Huawei OptiX OSN 3500

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Model: Huawei OptiX OSN 3500 – Huawei OptiX OSN 3500
Detail: Huawei OptiX OSN 3500 intelligent optical transmission system, the next-generation intelligent optical transmission equipment

Description

Huawei OptiX OSN 3500 Specification

Dimensions 722 mm (H) x 497 mm (W) x 295 mm (D)
Switch capacity Packet: 160 Gbit/s and TDM: 200 Gbit/s (higher order), 20 Gbit/s (lower order)
Service slots 15 slots for processing boards and 16 slots for interface boards
Supported interfaces OTN interface OTU-3(40G, compliant with OTL3.4 standard)
Ethernet interface FE/GE/10GE
SDH interface STM-1/4/16/64
PDH interface E1/E3/E4/T1/T3
ATM interface E1, STM-1
WDM interface 40-channel DWDM interfaces, compliant with ITU-T G.694.1

8-channel CWDM interfaces, compliant with ITU-T G.694.2

PCM interface FXS/FXO, 2/4 wire audio and E&M

X.21/V.35/V.11/V.24/V.28, RS232/RS422, RS449/RS423A/RS422A, RS530/RS530A, RS485, G.703 64 kbit/s codirectional;

IEEE C37.94

Other interface DDN, SAN, Video
Networking Mode Supporting pure packet, hybrid (packet + SDH) or SDH networking

Supporting WDM networking

Supporting single-fiber bidirectional transmission

Power Supply -48V DC/ -60V DC; 110/220V AC (External module)
Operation Environment Temperature Long term: -0ºC ~ 45ºC

Short term: -5ºC ~ 55ºC

Relative Humidity Long term: 5% ~ 85%

Short term: 5% ~ 95%

Ethernet Feature E-Line and E-LAN, QinQ

MPLS-TP based VPWS and VPLS

Multi-section pseudo-wire (MS-PW)

ETH PWE3, TDM PWE3, ATM/IMA PWE3

IGMP Snooping V2

Blacklist, Broadcast packet suppression, ACL

VLAN SWAP

PCM features

 

Voice or data Conference/Meeting, P2MP, MP2MP

FXO/FXS mode can be set by software

E&M Interface voltage can be set by software (-48V/-12V)

E&M signaling can be set by software (Bell types I, II, III, IV, V and British Telecom SSDC5)

QoS

 

Hierarchical QoS scheduling and traffic shaping

DiffServ mode based on traffic classification, eight priority queues

Simple traffic classification, complex traffic classification, per hop behavior (PHB),and ACL

Committed access rate (CAR), shaping based on port scheduling priority

PQ scheduling priority, weighted fair queuing (WFQ) and PQ+WFQ queuing

Tail drop and weighted random early detection (WRED)

OAM MPLS-TP OAM LSP/PW OAM:

CC, LB, LT

AIS, RDI

LM, DM

LCK, TST

CSF

MPLS OAM LSP/PW OAM:FDI, BDI, CV, FFD, TraceRoute, Ping, LM, DM

PW OAM: CES PW VCCV

Ethernet OAM ETH-CC, ETH-Loopback, ETH-Link Trace, Remote Loopback, Remote Fault Detection, RMON(RFC 2819)
Protection Equipment-level Protection Cross-connect 1+1 backup, control board 1+1 backup and power 1+1 backup, clock 1+1 backup
MPLS-TP based Service Protection LSP/PW Linear protection, Ring protection

Anti multifailure protection based on MS-PW

LAG, MC-LAG, Dual-homing protection, LPT

SDH based Service

Protection

2/4 fiber MS-SP Ring;

1+1/1:n (n<=14) Linear MSP

SNCP/SNCMP/SNCTP

1:N tributary protection for E1/T1, E3/T3, E4, STM-1(e) and FE

ASON

 

Distributed restorable rerouting protection

5-level service dedicated protection scheme based on different SLA: Diamond, Gold, Silver, Copper and Iron services

Based on VC-4 and VC-12 granularity

Synchronization Both Ethernet and SDH networks supporting clock synchronization

Supporting G.813, Synchronous Ethernet and IEEE 1588v2 synchronization

Adaptive clock recovery (ACR)

Two external clock inputs/outputs (2 MHz or 2 Mbit/s)

Two external time signals(1pps+TOD)

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