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Tellabs® 6335 Switch Node
The Tellabs® 6335 Switch Node can handle SDH, PDH and data
services in a compact and cost-effective design. It offers reliability
with full redundancy on the central switch matrix, the PDH inter-
faces, synchronization functionality and power supplies. The Tellabs
6335 node can also be equipped as a CWDM or DWDM multiplexer
with the support of transponders, muxponders and repeaters.
Customer Benefits
Ethernet interfaces are not only used to map Ethernet into SDH or
PDH in traditional point-to-point connections. Data traffic can be
policed, groomed and switched as Ethernet frames. This enables
service providers to customize Service Level Agreements individually for
all of their customers.
The availability of WDM multiplex and transponder modules makes
it possible to combine a traditional SDH node with a WDM node
in the same sub-rack. 252 protected E1 interfaces can easily be
mapped into an STM-16 coloured interface and then multiplexed
together with other wavelengths into one single fibre pair.
The design of the Tellabs 6335 node is based on the most recent
technology, including pluggable transceivers. With these transceiv-
ers, the Tellabs 6335 node supports a wide range of interfaces from
traditional SDH over Ethernet to advanced WDM transceivers.
The Tellabs 6335 node is designed to fit anywhere in the SDH
transport network. The cost-efficient and compact design makes it
a logical choice for the access network, but at the same time it can
also be fitted into core networks. STM-16 and WDM interfaces as
well as redundant switch matrices are mandatory requirements for
core networks. All applications are fully supported by the Tellabs
6335 node.
Network Applications
The Tellabs 6335 node fits into a wide range of applications and
networks. Due to its compact size and modular design, as well as
being cost effective, it is ideal for smaller POP sites with limited
space. The redundant switch matrices, STM-16 interfaces, Ethernet
and WDM Multiplexing capabilities mean that the Tellabs 6335 node
can play an important role in metro and core networks.
Most traffic collected in Mobile Base Stations is groomed and multi-
plexed into a number of E1 lines, mapped into SDH and transported
over STM-1 microwave links.
Equipment protection of the centralized switch matrix and E1 inter-
faces makes the Tellabs 6335 node a good choice for use as a HUB
node in metro and core networks. Traffic from the incoming STM-1
microwave links is groomed and multiplexed into STM-4, STM-16
or handed off as E1s.
The combination of E1s, STM-1s and Ethernet interfaces in the
same node makes the Tellabs 6335 node an important building
block in both GSM (2G) and UMTS (3G) mobile networks as it can
be used as a grooming device in front of Base Station Controllers
(BSC), Mobile Switching Centers (MSC) and Radio Network
Controllers (RNC).
High Performance and Scalability
The Tellabs 6335 node simultaneously offers a compact design
and full redundancy with respect to matrix protection as well as E1
equipment protection.
The redundant cross-connection matrices not only make the
Tellabs 6335 node well suited to be deployed in access networks
and customer locations, but also in core networks. Cross-connection
redundancy makes the Tellabs 6335 node viable as a HUB node
handling high traffic loads.
Thus, the Tellabs 6335 node can be configured as ADM16, which is
able to drop to 16xSTM-1 and 252 protected E1s. Formed in ring or
meshed networks, all traffic going through the Tellabs 6335 node is
fully protected against single point of failures.
With its Ethernet switching capabilities, the Tellabs 6335 node
can be used as a HUB node to offload Ethernet traffic to IP core
networks, for example.
Feature Summary
� Compact Multiservice Provisioning Platform
� Redundant cross-connecting matrices, interface protection and
redundant
power supplies
� MAC, VLAN and MPLS Ethernet switching
� Supported for differentiated service
classes (QoS)
The Tellabs® 6335 Switch Node (2RU and 7RU models)
Tellabs® 6335 Switch Node
DATA SHEET
See tellabs.com for more information about Tellabs Solutions
The Tellabs® 6335 Switch Node is a compact, full-featured Multiservice Provisioning Platform (MSPP).
Sub-racksSC3 Sub-rack
� 2RU high sub-rack with eight traffic slots
SC3-2 Sub-rack
� 7RU high sub-rack with eight traffic slots
plus dedicated slots for E1 interfaces,
including E1 protection
InterfaceOptical SDH interface
� STM-1, STM-4, STM-16, CWDM, DWDM
according to ITU-T G.957, ITU-T G.959.1,
ITU-T G.691, ITU-T G.694.2 and ITU-T
G.995
Electrical PDH and SDH interface
� E1, E3, DS3 and STM-1 according to
ITU-T G.703
� Jitter transfer ITU-T G.783, G.823
and G.825
Ethernet interface
� Fast Ethernet: 10/100Base-T, 100Base-FX,
100Base-BX and 100Base-LX10.
� Gigabit Ethernet: 1000Base-T,
1000Base-SX, 1000Base-LX,
1000Base-BX and 1000Base-ZX.
Ethernet Services
� Ethernet Private Lines (EPL), Ethernet Vir-
tual Private Lines (EVPL) and Ethernet Lo-
cal Area Networks (E-LAN) in accordance
with MEF (MEF-9 and MEF-14 certified)
Layer 3 agnostics
� IP DSCP aware QoS
� IGMP v1, v2 and v3 Snooping according to
IETF RFC3376
Layer 2 — Ethernet
� IEEE 802.3, IEEE 802.1D (MAC switch-
ing), IEEE 802.1Q/1p (priority bit), IEEE
802.1ad(Q-in-Q), IEEE 802.3ah (Ethernet
Link OAM), ITU-T Y.1731 (Ethernet Flow
OAM), IEEE 802.3ad (Link Aggregation),
IEEE 802.1s (MSTP) and IEEE 802.1w
(RSTP)
Layer 2 — T-MPLS
� T-MPLS in accordance with ITU-T
G.8110.1 (Architecture), ITU-T G.8112
(Interfaces), ITU-T G.8121 (Functional
blocks), ITU-T Y.1711 (MPLS OAM),
ITU-T Y.1720 (1:1 LSP Protection)
� Ethernet pseudowire support (PWE3)
Layer 1
� Encapsulation according to ITU-T G.7041
(GFP mapping into SDH), ITU-T G.8040
(GFP mapping into PDH), Link Fault Pass-
Through
� LCAS according to ITU-T G.7042 (SDH)
and G.7043 (PDH)
ProtectionNetwork protection
� SNC/I and SNC/N according to ITU-T
G.783 and G.841
� MSP1+1 according to ITU-T G.841
� Two-fibre MS-SPRing according to
ITU-T G.841
Equipment protection
� 1+1 Cross-connection matrix protection
� 1:1 and 1+1 Power Supply protection
(configurable)
� 1+1 E1, E3 and DS3 protection
ConnectivityCross-connect levels
� VC-12, VC-3, VC-4
Cross-connect size
� 104 ports 4/4 switch matrix
� 16 ports 4/3/1 switch matrix
Multiplexing specification
� ETSI: ETS 300 147
SynchronisationSynchronisation sources
� STM-N interface (T1)
� 2 Mbit/s tributaries (T2)
� 2 MHz station clock ports (T3)
Synchronisation outputs
� 2 MHz station clock ports (T4)
Synchronisation management
� SSM support according to
ETS 300 417-6-1
Other FeaturesPerformance monitoring
� According to ITU-T G.784
ManagementTellabs® 6300 Network Management System
� General SDH management in accordance
with ITU-T G.784
Tellabs® 8000 Network Manager
� End-to-end network manager across
Tellabs 6300/8100/8600 networks
Power SpecificationsDC power supply
� 2 inputs at -48V with 1+1 redundancy
� Operation range: -40.5V to -72V DC
Environmental ConditionsEnvironmental specifications
� According to ETS 300 019-1-3 class 3.3
EMC
� According to EN 300 386
Safety
� According to EN 60950-1
DimensionsSC3 Sub-rack
� 441 x 260 x 86 mm (WxDxH)
SC3-2 Sub-rack
� 441 x 260 x 310 mm (WxDxH)
2 TELLABS® 6335 SWITCH NODE
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
Asia Pacific
Tellabs
3 Anson Road
#14–01 Springleaf Tower
Singapore 079909
Republic of Singapore
+65 6215 6411
Fax: +65 6215 6422
Europe, Middle East & Africa
Tellabs
Abbey Place
24–28 Easton Street
High Wycombe, Bucks
HP11 1NT
United Kingdom
+44 871 574 7000
Fax: +44 871 574 7151
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
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®. Statements herein may contain projections or other
forward-looking statements regarding future events, products, features, technology and resulting commercial or technological benefits and advantages. These statements are for discussion purposes only, are subject to change and are not to be construed
as instructions, product specifications, guarantees or warranties. Actual results may differ materially. The information contained herein is not a commitment, promise or legal obligation to deliver any material, code, feature or functionality. It is intended to
outline Tellabs’ general product direction. The development, release and timing of any material, code, feature or functionality described herein remains at Tellabs’ sole discretion.
© 2010 Tellabs. All rights reserved. 74.1989E Rev. B 12/10