Tellabs® 8630Access Switch

DATA SHEET

The Tellabs® 8630 Access Switch is a compact and fully managed

IP/MPLS based router with versatile multiprotocol support. It is

designed for cost effi cient delivery of connectivity and services

with Quality of Service (QoS) awareness in mobile and fi xed

environments.

OverviewThe Tellabs® 8600 Managed Edge System provides a complete network

solution composed of the Tellabs® 8660 Edge Switch,

the Tellabs® 8630 Access Switch, the Tellabs® 8620 Access Switch, the

Tellabs® 8606 Ethernet Aggregator, Tellabs® 8605 Access Switch and an

advanced network management system for managing the entire network

and all of its connections and services.

The Tellabs 8630 switch is specially optimized for mobile networks, where

space is limited but reliability and modularity requirements are high. It

delivers real-time voice and video, QoS-aware data and Best Effort services

offered through a wireless or wireline infrastructure.

Features and benefitsThe Tellabs 8630 switch has a hardware-based forwarding architecture that

enables high and predictable performance despite complex service

requirements. The maximum bidirectional switching capacity of a fully

equipped element is 14 Gbps.

The architecture is based on a distributed switching design and

a fully passive backplane. This provides a cost-efficient architecture with a

low entry cost even for small configurations.

The element can be equipped with a maximum of two CDC cards and four

Interface Module Concentrator (IFC) cards that contain two Interface

Modules (IFMs). Wide selection of interface modules can be used with a

mixture of protocols e.g. IP, MPLS, Ethernet, ATM, Frame Relay and TDM.

Integrated Control and DC power Card (CDC) implements management,

routing, signalling, timing and powering for the network element.

The Tellabs 8630 switch implements the latest QoS aware bandwidth

control, queuing, policing and shaping techniques, maintaining wire-speed

operation even with all premium QoS features (classification, policing,

marking, shaping) turned on.

The element supports both low-latency real-time services and data services

with tunable performance characteristics. Both ATM- and DiffServ-based

traffic management models are supported.

In addition to scalable and predictable performance, the Tellabs 8630

switch contains the latest MPLS Traffic Engineering (TE) features, including

DiffServ aware MPLS TE. This provides control of network resources for

services having very strict delay, jitter and packet loss requirements. The

performance of a connection can be tested easily since each line card has

an in-built hardware-based test generator.

The Tellabs 8630 switch has an extensive set of element- and system-level

protection functions. At the hardware level, the element supports a broad

set of carrier-class functions, such as power and control card redundancy,

distributed switching architecture and stored configuration backups of all

line cards. Both 1+1 MSP/APS and 1+1 LSP mechanisms provide fast

connection protection for selected network links or customer connections.

In addition, all cards are hot-swappable and configurations are automatically

restored from the control card after a line card replacement.

ApplicationsThe main applications of the Tellabs 8630 switch are managed traffic

aggregation in 2G and 3G mobile networks and delivery of Ethernet and IP

VPN services.

The position of the element is typically a medium-sized aggregation or hub

site, which takes care of traffic grooming and transport in

3G and 2G networks from base stations to the RNC. With the same system,

a service provider can also implement the entire network evolution in UMTS

from R99 to R6 without any forklift upgrades (transition from ATM

connectivity to IP routing). Even GSM traffic can be groomed and

transported using the same element. In a similar way, the element can be

used in CDMA and CDMA2000 environments.

Implementation of the whole mix of MPLS pseudowire technologies enables

delivery and management of connections based on Ethernet, ATM, Frame

Relay and TDM on the same platform, with transformation to IP whenever

feasible.

In converged networks, the Tellabs 8630 switch can provide business-

critical Ethernet and IP VPN services as well as broadband service

aggregation through DSLAMs or to Multi Tenant Units (MTUs).

The Tellabs 8630 switch is designed to be economical and scalable for

large, countrywide network deployments. The design of the element and

related management system allows networks to scale from a few customers

to large national bases with hundreds of thousands of customers and

connections.

Network managementAs part of the Tellabs 8600 system, the Tellabs 8630 switch is fully end-to-

end managed with the Tellabs® 8000 Network Manager. All interface,

service and connection level parameters are configured remotely via the

Tellabs 8000 manager’s GUI based tools. This is the primary and easiest

way to configure the unit and the network.

DATA SHEET — TELLABS® 8630 ACCESS SWITCH

2

Statements herein may contain projections or other forward-looking statements regarding

future events, products, features, technology and resulting commercialor technological

benefits and advantages. These statements are for discussionpurposes only, are subject to

change and are not to be construed as instructions,product specifications, guarantees or

warranties. Actual results may differ materially.

The following trademarks and service marks are owned by Tellabs Operations, Inc., or its

affiliates in the United States and/or in other countries: TELLABS®, TELLABS and T symbol

®,

and T symbol®.

Any other company or product names may be trademarks of their respective companies.

© 2007 Tellabs. All rights reserved.

74.1582E Rev. C 04/07

Latin America & Caribbean

Tellabs

1401 N.W. 136th Avenue

Suite 202

Sunrise, FL 33323

U.S.A.

+1 954 839 2800

Fax: +1 954 839 2828

Europe, Middle East & Africa

Tellabs

Abbey Place

24–28 Easton Street

High Wycombe, Bucks

HP11 1NT

United Kingdom

+44 870 238 4700

Fax: +44 870 238 4851

Asia Pacific

Tellabs

3 Anson Road

#14–01 Springleaf Tower

Singapore 079909

Republic of Singapore

+65 6215 6411

Fax: +65 6215 6422

North America

Tellabs

One Tellabs Center

1415 West Diehl Road

Naperville, IL 60563

U.S.A.

+1 630 798 8800

Fax: +1 630 798 2000

SpecificationsPhysical Dimensions

450 mm/17.7 in (width) x 224 mm/8.8 in

(height) x 300 mm/11.8 in (depth)

19”-wide and 12+3”-deep rack, all front

cabling

Power and cooling

48 VDC power feed with optional protection

Power consumption: typical 280 W, maximum

580 W

4 fans in 2 modules, fan speed controlled by

control cards

Architecture

Hardware-based forwarding, switchless

distributed architecture

Forwarding Plane

IPv4 and IPv6*) routing

MPLS switching (LSR and LER)

Applications

ATM, Ethernet, Frame Relay and TDM PWE3

circuits (Martini tunneling)

ATM VP/VC cross-connections

TDM grooming at DS0 level

IP VPN (RFC 4364 which obsoletes RFC 2547

bis)

Performance

Bidirectional switching capacity: 3.5 Gbps per

IFC, 14 Gbps per fully equipped system

Packet forwarding capacity: 7.8 Mpps per IFC,

31.2 Mpps per fully equipped system

Control and DC power Card (CDC)

For protection purposes chassis has 2 slots for

CDCs

Timing module locates in CDC

CDC1-A: 512 K IPv4 entries

CDC1-B: 256 K IPv4 entries

Interface Module Concentrators (IFCs)

Chassis has 4 slots for IFCs, each with 2

selectable IFMs

IFC1-A: 512 K IPv4 entries, 36 MByte buffer

IFC1-B: 256 K IPv4 entries, 18 MByte buffer

Interface Modules (IFM)

8-Port Ethernet 10/100BASE-TX IFM

8-Port Ethernet 100BASE-X IFM

2+6-Port Ethernet 10/100/1000BASE-COMBO

IFM

2-Port Ethernet 1000BASE-X IFM

8-Port Ethernet 1000BASE-X IFM

8-Port STM-1/OC-3 POS IFM

4-Port STM-4/OC-12 POS IFM

1-Port STM-16/OC-48 POS IFM

4-Port STM-1/OC-3 ATM IFM

1-Port chSTM-1/OC-3 Multiservice1 IFM

24-Port chE1/T1 Multiservice1 IFM1Support for ATM, IMA, FR, HDLC/PPP, ML-PPP

and TDM

Resiliency

1+1 redundancy of integrated power and

control card (CDC)

Node timing module protection

Switching distributed to all line cards

Dual homing of customer premises device

1+1 MSP/APS protection

Ethernet Link Protection

1:1 RSVP-TE LSP protection

1+1-MPLS-OAM-based LSP protection

Dynamic LSP rerouting

Non-stop forwarding with control plane

redundancy and graceful restart

Synchronization

ETSI (SEC) timing [G.813]

ANSI (Stratum-3) timing

Station Clock Input and Output ports on CDC

E1/T1, SDH/SONET line synchronization

Synchronous Ethernet

Adaptive synchronization over packet network

Software specificationsEncapsulations

ATM, Ethernet, Frame Relay, PPP, VLAN/

Ethernet

ATM IMA, ML-PPP

Routing

BGP, MP-BGP, OSPF, OSPF-TE, IS-IS, ISIS-TE,

static routing

Label Distribution

LDP, RSVP-TE, MP-BGP

Quality of Service

DiffServ support for up to 8 traffic classes (EF,

AF and BE) and for MPLS (E-LSP and L-LSP)

DiffServ aware MPLS Traffic Engineering (DS-

TE)

IEEE 802.1P/Q mapping to IP or MPLS

ATM service categories: CBR, VBR, UBR+ and

UBR

ATM Forum Traffic Management 4.1

Policing, WRED, traffic shaping

Strict Priority and WFQ scheduling

CIR, PIR, CBS and PBS traffic parameters

Layer 2, 3 and 4 multifield classification

Connection admission control (CAC)

OtherManagement Protocols

CLI, FTP, SNMPv2

BMP for Tellabs 8000 Network Manager

communication

Standards

Safety: EN 60950-1:2001

EMC: EN 300 386:2005

RTTE Directive 1999/5/EC

FCC 47 CFR Part 15, Subpart B, Class A

NEBS level 3 compliance: SR-3580

GR-1089-CORE: Issue 3, October 2002

GR-63-CORE: Issue 2, April 2002

MEF 9 and 14 compliant

Environmental Conditions

Storage: ETS 300 019-1-1:2003-04 Class 1.1,

Temperature: –5° C to 45° C /

23° F to 113° F

Transportation: ETS 300 019-1-2:2003-04

Class 2.3, Temperature: –40° C to 70° C /

– 40° F to + 158° F

Normal operating conditions: ETS 300 019-1-

3:2004-07, Class 3.2 (non-condensing),

Temperature: –5° C to 45° C / 23° F to 113° F,

Relative humidity: 5% to 95%

*) For future release