN port Granularity:

a. From 64 Kbps to 1 Mbps in increments of 64 Kbps b. From 1 Mbps to 100 Mbps in increments of 1 Mbps c. From 100 Mbps to 1000 Mbps in increments of 10Mbps

Pause frame issued when the traffic exceeding the limited rate before packet dropped following IEEE802.3X

Link Aggregation WAN support link aggregation Jitter & Wander PPM: per G.823 Traffic

Standard Compliance IETF TDMoIP (RFC5087), SAToP (RFC4553), CESoPSN (RFC5086) IEEE 802.1q, 802.1p, 802.1d, 802.3, 802.3u, 802.3x, 802.3z, 802.1s, 802.1w, 802.1AX

EoW with VoIP Technology Data Networking Router or Bridge Mode of Operation Voice Gateway SIPv2 Session Initiation Protocol Version 2 (RFC3261, 3262, 3263, 3264) Voice Algorithms G.711 (A-law and mu-law) Attenuation Gain Adjustments Physical Interfaces Two RJ-45 Port Ethernet 100BaseT Interface (IEEE 802.3) Two RJ-11 FXS Port For Analog Circuit Telephone Device (Tip/Ring) Subscriber Line Interface Circuit(SLIC) Ring Voltage 40 55 VRMS Configurable Ring Frequency 10Hz 40Hz Ring Waveform Trapezoidal and Sinusoidal Max. Ringer Load 3 REN On-hook/off-hook Characteristics


5

Regulatory Compliance FCC Part 15 Class B CE Mark ICES-003 ESD level Class B

Air: 8Kv; Contact: 4Kv Power Supply DC Input Voltage: +5 VDC at 2.0 A Max. Power Consumption 5 Watts Indicator Lights Indicator Lights/LED Power Storage Temperature Storage Temperature -13F to 185F (-25C to 85C) Unit Dimensions W x H x D 122.5mm x 43.7mm x 92.8mm

On-hook voltage (tip/ring) : -50 V NOMINAL Off-hook current : 20 mA min Terminating Impedance : 600 ohms

System Clock Clock Source Internal clock

4 aggregate lines clocks (STM-1/4 (OC-3/12)) External clocks: 2.048MHz or 2.048Mbps for STM-1/4, 1.544M bps for OC-3/12 Management Interface LED Multi colors Console Electrical: RS232 Connector: DB9S (DCE) Protocol: Menu driven VT-100 SNMP SNMPv1, v3 (RFC1213, RFC2863, RFC1493) OSS interface 10/100BaseT FE (IEEE 802.3u ) NE/NE interface DCC/HDLC/Ethernet type II Alarm Input/Output Inputs Outputs Channel 4 Channel 4 Connector RJ45 Connector RJ45 Internal Resistance 1K Initial Insulation Resistance Min. 100M ohm (at 500Vdc)Activation Current 3 mA Maximum switching voltage 110 V DC, 125 V AC Deactivation Current 1.5 mA Allowable Current 4 mA

Diagnostics

XCU card Loopback Test Local loopback, payload loopback, line loopback BERT Test Optical interface Direction: to optical lines

B155/622 card Loopback Test Local loopback, payload loopback, line loopback: BERT Test Optical interface Direction: to optical lines

E1/T1 card Loopback Test Local loopback, line loopback: BERT Test E1/T1 interface Direction: to optical lines, to tributary lines Performance Monitor Performance Reports Performance Parameters: Error Block (EB), Background Block Error (BBE), Error Second(ES), Burst


6

Error Second (BES), Severe Error Second (SES), Unavailable Second(UAS)

System Alarm Alarm Cut Off, Power Loss/Uneqp, Fan Fail, Fan Module Uneqp, Overheat, TS Sync Loss, Logon and Logout, Optical Port Uneqp, Card In,Card Out, Card Type Mismatch, Card Port Number Mismatch, Card Fail, Card Registration, SNCP Switch, MSP Switch, Trib Protection Sync, Standby

XCU Takeover, Standby Trib Takeover, XCU Sync, SFP Tx Fail, SFP Rx Fail, SFP Temperature, LS Protection, LS ID Mismatch

Line PI-LOS RS-LOF RS-TIM MS-SD MS-SF MS-AIS

MS-RDI MS-REI B1-BIP B2-BIP

Ho-Path AU-LOP AU-AIS HP-SD HP-SF HP-UNEQ HP-PLM HP-TIM HP-RDI-P HP-RDI-S HP-RDI-C HP-LOM HP-REI, HP-B3-BIP

SDH

Lo-Path TU-LOP TU-AIS LP-SD LP-SF LP-UNEQ LP-PLM LP-TIM LP-RDI-P LP-RDI-S LP-RDI-C LP-V5-REI LP-V5-BIP

Line LOS-PI, LOF-S, TIM-S, SD-L , SF-L ,

AIS-L , RDI-L , REI-L, B1-BIP, B2-BIP STS-Path LOP-P, AIS-P, SD-P, SF-P, UNEQ-P, PLM-P, TIM-P,

RDI-P-P, RDI-S-P, RDI-C-P, RDI-P-P, LOM-P, REI-P, B3-BIP-P

Alarm History

SDH/SONET Line Alarm

SONET

VT-Path LOP-V, AIS-V, SD-V, SF-V, UNEQ-V, PLM-V, TIM-V, RDI-P-V, RDI-S-V, RDI-C-V,V5-REI-V, V5-BIP-V

Alarm Queue Contains up to 300 alarm records of latest alarm types, alarm severity, date, and time.

Electrical DC Power -48Vdc (-36 to -72 Vdc) Power consumption 240 Watts Physical and Environmental Dimensions for 6U 433mm x264mm x 223.5mm (W/H/D) Temperature 0 to 50C Humidity 0-95%RH (non-condensing) Mounting Desk-top stackable, 19/23 inch rack mountable, and wall mountable Certifications EMI/EMC EN55022 Class A, EN50024

FCC Part 15 Class A, Safety IEC60950-1 Standards Compliance ITU-T G.707, G.7041, G.7042, G.775, G.783, G.806, G.823, G.747, X.86, G.664 ANSI T1.105, T1.107 IEEE 802.1q (VLAN), 802.1w (RSTP), 802.1s(MSTP), 802.1ad (stack VLAN),

802.3x (flow control), 802.1p (QoS) * Future Option


7

1.3 Application

O9500R can be configured as either a Terminal Multiplexer (TM), a Linear Add/Drop Multiplexer (ADM),

or as a cross-connect (DACS) with the same enclosure. With UPSR/SNCP, and MSP (1+1) protection,

O9500R can easily provide a well-protected transmission path and integrated access in various

applications as shown below.

Figure 1-1 O9500R Application


8

STM -4/1, O C-12/3 R ing

Video

Router

Fax

PBX

PC

PCPC

Fax

PC

PCPC

PO TSG .703

G .SHDSLE1/T1

Ethernet

Hub

Video

PCPC PC

Fax

Ethernet Sw itch

ADMSDH/SO NET Backbone

ADM

ADM

ADM

PO TSG .703

G .SHDSLE1/T1

EthernetPO TSG .703

G .SHDSLE1/T1

Ethernet

STM -4 /O C-12 or STM -1/O C-3

Inter-connection

O 9500O 9500

O 9500 O 9500

Figure 1-2 SDH/SONET SAM for Smart Building Application


9

STM-4/1 (OC-12/3) Ringwith UPSR/SNCP protection

E1

LOOP S-AXM

BSC (Base Station Controller)

BTSE1

E1E1

E1

E1

BTSBTS

BTS

BTS

GSM Network

LOOP S-AXM

LOOP S-AXM

LOOP S-AXM

LOOP S-AXM

LOOP S-AXM

Figure 1-3 GSM Application

STM -4/1, O C-12/3R ing

E1/E3/STM -1, T1/DS3/O C-3

E1/T1

E1/T1

Rem ote Sw itch

E1/T1

Rem ote Sw itch

E1/T1

Rem ote Sw itch

E1/T1

Rem ote Sw itch

Rem ote Switch

..

..

..

..

PO TS Switchon Central S ite

?

LO O P S -AXM

LO O P S -A XM

LO O P S -A XM

LO O P S-A XM

LO O P S-AXM

LO O P S-A XM

Figure 1-4 POTS Switch Applications

CHAPTER 2 INSTALLATION

10

2 INSTALLATION

Chapter two provides introduction to all hardware units of O9500Rand their detailed set-up procedures. Both mechanical and electrical installations are included.

2.1 Site Preparation

Ensure that your installation site confirms to all environmental and structural regulations. A power supply

must be available that conforms to the O9500R power requirements.

2.2 Mechanical Installation

Wear a grounding wrist strap while installing the Loop equipment. Familiarize yourself with the

instructions in this manual before commencing any work.

2.2.1 Overview

When installing O9500R equipment into racks, follow these guidelines:

Consider the effect of additional electronic equipment and its generated heat on the O9500R

system equipment.

Make sure the equipment rack is properly secured to the ground and, if required, to the

ceiling.

Ensure that the weight of the equipment does not make the rack unstable.

When mounting equipment between two posts or rails, ensure that the minimum clearance

between the sides is 485 mm (19 in.).

Maintain a minimum clearance of 500 mm (19.7 in.) in front of the equipment and 500mm

(19.7 in.) at the rear.

Note: For proper operation of the O9500R and the terminal server module in particular, the O9500R chassis must be grounded. Connect the chassis ground screw to a good earth connection with an AWG 16

wire at least.


11

Figure 2-1 O9500R Front Panel View

2.2.2 Chassis Grounding

The chassis is grounded when rack mounted. If extra grounding protection for rack mounted units is

desired, a dedicated chassis ground screw and lock washer is provided. The chassis ground screw is

located on the right hand side of the rear panel as shown below.

When attaching a ground wire to the chassis ground screw, please follow these instructions.

y Use copper grounding conductors of 16 AWG y Conductors should not be of dissimilar metals. y The bare conductors should be coated with anti-oxidant before crimp connections are made. y Any un-plated connection surfaces, connectors, braided strap and bus bars must be bought to a bright

finish and coated with anti-oxidant before connections are made.


12

Figure 2-2 Back Panel View and Chassis Ground Location

2.2.3 Rack Mounting Instruction

Rack mounting ears (brackets) and screws are included in the Loop-O shipping package. Four M3 screws

are used to secure each ear to threaded screw-holes in the side panels of the Loop device. These should

be tightened to a torque value of 10Kgf-cm with a Phillips #2 screwdriver.

Figure 2-3 Location of Rack Mount Ears (Brackets)


13

After the unit is placed into the rack cage, insert two flathead rack mounting screws (also included in the

shipping package) through each ear to secure the Loop unit to the cage. These screws should be tightened to a torque value of 10Kgf-cm with a medium tip screwdriver.

2.2.4 Interface Block Diagram

Figure 2-4 O9500RADM Interface Block Diagram

2.3 Electrical Installation

2.3.1 Power Connection

The power connection on your unit will be DC 48Vdc (-36 to 72Vdc) 3 pin terminal block. The power switch should be in the OFF position while you connect the power source.

Caution: Do not (under any circumstances) connect the O9500R unit to a power source that is inconsistent with the power rating labeled on the rear of the device. Do not (under any circumstances)

remove the power module from the O9500R device while it is connected to live power source.

Disconnect the module from the power source before removing it from the O9500R.

2.3.2 Fiber Optic Line Connections

To install fiber-optic cables in the O9500R, connect a fiber cable with an LC type connector to the

transmission and receive ports of the transmission system.


14

2.4 Configuration Type

Item Maximum Capacity STM-1 4 MSP 1 + 1 or 4 Subring SNCP/UPSR or 6 STM-1 with or without MSP GbE + FE 4 GbE + 32 FE High Speed E1 252 E1 with or without protection, or 126 E1 with 1+1 card protection High Speed E3 12 E3 with or without protection, or 6 E3 with 1+1 card protection PDH Cross-connect 12 E1/28 T1 O9500R is capable of supporting STM-4 /OC-12 point-to-point connection as a Terminal Multiplexer on the

aggregate line side. The protection scheme is MSP (1+1), whereby both fiber cut and XCU card failure are

protected.

Figure 2-5 O9500R Terminal Multiplexer Configuration

O9500R also supports two STM-4 Terminal Multiplexers from the APSG1 & APSG2 on the aggregate line side. The protection scheme is MSP(1+1). These two terminal multiplexers in a back-to-back configuration form an ADM. This ADM can be used as a middle node of an ADM chain, still with MSP(1+1)

protection against both fiber cuts and XCU failures.


15

Figure 2-6 Two Terminal Multiplexers or an ADM O9500R is capable of supporting Main STM-4/OC-12 ring on the aggregate line side. The Main

STM-4/OC-12 ring can be supported from the APSG1 or APSG2 on the two XCU cards. The ring

protection scheme can be either SNCP/UPSR or two-fiber MS-SPRing/BLSR.

Figure 2-7 O9500R Two Fiber Ring ADM


16

O9500Ris capable of supporting one Main STM-4 ring plus one Main STM-4 terminal multiplexing on the aggregate line side.

Figure 2-8 One Ring ADM and One TM

O9500R is capable of supporting two main STM-4 rings on the aggregate line side. The two STM-4 rings are supported from the APSG1 and APSG2 on the two XCU cards.

Figure 2-9 O9500R Equipment Configuration: Two Ring ADMs

CHAPTER 3 O9500R Interface

17

3 O9500R Interface

This chapter introduces the hardware interface and tributary modules on the O9500R: the power module, connector, XCU, the fan, the high speed and low speed plug-in cards. Below is the list of HS and LS plug-in cards used in O9500R.

Tributary Type Plug-in Interface Cards STM-1/4 (OC-3/12) tributaries 63 port E1/T1 tributaries 32 port E1/T1 tributaries 16 port E1/T1 tributaries 3 port E3/T3 tributaries 3 port E3/T3 with M13 function option

High-Speed or High Density Access Tributary Modules

(HS)

EoS (8FE+1GBE) Ethernet card with built in L2 switch 8 port Bridge/Router 4 channel E1/T1 8 channel Dry Contact I/O-A 8 channel Dry Contact I/O-B 2 channel G.SHDSL (2 pairs) w/o line power 4 channel G.SHDSL (1 pairs) w/o line power 8 channel 2W/4W E&M 12 channel FXS 12 channel FXO Magneto 1 or 4 channel C37.94 (low speed optical) 6 channel V.35 6 channel V.36 6 channel X.21 8 channel RS232 / EIA530 G.703 co-directional Conference Card*

Low-Speed Access Tributary Modules

(LS)

TDMoE *Future Option

Table 3-1 List of O9500R Plug-in Cards


18

3.1 Power

3.1.1 Power module, -48V DC

The -48V DC supply input is provided via a 3 pin power connector with the following pin-out:

Pin Signal -V -48V +V +48V

GND

Table 3-2 Pin-out for -48 DC Connector

Figure 3-1 48Vdc Power Module


19

3.2 Connector Card (CONN)

The O9500R Connector Card contains the following interfaces:

y DB9 console port for VT100 interface y RJ45 connector for Alarm Output y RJ45 connector for Alarm Input y RJ45 connector for Clock Input/Output

Figure 3-2 Connector Card

3.2.1 VT-100 Terminal Interface

On the connector card is a DB9 console port for VT-100 monitor connection. The interface runs at a data rate of 9600 baud. Pin out details are displayed in the table below.

Pin Signal 1 DCD 2 TXD 3 RXD 4 NC 5 GND 6 DSR 7 NC 8 CTS 9 NC

Table 3-3 DB9 Console Port Pin-out Table


20

3.2.2 Alarm Interface

The O9500R provides facilities to report a minimum of 4 auxiliary alarm inputs for associated

equipment, e.g. power unit failure battery condition, cabinet door etc. and 4 dedicated alarm

outputs. The alarm outputs are related to the unit alarm indicator and the traffic alarm indicator.

The alarm inputs are reported to the management system and are activated by a close or open

Loop condition between a pair of contacts.

3.2.3 Alarm Input/ Output

The alarm input interface connector is a RJ-45 connector. The pin out is defined in the table below.

PIN Signal 1 Alarm input 1 POWER 2 Alarm input 1 GND 3 Alarm input 2 POWER 4 Alarm input 2 GND 5 Alarm input 3 POWER 6 Alarm input 3 GND 7 Alarm input 4 POWER 8 Alarm input 4 GND

Table 3-4 Pin-out for Alarm Input Connector

The alarm output interface connector is a RJ-45 connector, with the pin-out defined in the table

below.

PIN Signal Description 1 NC Critical alarm output pin 1 2 COM Critical alarm output pin 2 3 NC Major alarm output pin 1 4 COM Major alarm output pin 2 5 NC Minor alarm output pin 1 6 COM Minor alarm output pin 2 7 NC Informative alarm output pin 1 8 COM Informative alarm output pin 2

NC = Normal Close COM = Common

Table 3-5 Pin-out for Alarm Output Connector


21

3.2.3.1 Clock Input/Output

External timing input and output is provided on 8 pin RJ-45 connector, with the following pin-out:

PIN Signal Description 1 TX TIP 1 2 TX RING 1 3 RX TIP 1 4 RX RING 1

External Clock 1

5 TX TIP 2 6 TX RING 2 7 RX TIP 2 8 RX RING 2

External Clock 2

Table 3-6 RJ-45 Pin out for Clock Input/Output


22

3.3 XCU Card

The XCU Card (Controller Card) is used for management and cross-connect

functions. O9500R supports up to 2 XCU cards. If one of the XCU cards

fails, the system will automatically shift to the other XCU card and continue

its operation.

3.3.1 XCU Card LEDs

The XCU card has multi-color LEDs for operation and error indications. The

indication is either off, steady on, or flickering (flashing). The following table

lists each LED and its color and the meaning it represents.

XCU LEDs Description ACTIVE System Active ALM System Alarm status (Major Alarm, Minor Alarm) TEST Test in progress P1 622M/155M P2 622M/155M

STM-4/OC12 or STM-1/OC-3 indication LEDs for Port 1 and Port2

P1 LOS P2 LOS

Port1/Port 2 loss of signal

ACO Alarm Cut-Off status, Yellow/Off Act/Col SNMP LAN port Activity or Collision indication 10/100 SNMP LAN port link speed P1a The alarm status of Aggregate Port #1 P2a The alarm status of Aggregate Port #2

Table 3-7 Functions of XCU LEDs

XCU Buttons Description RST CPU Reset Button, of Non-traffic affecting ACO Alarm Cut-Off Button

Table 3-8 Function of XCU Buttons

XCU Connector Name/Type

Description

SNMP/ RJ-45 The SNMP LAN port (4 pins) P1/ FC or BNC The Aggregate Port #1 P2/ FC or BNC The Aggregate Port #2

Table 3-9 Function of XCU Connectors

Figure 3-3 XCU Card


23

LED Color Indication

Off CPU fails Flashing RED a. During Initialization

b. Standby Card in Un-Sync State Flashing Green XCU card Working

ACTIVE

Flashing Amber XCU card Standby Off Overall Alarm is disabled Red Critical alarm message or Major alarm message occurs Amber Minor alarm message occurs

ALM

Green Informative alarm message or no alarm message occurs Off Overall Alarm is disabled Red Critical alarm message or Major alarm message occurs Amber Minor alarm message occurs

P1a , P2a

Green Informative alarm message or no alarm message occurs Off Neither loopback nor diagnostics exists TEST

Flashing Amber Loopback or diagnostics exist for testing indication Off Normal ACO Red Any alarm occurs (for any alarm type) Off Normal P1 LOS

P2 LOS Red LOS occurs in Port 1 or Port 2 Off 155 Mbps P1 155/622M

P2 155/622M Green 622 Mbps Off Ethernet link down Green Ethernet link up

Act/Link

Flashing Green Transmit data Off 10 Mbps 10/100M Green 100 Mbps

Table 3-10 LED Indication for XCU Card


24

3.3.2 Power up Initial Test Conditions

Once you start boot loader, decompress or initialization, the system will automatically go through a sequence of self-testing procedure. The status of the procedure is indicated by the colors of LEDs (see the tables below). If the system stops during the testing, you can easily find out in which step the error occurs by examining the color of the LED lights. Note: The empty spaces in the tables below represents LED under OFF condition.

3.3.2.1 Boot Loader

Step ACT MJMN P1A P2A ACO TEST Description

1 Green Power up

Green Green RAM test ok 2

Red RAM test failed

Red Green Read flash failed

Red Red Erase flash failed

Red Amber Write flash failed 3

Red Green Firmware length too large

Green Green Load firmware 1 4

Green Green Load firmware 2

3.3.2.2 Decompress


1 Green Amber Entered decompress code

Green Amber Flash Green 2

Green Amber Flash Green Decompressing

3 Red Decompress error or RUN code error


25

3.3.2.3 Initialization and Self-testing


1 Amber Entered restart function

Amber Green Load FPGA ok 2

Amber Red Load FPGA fail

3 Amber Amber Entered startup task

Amber Green Green Initial and test TBS2488 ok 4

Amber Green Red Initial and test TBS2488 fail

Amber Green Green Initial and test ADM622 ok 5

Amber Green Red Initial and test ADM622 fail

Amber Amber Green Initial TSI ok 6

Amber Amber Red Initial TSI fail

Amber Amber Green Initial QMC ok 6

Amber Amber Red Initial QMC fail

3 Green Initialization completed

3.3.3 Ethernet Interface

The 10/100 Ethernet Port has an RJ-45 Connector. The pin-out assignments are listed below.

Pin Signal Description 1 Transmit Data + Output from O9500R 2 Transmit Data - Output from O9500R 3 Receive Data + Input to O9500R 4 No Connection 5 No Connection 6 Receive Data - Input to O9500R 7 No Connection 8 No Connection

Table 3-11 RJ-45 Pin out for Ethernet Port


26

3.3.4 Optical Connections

O9500R supports SFP optical modules. You can select the SFP modules you need and

plug them directly into P1 and P2 optical housings.

3.4 Tributary Cards Overview

The O9500R consists of two redundant XCU control cards, 6 LS tributary slots and 4 HS tributary

slots. Each XCU control card supports two optical aggregate line signals at either STM-4/OC-12 or

STM-1/OC-3 rates. Configurations formed with aggregate line signals are also referred to as the

Main configurations.

On the tributary side, two types of tributaries, high speed (HS) and low speed (LS), together with

corresponding backplane capacity, are implemented. For detail information please see the

sections below.

3.4.1 High Speed (Ethernet) Cards

The HS tributaries consist of:

y 1-channel STM-4/OC-12, (B622) y 2-channel STM-1/OC-3, (B155) y 8-channel Ethernet/FET (EoS155, EoS622) y 1-channel Gigabit Ethernet, (GEoS622) y Resilient Packet Ring over SDH (RPRS) y 3-channel DS3/E3, (3DS3, 3E3) y 63-channel E1/ 64-channel DS1 signals, (63TE1) y 32-channel E1, 32-channel DS1, (32TE1) y E3/T3 interface card y Ethernet interface card with/wihout L2 switch The maximum capacity for all HS tributaries is 5*155 Mbps, with possible maximum add/drop of

126*E1/DS1, 6* E3/DS3, 16*FET, 2 *GbE, 4*STM-1/OC-3, or 1*STM-4/OC-12 +1*STM-1/OC-3, all

with MSP(1+1) and line card protection. With an extension shelf, for example, additional four HS

E1/DS1 tributary cards can be implemented and up to a total of 210 E1/DS1s can be added and

dropped.


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3.4.1.1 E1/T1 Card

3.4.1.2 STM-1/4 and OC-3/12 Interface Card

The STM-1/4 (OC-3/12) Interface Card is also known as a

B155/622 card. STM-1/4 (OC-3/12) is configurable through

software. For specifications and operating information please

refer to B155/622 INTERFACE PLUG-IN CARD FOR O9500R USER'S MANUAL.

Figure 3-5 B155/622 Card

The E1/T1 Interface Card is a software selectable plug-in card.

The E1 and T1 are configurable through software. Depending

upon manufacturing options there are Nx E1/T1 ports available,

where N=16/32/63TE or 16/32/63E75). For specifications and

operating information please refer to O9500R E1/T1 INTERFACE USERS MANUAL.

Figure 3-4 E1/T1 Card


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3.4.1.3 E3/T3 Card

3.4.1.4 Ethernet Card

The E3/T3 Interface Card is a software selectable plug-in card.

It has three E3/T3 ports per card and supports M13 function.

The card is hot-swappable and can be installed in or removed

from a powered-up O9500R chassis. For specifications and

operating information please refer to O9500R E3/T3 INTERFACE USERS MANUAL.


Ethernet Interface Cards are software configurable, hot-swappable plug-in cards for the O9500R device. There are two types of Ethernet cards. One is equipped with an L2 switch and one without. The card equipped with a switch offers one GbE port and eight FE ports. The card without a switch offers either one GbE port or eight FE ports. For specifications and operating information please refer to O9500R Ethernet INTERFACE USERS MANUAL.



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3.4.2 Low Speed Card

On the LS tributary slots, the backplane access speed is 8 Mbps and all AM3440 tributary cards

can be used. These LS tributary cards include:

y 4-channel E1/ T1 y 2-channel G.SHDSL card (2 pair) w/o line power y 4-channel G.SHDSL card (1 pair) w/o line power y 8-channel G.703 at 64 Kbps data rate y 8-channel Dry Contact I/O y 8-channel Dry Contact-B y 8-channel 2W/4W E&M y 6-channel X.21 y 6-channel V.35 y 6-channel V.36 y 8-channel RS232 y 12-channel FXS y 12-channel FXO y 12-channel Magneto y 1 or 4-channel low speed fiber optical module (C37.94 FOM) y 8-port Router y Conference Card (future option) y TDMoE Card The number of tributary cards and the I/O capacity on each card also determine the LS tributary

capacity. With all six 4-channel E1 cards, for example, the maximum access capacity from the

LS tributaries would be 24*E1s. The access from all LS tributary cards to the optical aggregate

lines or other HS tributary signals is performed through a non-blocking 64K cross-connect and this

access point has a total capacity of 21*E1s.


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3.5 Fan Tray

The fan tray is hot-pluggable. It goes into a horizontal slot at the top of the device. The tray

holds eight 12Vdc (3.3W) cooling fans. All fans are initially turned on when the O9500R is

powered up. They run for three seconds only as part of the initial self-test that the O9500R goes

through. After that, all cooling is controlled by a sensor in the XCU card. It turns banks of fans

on or off depending upon the temperature of the XCU cards.

Cooling Fans Temp. at which fan banks are turned on

Temp. at which fan banks are turned off

Front Bank (Fans 2, 4, 6 & 8)

>40C 30C Rear Bank (Fans 1, 3, 5 & 7)

>50C, or if one of the fans in the front bank fails when the temp is >40C

40C Table 3-12 Fan Control Temperatures

Please see the picture below for fan tray location.

Figure 3-8 Fan Location

CHAPTER 4 EoW (Ethernet Order Wire) with VoIP Technology

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4 EoW (Ethernet Order Wire) with VoIP Technology

4.1 Overview

The EoW on O9500R is a phone adapter that connects your phone (either analog phone or VoIP phone) with others on one network. It contains two telephone ports and two Ethernet ports, which is located at the upper right part on the O9500R front chassis, just below the connector card. Note: The EoW phone adapter is only available on the CBB connector board.

Figure 4-1 Location of the Eow Phone Adapter

The EoW has one power LED, two Phone jacks, and two SNMP ports. PHONE 1/2: These two phone jacks are for Analog phone used only. Phone 1 is for Incoming/Outgoing calls and the phone 2 is only for Outgoing calls. SNMP 1/2: The SNMP 1 port is for LAN setup and connecting to SNMP (Ethernet) port of Controller card. The SNMP 2 port is for WAN setup or IP phone. Note: Always use SNMP1 only for the first-time setup.

Figure 4-2 The EoW Front Panel


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4.2 EoW with 1+1 protection

The O9500R EoW phone adapter supports 1+1 card protection. With one controller card for no protection, using an Ethernet cable, connect the SNMP 1 of EoW to SNMP (Ethernet) port of XCU 1. With dual controller cards for 1+1 protection, using two Ethernet cables connect the SNMP1 port of EoW to the XCU1 Ethernet port, and SNMP2 port of EoW to the XCU2 Ethernet port, as shown below:

Figure 4-3 Ethernet Cable Setup for 1+1 Protection


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4.3 EoW Applications

The applications of O9500R EoW phone adapter offers: 1. Point-to-point using analog phone only 2. Multipoint with IP address using analog phone 3. Multipoint with SIP Proxy Server The following sub-sections provide the basic requirement of the application and physical configuration. There are two ways for dial out: User ID or IP address Dial using User ID: Press the phone number button directly Dial using IP address: Use to represent .. Example: IP Address:

192.168.202.100 Press phone number button as 192*168*202*100nfiguration, and configurations. All configuration procedures are based on the application drawings shown below.

IMPORTANT: The configurations of Web Manager and Interactive Voice Response are explained in

next section: How to Setup. The setup for User ID will be after the setup for IP, in section 4.4.2. In all of the following, the IP addresses shown, i.e. 192.168.202.100, are examples only.

4.3.1 Point-to-point using analog phone

O9500R #1 O9500R #2

Analog #1 Analog #2

Telephone line

Ethernet line

Optical line

IP Address: 192.168.202.100User ID: 151

IP Address: 192.168.202.101User ID: 152

The point-to-point with User ID setup requires: 2 O9500R units with EoW phone adapters

EoW of O9500R#1: IP address: 192.168.202.100; User ID: 151 EoW of O9500R#2: IP address: 192.168.202.101; User ID: 152

2 Analog phones Physical Setup procedure

O9500 #1 Connect Analog #1 phone to Phone 1 port of EoW phone adaptor Use Ethernet cable connects SNMP 1 port of EoW phone adaptor to SNMP (Ethernet)

port of XCU1 Connect the Optical Link to O9500#2 O9500#2: Same Physical Setup procedure with Analog #2 phone.


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Web Manager Configuration procedure: (Detail function refer to How to Setup section) O9500 #1

Under Router Tab, click WAN Setup and LAN Setup WAN Setup

Internet Connection Setting/Connecting Type: Choose Static IP Static IP Setting/Static IP: key-in EoW of O9500#1 IP address:

192.168.202.100/ NetMask: 255.255.255.0/ Gateway: 192.168.202.254 Enable Remote WAN Web Server: Choose Yes

LAN Setup Networking Service: Choose Auto Enable DHCP Sever: Choose Yes

Under Voice Tab, click Line Setup Line1 Setup

Proxy and Registration/Proxy: Key-in EoW of O9500#2 IP address: 192.168.202.101/ Make Call Without Reg: Choose Yes/ Ans Call Without Reg: Choose Yes

Subscriber Information/User ID: Key-in the ID number: 151 for Analog#1 phone use

Dial Plan/ Enable IP Dialing: Choose Yes

O9500 #2 Under Router Tab, click WAN Setup and LAN Setup WAN Setup




Under Voice Tab, click Line Setup Line Setup

Proxy and Registration/Proxy: Key-in EoW of O9500#1 IP address: 192.168.202.100/ Make Call Without Reg: Choose Yes/ Ans Call Without Reg: Choose Yes

Subscriber Information/User ID: Key-in the ID number: 152 for Analog#2 phone

use Dial Plan/ Enable IP Dialing: Choose Yes


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4.3.2 Multipoint with IP address using analog phone only

O9500R #1 O9500R #2

Analog #1 Analog #2

O9500R #3

Analog #3

Telephone line

Ethernet line

Optical line

IP Address: 192.168.202.100 IP Address: 192.168.202.101 IP Address: 192.168.202.102

The Multipoint with IP address setup requires: At least 3 O9500R units

EoW of O9500R#1: IP address: 192.168.202.100 EoW of O9500R#2: IP address: 192.168.202.101 EoW of O9500R#3: IP address: 192.168.202.102

At least 3 Analog phones Physical Setup procedure:

O9500 #1 Connect Analog #1 phone to Phone 1 port of EoW phone adaptor Use Ethernet cable connects SNMP 1 port of EoW phone adaptor to SNMP

(Ethernet) port of XCU1 Connect the Optical Link to O9500#2

Same Physical Setup procedure to O9500#2 with Analog #2 phone and to O9500#3 with Analog #3 phone. Web Manager Configuration procedure: (Detail function refer to How to Setup section)

O9500 #1 Under Router Tab, click WAN Setup and LAN Setup WAN Setup





Proxy and Registration/ Make Call Without Reg: Choose Yes/ Ans Call Without Reg: Choose Yes

Dial Plan/ Enable IP Dialing: Choose Yes

Same Physical Setup procedure to O9500#2 with Analog #2 phone and to O9500#3 with Analog #3 phone.


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4.3.3 Multipoint with SIP Proxy Server

Linear Application

Ring Application

The Multipoint with SIP Proxy Server setup requires: At least 3 O9500R units

EoW of O9500R#1: IP address: 192.168.202.100 EoW of O9500R#2: IP address: 192.168.202.101 EoW of O9500R#3: IP address: 192.168.202.102

At least 3 Analog phones At least 2 IP phone 1 PC with SIP Proxy Server


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Physical Setup procedure: O9500 #1 Connect Analog #1 phone to Phone 1 port of EoW phone adaptor Use Ethernet cable connects SNMP 1 port of EoW phone adaptor to SNMP

(Ethernet) port of XCU1 Connect PC with SIP Proxy Server to SNMP 2 port of EoW phone adaptor Connect the Optical Link to O9500#2

O9500 #2 Connect Analog #2 phone to Phone 1 port of EoW phone adaptor Use Ethernet cable connects SNMP 1 port of EoW phone adaptor to SNMP

(Ethernet) port of XCU1 Connect IP #1 phone to SNMP 2 port of EoW phone adaptor Connect the Optical Link to O9500#2 and #3

Same O9500#2 setup procedure to O9500#3 with Analog #3 phone and IP #2 phone. Note: For Linear application, O9500#3 connect the Optical Link to O9500#2 For Ring application, O9500#3 connect the Optical Link to O9500#2 and #1 Configuration Procedure with SIP Proxy Server, Analog phone and IP phone SIP Proxy Server Configuration

Set the SIP Proxy Server Configuration for all the units via SNMP2 port of O9500#1 which connect the PC with SIP Proxy Server

Web Manager Configuration: O9500 #1

Under Router Tab, click WAN Setup and LAN Setup WAN Setup



LAN Setup Network Service: Choose Auto Enable DHCP Sever: Choose Yes


Proxy and Registration/Proxy: Key-in the IP address which given by SIP Proxy

Subscriber Information: User ID and Password which given by SIP Proxy Dial Plan/ Enable IP Dialing: Choose Yes

Same Configuration procedure to O9500#2 with Analog #2 phone and to O9500#3 with Analog #3 phone.

IP Phone Configuration

Similar procedure as Analog phone with different format.


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4.4 How to Set up

The O9500R EoW phone adapter offers two ways for setting up your telephone. If you do not know the IP address for LAN and WAN setup, check the value you need through the interactive voice response menu. If you already know the IP addresses, you can either use the web manager or the interactive voice response menu to complete the setup procedure.

4.4.1.1 Accessing the Web Manager You will need to change the default setting before connecting your phone to the network. 1. The PC connects to SNNP 1 port of EoW phone adapter and launches the web browser. 2. Enter http://192.168.0.1/ in the Address field. Then press the Enter key 3. The Router - Status screen will appear.

4. Click on the Admin Login button, and then the Advanced button.

5. The Lan Setup and Application button will appear. You can now proceed to the setup

procedures listed in the following section.


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4.4.1.2 WAN Setup 1. Click on the WAN Setup section under Router Tab. You will see the default value on the

screen. 2. Change the default value of the Internet Connect Settings, Static IP Settings and Enable

WAN Web Server to the values shown on the screen below:

3. Click on the Submit All Changes button.


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4.4.1.3 LAN Setup

1. Click on the LAN Setup section under Router Tab. You will see the default value on the screen.

2. Change the default value of the Networking Service to Auto and Enable DHCP Server to the values shown on the screen below:

3. Click on the Submit All Changes button. Note: Setting Network Service to Auto means WAN IP equal to LAN IP

4.4.1.4 Line Setup

1. Click on the Line1 and Line2 sections under Voice Tab. 2. Select Yes for Make Call without Reg and Ans Call Without Reg, then click on the

Submit All Changes button.

3. Select Yes for Enable IP Dialog, then click on the Submit All Changes button.


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4.4.1.5 Setup Status

After you change all default configuration mentioned above, click on the Status section under Router Tab. You will see a status screen as shown below, and the phone is now connected to the network successfully.

4.4.2 Using User ID to Represent the IP Address

To make the connecting procedure easier, you can set up User ID to represent the IP address. 1. Click on the Line1 and Line2 sections under Voice Tab. Scroll down to the Proxy and

Registration section. 2. Key in the Proxy IP address 3. Key in a set of number in the User ID box in the Subscriber Information section. This User

ID number is to substitute the function of the IP address. Then, click on the Submit All Changes button.


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4. After setup, you can key in the serial number instead of the IP address to connect your phone to the network.

4.4.3 Accessing the Interactive Voice Response Menu

Use the keypad on the phone to access the interactive voice response menu. You can check and set the IP address and other values to connect your phone to the network.

1 Use a telephone connected to one of the Phone Adapters PHONE ports. (You can only access the Interactive Voice Response Menu through an analog telephone, not any of the Internet phones.)

2 Press the star key four times (****) 3 Wait until you hear Linksys configuration menu. Please enter the option followed by

the # (pound) key or hang up to exit. 4 Refer to the following table that lists actions, commands, menu choices, and

descriptions. After you select an option, press the # (pound) key. To exit the menu, hang up the telephone.

Table 4-1 Interactive Voice Response Menu Action Command

(press these keys on the telephone)

Choices Description

Enter Interactive Voice Response Menu

**** Use this command to enter the Interactive Voice Response Menu. Do not press any other keys until you hear, Linksys configuration menu. Please enter the option followed by the # (pound) key or hang up to exit.

Check Internet Connection Type

100 Hear the Internet connection type of the Phone Adapter.

Check Internet IP Address

110 Hear the IP address assigned to the Phone Adapters Internet (external) interface.

Check Network Mask (or Subnet Mask)

120 Hear the network or subnet mask assigned to the Phone Adapter.

Check Gateway IP Address

130 Hear the IP address of the Phone Adapter (usually the network router).

Check MAC Address

140 Hear the MAC address of the Phone Adapter in hexadecimal string format.

Check Firmware Version

150 Hear the version number of the firmware currently running on t

o9500r-v12-m

Documents