Huawei OptiX OSN 3500 Optical transmission system
Huawei OptiX OSN 3500 Optical transmission system
Huawei OptiX OSN 3500 Optical transmission system
  • Huawei OptiX OSN 3500 Optical transmission system
  • Huawei OptiX OSN 3500 Optical transmission system
  • Huawei OptiX OSN 3500 Optical transmission system

Huawei OptiX OSN 3500

Huawei OptiX OSN 3500 intelligent optical transmission system, the next-generation intelligent optical transmission equipment

Description

Huawei OptiX OSN 3500 Overview

Product Code

Huawei OptiX OSN 500

Huawei OptiX OSN 550

Huawei OptiX OSN 580

Huawei OptiX OSN 3500

Huawei OptiX OSN 7500

Huawei OptiX OSN 7500 II

Dimensions

44mm (H) x 442mm (W) x 220mm (D)

88mm (H) x 442mm (W) x 220mm (D)

221 mm (H) x 442 mm (W) x 224 mm (D)

722 mm (H) x 497 mm (W) x 295 mm (D)

757 mm (H) x 497 mm (W) x 295 mm (D)

800mm (H) x 496mm (W) x 295mm (D)

Switch capacity

Packet: 7.2 Gbit/s and TDM: 21.25 Gbit/s (higher order), 5 Gbit/s (lower order)

Packet: 64 Gbit/s ,TDM: 20 Gbit/s (higher order)

Packet: 560 Gbit/s, TDM: 280 Gbit/s (higher order)

Packet: 280 Gbit/s, TDM: 280 Gbit/s (higher order)

Packet: 160 Gbit/s and TDM: 200 Gbit/s (higher order), 20 Gbit/s (lower order)

Packet: 160 Gbit/s and TDM: 360 Gbit/s (higher order), 80 Gbit/s (lower order)

Packet: 320 Gbit/s and TDM: 360 Gbit/s (higher order), 40 Gbit/s (lower order), OTN: 560Gbit/s

Service slots

3 slots

8 slots

15 slots

15 slots for processing boards and 16 slots for interface boards

22 slots for processing boards and 8 slots for interface boards

32 slots, 16 slots for interface boards and 16 slots for processing boards with same bandwidth per slot

Power Supply

48V DC/ -60V DC, 220V AC/110V AC

-48 V DC/-60 V DC

220 V AC/110 V AC

-48 V DC/-60 V DC

220 V AC/110 V AC

-48V DC/ -60V DC; 110/220V AC (External module)

-48V DC/-60V DC; 110V AC/220V AC (External module)

-48V DC/-60V DC

The Huawei OptiX OSN 3500 is a new-generation optical transmission system developed by Huawei. It adopts a unified switching architecture and can function as an MPLS/MPLS-TP-based packet device or a TDM device. When working with other devices of Huawei, OSN 3500 supports various networking modes, including the pure packet mode, hybrid networking (packet + TDM) mode, and pure TDM mode, achieving optimal processing for packet services and traditional SDH services. Thus, OSN 3500 efficiently transmits voice and data services over the same platform.

Quick Specs

Table 1 shows the Quick Specs.

Product Code

Huawei OptiX OSN 3500

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

Power Supply

-48V DC/ -60V DC; 110/220V AC (External module)

Product Details

HUAWEI OPTIX OSN 3500 provides these features:

 All in One Solution Based on Universal Switch and Transport

- Unique architecture that integrates PCM, TDM, Ethernet, WDM and MPLS-TP technology.

- Universal switch at any level of packet and TDM in their original format, high efficiency and best performance, ‘0’ waste of bandwidth.

- Carefree evolution among different types of services, such as from 100% TDM to 100% packet, ‘0’ waste of investment.

 Enables optimized transport network with Built-in PCM

- Unified Access: Multiple PCM boards are developed on mature OSN serial MSTP products, realizing unified access for low-speed services.

- High Reliability: Provides direct low-speed service access, minimizing conversion equipment and fault points.

- Easy Maintenance: The NMS U2000 enables unified management, a visual interface, End-to-End (E2E) service configuration, and unified monitoring

 MPLS-TP for Highly Efficient and Highly Available Packet Transport

- Guaranteed Performance from end-to-end committed bandwidth mechanism.

- 99.999% availability: 50ms recovery for both linear and ring applications.

- SDH-like OAM mechanism capable of fast detection and troubleshooting, including end-to-end performance monitoring.

 40G Ultra Broadband Transport

- Integrating OTU, MUX and DEMUX boards by a PID (photonics integrated device) chip, providing 40G capacity per port.

- Without complicated photonic layer design such as wavelength planning and OSNR calculating, with less patch cords and fiber operations, time to market greatly reduced.

- 50% footprint saving and 50% power consumption reduction.

 TP-Assist for Easy O&M

- MPLS-TP based O&M solution ‘TP-Assist’ providing efficient planning, fast deployment and easy maintenance, making the largescale packet network easily manageable

- Traffic based crystal clear O&M is supported with visual networklevel view, graphical format to display end-to-end service configuration, performance and status.

- Better maintenance experience even than SDH: visualized end-to-end bandwidth management, intelligently locating 92% failure, analyzable and predicable network management.

 Industrial Certifications Ensure Reliable Operation

- Compliant with EN 50121-4, IEC 61850-3, IEC 61000-6-5, IEEE 1613.

Huawei OptiX OSN 3500 Specification

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)





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