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Features
•
6U height, full front access (ETSI) shelf
•
TM, ADM and DCS (full cross-connect) at DS0,
VC11, VC12, VC3, VC4
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Dual STM-1/4 (OC-3/12) Optical Ring Uplinks
•
Hot-swappable cross-connect modules,
tributary modules and power modules.
•
Tributary Modules (See Table 1 below)
- High-Speed (aka High Density) access
tributary modules (HS)
- Low-Speed access tributary modules (LS)
•
Power Modules
- DC Module (-48Vdc)
- Dual Power (1+1) Protection
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Protection Scheme
Tributary protection
- E1/T1: card, port, line
- E3/T3: line
- B155/622: MSP, SNCP/UPSR
- Ethernet
- 7 FOM: line
Cross-connect Unit (XCU) protection
- MSP
-
SNCP/UPSR
•
External/Internal/Line timing source with SSM
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Ethernet supports GFP, LAPS, VCAT, LCAS
and non-LCAS
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Full switched Ethernet capability on EoS with
built-in L2 switch card
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Ethernet Order Wire (EOW) using VoIP
technology
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Alarm suppression, masking and reports
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Management
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Console port, VT100 menu-driven
SNMP Port
•
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Telnet
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Centralized management with Loop's EMS/iNMS
over DCC channel
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LoopView GUI EMS
TMN management(Loop-iNMS) with full FCAPS
•
and end-to-end circuit management
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SSH
•
RoHS compliant
Loop-O9500
SDH/SONET IMAP
Description
The Loop-O9500 SDH/SONET IMAP (Integrated
Multi-Services 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.
Access is provided through either a non-blocking
VC11/VC12/VC3/VC4 cross-connect with HS modules or
through an additional non-blocking DS0 cross-connect
fabric with LS modules.
The 6U shelf supports:
4 HS tributary module slots
•
6 LS tributary module slots
•
With up to 10 optical STM-1 (OC-3) or 5 optical STM-4
(OC-12) or 10 electrical STM-1 (OC-3) line interfaces, the
Loop-O9500 SDH/SONET IMAP offers service providers a
versatile protection schemes including SNCP(UPSR) and
MSP(1+1) protection for both ring and linear network
topologies. The O9500 can work with the Loop-O9100 and
Loop-O9400 in the same topology.
The non-blocking VC11/VC12/VC3/VC4 cross-connect
capability on High Speed (HS) is up to 20 VC4. 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,
LCAS, and non-LCAS. These HS modules are identical to
those used in the rack version of the Loop-O9400.
The uplink non-blocking DS0 cross-connect to HS is up to
21 E1 or 28 T1. The non-blocking DS0 cross-connect
capability on Low Speed (LS) is up to 768 DS0. Through a
full non-blocking DS0 cross-connect and together can act
as a mini DACS. The modules include variety of TDM, IP,
and voice interfaces detailed on next page. 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 O9500
SDH/SONET IMAP provides full Operation, Administration,
Maintenance and Provisioning (OAM&P) functionality.
Users can easily operate the O9500 locally or remotely for
centralized management with LoopView (EMS) and
Loop-iNMS (integrated NMS)
1
.
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Table of Contents
Summary of Contents for Loop Telecom Loop-O9500
- Page 1 • Hot-swappable cross-connect modules, (OC-12) or 10 electrical STM-1 (OC-3) line interfaces, the tributary modules and power modules. Loop-O9500 SDH/SONET IMAP offers service providers a • Tributary Modules (See Table 1 below) versatile protection schemes including SNCP(UPSR) and - High-Speed (aka High Density) access...
- Page 2 Table 1 Loop-O9500 Tributary Modules: Tributary Type Plug-in Interface Cards Maximum Capacity STM-4 (OC-12) tributaries 1 MSP 1 + 1 STM-1 (OC-3) tributaries 4 MSP 1 + 1 or 3 Sub-ring SNCP or 6 STM-1 High-Speed or High without protection...
- Page 3 Table 2: Maximum number of channel/port on each plug-in card Slot TRIB 1 TRIB 2 TRIB 3 TRIB 4 XCU 1 XCU 2 11~16 slot/ Total Plug-in Card per card E1/T1 For HS slots E1/T1 For LS slots 21E1 24T1 Ethernet Optical STM-1...
- Page 4 Note: RoHS compliant units are identified by the letter appearing immediately at the end of the ordering code. Model Description Note Main Unit Loop-O9500-R-CHA-G 6U height Rack chassis for O9500 w/o CPU and power Plug-in modules CPU card with cross-connect unit and two Loop-O9500-R-CC4-G One required for each chassis.
- Page 5 Low Speed Tributary Modules (Single Slot) Loop-O9500-R-4E1-cc-G 4-channel E1 plug-in card. This card can also be used in the Loop-AM3440-A /B/C. For cc option, please refer to the table below for detail information Loop-O9500-R-4T1-G 4-channel T1 plug-in card This card can also be used in the Loop-AM3440-A /B/C.
- Page 6 Loop-O9500-R-12FXS- sn-pt-G 12-channel FXS plug-in card with 600/ 900 Impedance, Battery Reverse, PLAR, without Ground Start and Metering Pulse. Used with 12 RJ11. Loop-O9500-R-12FXS-P-sn-pt-G 12-channel FXS plug-in card with 600/ 900 Impedance, Battery Reverse, PLAR, without 12FXS-GMP includes all FXS Card Ground Start and Metering Pulse PLAR bit functions.
- Page 7 Loop-O9500-R-24FXS-M-pt-G 24-channel FXS plug-in card with 600/900 Impedance, Battery Reverse, For sn option, please refer to the Loop Start, PLAR and [Metering Pulse]. table below for detail information Loop-O9500-R-24FXS-MPP-pt-G 24-channel FXS plug-in card with 600/900 Impedance, Battery Reverse, Loop Start, PLAR, [PLAR bit programmable] and [Metering Pulse].
- Page 8 This panel can also be used in the Loop-O9400R. 432x66x53mm (WxHxD) Y-box Panels for 120/100 ohm Loop-ACC-Y-2SCSI-16RJ-G Using with Loop-O9500-R-16TE-G, 1u Y-box 16-port panel for two SCSI (E1(120 ohm) or T1) to 16 RJ (E1(120 ohm) or T1) connectors without cable Loop-ACC-Y-2SCSI– 16WW-G...
- Page 9 Conversion Cables(All conversion cables are RoHS compliant) SCSI 68 pin/Male to SCSI 68 pin/Male Loop-ACC-CAB-SCSI68M- Used in Extension Cable Length:200cm 200-1SCSI68M-G Loop-O9500-R Y-box panels and conversion panels Loop-ACC-CAB-DB44M- DSUB-44 pin/Male to two DSUB-25 pin/Female- Used in Loop-O9500-R-8RS232-DB-G 100-2DB25F-1DB09F-DB one DSBU-9 pin/Female...
- Page 10 50 Hz ring generator For Example: Loop-O9500-R-CHA-G, Loop-O9500-R-CBA-G, Loop-O9500-R-FANA-G, Loop-O9500-R-CC4-G, Loop-O9500-R-63TE-G, Loop-O9500-4E1-RJ, Loop-O9500-R-4GH, Loop-O9500-R-SD48: For model O9500 6U height Rack chassis with one CPU card, one connect board, and one Fan board, one 63E1 software programmable interface plug-in card, one 4-channel E1 interface with RJ48C connectors, one 4-channel G.SHDSL...
- Page 11 Loop-O9500 SDH/SONET IMAP PRODUCT 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...
- Page 12 Process Protocol VCAT, GFP(G.7041), LAPS, LCAS(G.7042), and non-LCAS 7 FOM Fiber Optical Interface Port number 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 Protection 1+1 Line Protection...
- Page 13 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 Initial Insulation Resistance Min.
- Page 14 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.
- Page 15 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...
- Page 16 TDMoE Combo Gigabit Ethernet(GbE) Interface Number of Ports Speed 10/100/1000M bps Connector RJ45 for twisted pair GbE, LC for optical GbE, auto detection Gigabit Ethernet(GbE) Interface Number of Port Speed 10/100/1000 BaseT Connector RJ45 Ethernet Function Basic Features MDI/MDIX for 10/100/1000M BaseT auto-sensing Ping function contained ARP Per port, programmable MAC hardware address learn limiting (max.
- Page 17 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)
- Page 18 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...
- Page 19 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), 802.1AX Future Option Front Panel View of O9500R O9500R Hardware Configuration Chart on High Speed Slot and CPU Figure 1: High speed tributary cards without protection Plug-in Card Ethernet...
- Page 20 O9500 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, the Loop-O9500 can easily provide a well-protected transmission path and integrated access in various applications as shown below.