Extreme Networks | Summit 400-48t | Summit® 400-48t - Andover Consulting Group, Inc.

Extreme Networks Data Sheet
Summit® 400-48t
Summit 400-48t sets the standard for intelligent
edge switching.
Intelligence to Support New Services
and Simplify the Network
• Intelligence to adapt to network priorities
• Intelligence to protect the network edge
• Common management interface with all Extreme Networks
switches
High Availability to Keep Users
Connected and Productive
• Resilient system design
• Ethernet Automatic Protection Switching (EAPS)–sub-second
Layer 2 resiliency with every switch
• Software enhanced availability
Technology That Preserves Your
Investment
• Designed for scalability
• 10 Gigabit Ethernet at the edge—when you need it
• UniStackTM stacking to support converged services
Summit 400-48t enables deployment of new intelligent services
for today’s high-performance converged networks.
The Extreme Networks® Summit 400-48t is
designed to meet the performance and availability
requirements of today’s high-performance converged
networks that require Gigabit Ethernet connectivity. Converged applications like IP Telephony,
video and wireless LAN require enhanced
resiliency and reduced latency. Summit 400-48t
was designed to support evolving applications
with exceptional Quality of Service (QoS), low
latency, exceptional resiliency and line-rate
performance for the full range of applications on
a converged network. Summit 400-48t provides
high throughput along with 10 gigabit uplinks for
unparalleled performance in a compact one rack
unit format.
Summit 400-48t can be stacked together with the
other members of the Summit 400 series switch
family using Extreme Networks high bandwidth
UniStack™ stacking technology thereby bringing
many of the advantages of a chassis-based solution
to a stack of fixed switches. Summit 400-48t provides
high availability to keep users connected, network
intelligence to support new services and
investment protection through advanced
upgradeable technology.
Target Applications
• High-bandwidth connectivity to support
applications such as engineering design
• High throughput server aggregation utilizing
10 gigabit uplinks
• Technology refresh to help future-proof
networks by adding tri-speed
10/100/1000BASE-T connectivity which
supports legacy as well as high-speed devices
Extreme Networks Data Sheet
Intelligence to Support New Services and Simplify the Network
Summit 400-48t delivers the ability to easily deploy new services such as security, bandwidth tracking and traffic prioritization.
With Layer 3 intelligence, high-performance and throughput capacity, Summit 400-48t helps deliver a full range of applications
on a converged network.
Intelligence to Adapt to
Network Priorities
Quality of Service
Summit 400-48t uses advanced DiffServ
and 802.1p (Class of Service) protocols
for QoS. These protocols classify,
prioritize and mark LAN traffic as a way
to efficiently use existing bandwidth and
offer reliable connectivity for missioncritical applications and converged
networks that are susceptible to bandwidth availability, system latency
and jitter.
Policy-Based Rate Limiting
Summit 400-48t supports up to 5,800
central rate limiters to automatically
control bandwidth use and increase
overall network efficiency. For PolicyBased Mapping, rate limiters can be
applied to Layers 1 – 4 and can re-write
DiffServ code points and 802.1p Class
of Service.
The central flow control rate limiting
feature in Summit 400-48t adds a valuable
tool for bandwidth management on
ingress traffic. Similar to an ACL, the rate
limiting feature inspects incoming packet
headers to allocate a predefined amount
of bandwidth for that traffic flow. If the
flow exceeds the assigned bandwidth,
excess packets are either dropped or
modified by resetting their DiffServ code
point. Rate limits can be configured from
1 Mbps in 1 Mbps increments up to full
line-rate. Rate limiting is an excellent
method of managing and prioritizing the
total traffic coming into a switch and it
also enables control of the amount of
bandwidth any port, user or application is
allowed to consume.
Intelligence to Protect the
Network at the Edge
Network Login and 802.1x
The Network Login feature on
Summit 400-48t is a comprehensive user
authentication tool that ensures that every
user on every port can be authenticated.
When a hub or Wireless Access Point
(WAP) is attached to the switch running
802.1x, the first user on the hub or WAP is
authenticated. With Network Login and
Multiple Supplicant support,
Summit 400-48t also challenges and
authenticates any subsequent users
connecting to the hub or WAP.
Security with Multiple Users on a
Single Port
Normally, when the switched port is
shared, a single user authentication opens
that port for all other users, authorized or
not. Summit 400-48t solves this problem
through the multiple supplicant feature of
ExtremeWare® 802.1x Network Login.
This feature associates the user with the
device which is accessing the network. For
example, a user may access the network
from his/her PC by submitting an authorized password. If a second user wants
LAN access from a different device
through the same port via a shared
access device (such as a hub or WAP),
the second user can only enter the LAN
with the correct password.
Secure Shell 2
Summit 400-48t supports Secure Shell 2
(SSH2) to securely transfer switch
configurations and ExtremeWare images
into and out of the switch. To fix the known
limitations in SSH, it is critical that customers
use the latest SSH2 version as supported in
Summit 400-48t.
Common Management Interface
with all Extreme Networks
Switches
Compatible Command Line
Interface Across All Platforms
Summit 400-48t uses the same
ExtremeWare management commands and
has the same look and feel as all other
Extreme Networks switches resulting in a
common end-to-end management solution
that reduces training expenses and
management costs throughout the
network. Summit 400-48t supports
extensive management interfaces through
standard management tools like SNMP,
RMON and Command Line Interface.
Summit 400-48t supports web-based,
HTML management for an advanced
“manage-anywhere” capability.
Network
Multiple Supplicant feature
enables security for multiple
users on a single port.
Summit 400-48t
Security with Multiple Users on a Single Port
© 2006 Extreme Networks, Inc. All rights reserved.
Summit 400-48t—Page 2
Extreme Networks Data Sheet
High Availability to Keep Users Connected and Productive
Availability is critical to end-user productivity. Advanced availability features normally found on more expensive core switches are
now standard on Summit 400-48t. Features such as hardware redundancy that keep the switch up and running are combined
with advanced ExtremeWare availability software to dynamically route around problems in the network so that the end user is
not only connected, but remains productive.
Resilient System Design
High Availability Uplinks
Summit 400-48t supports redundant
copper and/or fiber Gigabit Ethernet
uplinks and redundant 10 Gigabit
Ethernet uplinks for the highest uplink
capacity at the edge and the greatest
redundancy. If any single uplink port is
not available, Summit 400-48t can
automatically failover to the redundant
port for maximum resiliency and connectivity. The result is true high availability—
the user stays connected to the network
and remains productive.
External Power System
Extreme Networks has long been a leader
in providing redundant power at the
edge, but Summit 400-48t takes this
feature to a new level. Extreme Networks
offers an External Power System that
supports multiple Summit 400-48t
switches, all with full power simultaneously. This power system provides 1-for-1
power for every Summit 400-48t connected. No more worrying about inadequate
power if more than a single switch fails; the
External Power System provides full
redundant power for every Summit 400-48t
switch. The External Power System automatically senses when the internal power
supply has failed and immediately provides redundant power to the switch,
preventing any loss of data.
EAPS–Sub-Second Layer 2
Resiliency with Every Switch
With ExtremeWare 7.3e and beyond, the
standard edge license that ships with
Summit 400-48t provides EAPS-Edge
(RFC 3619) to deliver sub-second (usually
less than 50ms recovery) protection
switching to Layer 2 switches interconnected in an Ethernet ring topology. EAPS
offers the advantage of converging in
significantly less time than Spanning Tree
Protocol (STP) or even Rapid Spanning
Tree (802.1w) when a link breaks in the
ring. 50ms convergence times are invisible
to routing protocols so the routing protocols
don’t need to re-converge. Voice-over-IP
(VoIP) calls don’t drop and video feeds
don’t flicker because EAPS enables the
users to stay connected even when there
are link failures in the upstream network.
Software Enhanced Availability
Summit 400-48t uses advanced Layer 3
availability intelligence to route around
problems in the upstream network so that
even if part of the network infrastructure
is down, users remain connected to the
network and are productive. Using
advanced Layer 3 protocols like OSPF and
ESRP, the Summit 400-48t is continuously
aware of the status of uplink connections,
and dynamically routes around any
problem. Network administrators can now
create non-stop routing topologies that
combine with switch hardware redundancy to deliver higher levels of availability.
Equal Cost Multi-Path
Summit 400-48t supports the Equal Cost
Multi-Path feature that not only improves
switch availability, but also improves
performance and saves the customer
money. Equal Cost Multi-Path enables dual
uplinks to be load balanced for performance and cost savings while also
supporting redundant failover. If one
uplink fails, traffic is automatically routed
to the remaining uplink and connectivity
is maintained.
Rapid Spanning Tree (802.1w)
Summit 400-48t includes both standard
STP and Rapid Spanning Tree Protocol
(RSTP), which provide standards-based
Layer 2 resiliency. RSTP delivers
significantly faster convergence than STP,
though never in the sub-second interval
that EAPS can provide. Summit 400-48t
also provides compatibility with Per-VLAN
Spanning Tree (PVST+) and Extreme
Multiple Instance Spanning Tree (EMISTP).
These protocols run in compatibility mode,
single domain per port, to support resilient
connectivity with aggregation switches
running EMISTP and PVST+.
Software Redundant Port
In addition to EAPS, Summit 400-48t
provides a software redundant port—a
unique alternative to Spanning Tree for
redundant link management. Operating at
Layer 1, this resiliency alternative provides
simple, efficient link failovers based on
physical port status, without the need to
run a bridge topology protocol such as
STP. This feature works equally well with
single ports or load-shared port aggregations, and provides easy-to-configure
physical link redundancy.
Summit 400-48t HIgh Availability Features
© 2006 Extreme Networks, Inc. All rights reserved.
Summit 400-48t—Page 3
Extreme Networks Data Sheet
Technology That Preserves Your Investment
With UniStack stacking, Summit 400-48t and other switches in the Summit 400 product family, deliver the best of both
worlds: the benefits of a chassis at the cost of a stackable in an architecture designed to support today’s evolving LAN
applications. The resulting network simplification yields lower management and maintenance costs, while enhancing
overall availability. UniStack stacking on Summit 400-48t preserves the initial network investment while providing the
flexibility to build and expand as network requirements grow.
Designed for Scalability
Summit 400-48t delivers 10/100/1000
density, scalability and port flexibility
allowing customers to easily expand
their network and make the most efficient
use of available rack space. In just 1.75”
(1RU), Summit 400-48t supports:
• 48 copper Gigabit Ethernet ports
(10/100/1000BASE-T)
• 4 ports of SFP MiniGBICs (logically
shared with the 1000BASE-T
ports)
• 2 ports of 10 gigabit uplinks
(optional)
• 10/100/1000 port for out-of-band
management
ments. The two 10 gigabit uplinks, highperformance switch fabric and 101 Mpps
throughput ensure that Summit 400-48t
will continue to be a critical edge solution in
your network for years to come.
Small, Medium, Large Networks
Supported
Summit 400-48t supports up to 16,000
MAC addresses, 4,000 Layer 3 forwarding
database entries in hardware or 64,000
routing table entries, making this an ideal
switch for both wiring closet implementations and enterprise branch offices. Even
as your network grows, the large table
sizes supported in Summit 400-48t make
this an excellent long-term solution more
than capable of supporting network growth.
Wire-Speed Access Control Lists
• 1 serial port
160 Gigabit per Second Switch
Fabric
Summit 400-48t delivers outstanding
switch fabric and throughput performance giving users the bandwidth their
applications require. Summit 400-48t has
160 gigabits per second (Gbps) capacity
supporting 101 million packets per
second, making it a high-performance
fixed configuration edge switch. This
helps ensure that Summit 400-48t will
have the capacity to support evergrowing end user bandwidth require-
Wire-speed Access Control Lists (ACLs)
are powerful security tools and the use of
ACLs in networks is likely to increase as a
way to combat security threats. However,
the value of ACLs is diminished if by
applying them, traffic slows down, creating
a congestion point. Summit 400-48t
delivers wire-speed ACLs on every port for
security while maintaining throughput.
With Summit 400-48t, an IT manager can
turn on ACLs whenever they are needed
without worrying about disrupting business
applications or reducing productivity.
Core
10 Gigabit
Wiring
Closet
1 Gigabit
Gigabit to the Desktop
© 2006 Extreme Networks, Inc. All rights reserved.
Jumbo Frame Support
Jumbo frames of up to 9,216 bytes are
supported—making Summit 400-48t an
ideal switch for new applications requiring
large frames such as storage and graphic/
video applications. Studies have indicated
that jumbo frames are particularly important in high performance cluster computing
applications where their use can reduce
server CPU loads by as much as 50%.
10 Gigabit Ethernet at the
Edge–When You Need It
Summit 400-48t delivers the industry’s first
fixed configuration edge switch with two 10
gigabit uplinks so the edge switch uplink
capacity can grow as the end user’s
bandwidth demands grow. Based on a
modular design, an optional 10 gigabit
“daughter card” can be added to Summit 400-48t delivering immediate
support for two 10 gigabit XENPAK I/O
modules. This advanced design enables the
user to easily upgrade Summit 400-48t to
multiple 10 gigabit uplinks when added uplink
capacity is required.
UniStack Stacking to Support
Converged Services
Latency and jitter can be lethal to realtime applications, such as voice and video.
Summit 400-48t and UniStack stacking
architecture were designed to support
converged services. The significant
throughput provided by UniStack stacking—up to 160 Gbps per stack, and the
distributed, shortest path forwarding—
provides performance comparable with
chassis switches. Resiliency is of key
importance for these converged applications like video and IP Telephony and is
assured by redundant bidirectional ring
architecture and n-1 master redundancy,
distributed Layer 2 and Layer 3 link
aggregation, link redundancy, and
distributed uplinks. The resulting network
simplification yields lower management
and maintenance costs, while enhancing
overall availability. UniStack stacking on
Summit 400 series switches transfers
inter-switch packets at a nominal 20 Gbps,
with instantaneous throughput at any
switch reaching 40 Gbps, and a total stack
bandwidth peaking at 160 Gbps.
Summit 400-48t—Page 4
Extreme Networks Data Sheet
Technical Specifications
ExtremeWare 7.7 Supported
Protocols
General Routing and Switching
• RFC 1812 Requirements for IP Version 4
Routers
• RFC 1519 CIDR
• RFC 1256 IPv4 ICMP Router Discovery (IRDP)
• RFC 1122 Host Requirements
• RFC 768 UDP
• RFC 791 IP
• RFC 792 ICMP
• RFC 793 TCP
• RFC 826 ARP
• RFC 894 IP over Ethernet
• RFC 1027 Proxy ARP
• RFC 2338 VRRP
• RFC 3619 Ethernet Automatic Protection
Switching (EAPS) and EAPSv2
• IEEE 802.1D – 1998 Spanning Tree Protocol
(STP)
• IEEE 802.1w – 2001 Rapid Reconfiguration for
STP, RSTP
• IEEE 802.1s – 2004 Multiple Instances of STP,
MSTP
• Extreme Multiple Instances of Spanning Tree
Protocol (EMISTP)
• PVST+, per VLAN STP (802.1Q interoperable)
• Extreme Standby Router Protocol (ESRP)
• IEEE 802.1Q – 2003 Virtual Bridged Local Area
Networks
• Extreme Discovery Protocol (EDP)
• Static Unicast Routes
• Extreme Loop Recovery Protocol (ELRP)
• Software Redundant Ports
VLANs
• IEEE 802.1Q VLAN Tagging
• IEEE 802.3ad Static configuration and dynamic
(LACP) for server attached
• IEEE 802.1v: VLAN classification by Protocol
and Port
• Port-based VLANs
• MAC-based VLANs
• Protocol-based VLANs
• Multiple STP domains per VLAN
Quality of Service and Policies
• IEEE 802.1D – 1998 (802.1p) Packet Priority
• RFC 2474 DiffServ Precedence, including 8
queues/port
• RFC 2598 DiffServ Expedited Forwarding (EF)
• RFC 2597 DiffServ Assured Forwarding (AF)
• RFC 2475 DiffServ Core and Edge Router
Functions
• Ingress Rate Limiting
• Layer 1-4, Layer 7 (user name) Policy-Based
Mapping
• Policy-Based Mapping/Overwriting of DiffServ
code points, .1p priority
• Network Login/802.1x and DLCS (Dynamic Link
Context System, WINS snooping) based
integration with EPICenter Policy Manager for
dynamic user/device based policies
RIP
• RFC 1058 RIP v1
• RFC 2453 RIP v2
OSPF
• RFC 2328 OSPF v2 (including MD5 authentication)
• RFC 1587 OSPF NSSA Option
• RFC 1765 OSPF Database Overflow
• RFC 2370 OSPF Opaque LSA Option
Note: OSPF Edge License includes 2 active
interfaces, router priority 0
© 2006 Extreme Networks, Inc. All rights reserved.
IP Multicast
• RFC 2362 PIM-SM
• RFC 1112 IGMP v1
• RFC 2236 IGMP v2
• IGMP Snooping with Configurable Router
Registration Forwarding
• IGMP Filters
• Static IGMP Membership
• Static Multicast Routes
• Mtrace, draft-ietf-idmr-traceroute-ipm-07
• Mrinfo
Management and Traffic Analysis
• RFC 2030 SNTP, Simple Network Time Protocol v4
• RFC 1866 HTML – web-based device management and Network Login
• RFC 2068 HTTP server
• RFC 854 Telnet client and server
• RFC 783 TFTP Protocol (revision 2)
• RFC 951, 1542 BootP
• RFC 2131 BOOTP/DHCP relay agent and DHCP
server
• RFC 1591 DNS (client operation)
• RFC 1155 Structure of Mgmt Information
(SMIv1)
• RFC 1157 SNMPv1
• RFC 1212, RFC 1213, RFC 1215 MIB-II,
Ethernet-Like MIB & TRAPs
• RFC 1573 Evolution of Interface
• RFC 1901 – 1908 SNMP Version 2c, SMIv2 and
Revised MIB-II
• RFC 2570 – 2575 SNMPv3, user based
security, encryption and authentication
• RFC 2576 Coexistence between SNMP Version
1, Version 2 and Version 3
• RFC 2665 Ethernet-Like-MIB
• RFC 1757 RMON 4 groups: Stats, History,
Alarms and Events
• RFC 2021 RMON2 (probe configuration)
• RFC 2668 802.3 MAU MIB
• RFC 1643 Ethernet MIB
• RFC 1493 Bridge MIB
• RFC 2737 Entity MIB, Version 2
• RFC 2674 802.1p/802.1Q MIBs
• RFC 1354 IPv4 Forwarding Table MIB
• RFC 2233 Interface MIB
• RFC 2096 IP Forwarding Table MIB
• RFC 1724 RIPv2 MIB
• RFC 1850 OSPFv2 MIB
• RFC 2787 VRRP MIB
• RFC 2925 Ping/Traceroute/NSLOOKUP MIB
• RFC 2932 – IPv4 Multicast Routing MIB
• RFC 2933 – Internet Group Management
Protocol MIB
• RFC 2934 – Protocol Independent Multicast
MIB for IPv4
• Draft-ietf-bridge-rstpmib-03.txt – Definitions of
Managed Objects for Bridges with Rapid
Spanning Tree Protocol
• draft-ietf-bridge-8021x-01.txt (IEEE8021-PAE-MIB)
• IEEE 802.1x – 2001 MIB
• Extreme extensions to 802.1x-MIB
• Secure Shell (SSHv2) clients and servers
• Secure Copy (SCPv2) client and server
• Secure FTP (SFTP) server
• Configuration logging
• Multiple Images, Multiple Configs
• BSD System Logging Protocol (SYSLOG), with
Multiple Syslog Servers
• Local Messages (criticals stored across
reboots)
• IEEE 802.1ab LLDP
ExtremeWare vendor MIBs: includes ACL, MAC
FDB, IP FDB, MAC Address Security, Software
Redundant Port, NetFlow, DoS-Protect MIB, QoS
policy, Cable Diagnostics, VLAN config, vMAN, VLAN
Translation and VLAN Aggregation MIBs
Security
• Routing protocol MD5 authentication (see above)
• Secure Shell (SSHv2), Secure Copy (SCPv2) and
SFTP with encryption/authentication
• SNMPv3 user based security, with encryption/
authentication (see above)
• RFC 1492 TACACS+
• RFC 2865 RADIUS Authentication
• RFC 2866 RADIUS Accounting
• RFC 3579 RADIUS Support for Extensible
Authentication Protocol (EAP)
• RFC 3580 802.1X RADIUS
• RADIUS Per-command Authentication
• MAC based Network Login usingRADIUS
• Access Profiles on All Routing Protocols
• Access Profiles on All Management Methods
• Network Login (web-based DHCP/HTTP/RADIUS
mechanism)
• RFC 2246 TLS 1.0 + SSL v2/v3 encryption for
web-based Network Login
• IEEE 802.1x – 2001 Port-Based Network Access
Control for Network Login
• Multiple supplicants for Network Login (web-based
and 802.1x modes)
• Guest VLAN for 802.1x
• MAC Address Security – Lockdown, limit and
aging
• IP Address Security with DHCP Option 82, DHCP
Enforce/Duplicate IP Protection via ARP Learning
Disable
• Network Address Translation (NAT)
• Layer 2/3/4/7 ACLs
• Source IP Lockdown – Dynamic filtering against
invalidly sourced traffic
Denial of Service Protection
• RFC 2267 Network Ingress Filtering
• RPF (Unicast Reverse Path Forwarding) Control via
ACLs
• Wire-speed ACLs
• Rate Limiting ACLs
• IP Broadcast Forwarding Control
• ICMP and IP-Option Response Control
• SYN attack protection
• FDB table resource protection via IPDA Subnet
Lookup
• CPU DOS protection with ACL integration:
Identifies packet floods to CPU and sets an ACL
automatically, configurable enhanced DoS Protect
• Unidirectional Session Control
Robust Against Common Network Attacks
• CERT ( http://www.cert.org)
– CA-2003-04: “SQL Slammer”
– CA-2002-36: “SSHredder”
– CA-2002-03: SNMP vulnerabilities
– CA-98-13: tcp-denial-of-service
– CA-98.01: smurf
– CA-97.28: Teardrop_Land -Teardrop and “LAND”
attack
– CA-96.26: ping
– CA-96.21: tcp_syn_flooding
– CA-96.01: UDP_service_denial
– CA-95.01: IP_Spoofing_Attacks_and_Hijacked_
Terminal_Connections
– IP Options Attack
Host Attacks
• Teardrop, boink, opentear, jolt2, newtear, nestea,
syndrop, smurf, fraggle, papasmurf, synk4,
raped, winfreeze, ping –f, ping of death, pepsi5,
Latierra, Winnuke, Simping, Sping, Ascend,
Stream, Land, Octopus
Summit 400-48t—Page 5
Extreme Networks Data Sheet
Technical Specifications
General Specifications
Performance
• 160 Gbps switch fabric bandwidth
• 101 Mpps frame forwarding rate:
• 9216 Byte maximum packet size (Jumbo Frame)
• 8 link load sharing trunk, 8 members per trunk
• 8 QoS queues/port
• 4096 VLANs (Port, IEEE 802.1Q, MAC-based)
• 5520 total number of ACL Rules/lines
- 115 rules per port
- ACL rules can be applied to ingress
- Additional ACL rules on optional 10 Gigabit
Plug-In module
Rate Limiting
• Central flow based bandwidth policing/rate
limiting: packets are classified after Ingress
into flows with ACLs and a rate
limiter is assigned to a given flow
Ingress Rate Limiting Granularity: 1Mb/s
• Available Rate Limiters: 3024 (63 per port)
Indicators
• Per port status LED
• System Status LEDs: management, fan and
power
Ports
• 48 ports 10/100/1000BASE-T
• 4 ports SFP (mini GBIC, shared with
1000BASE-T)
• Option module, 2 ports for 10 Gigabit XENPAK
• 1 port 10/100/1000 BASE-T (management)
• 1 port Serial (control point)
• 2 ports 10 gigabit stacking
Forwarding Tables
• Layer 2/MAC Addresses: 16K
• Layer 3 forwarding database in hardware: 4K
• Layer 3 routing table size: 64K
Physical Specifications
Dimensions
Height 1.7 Inches/4.3 Cm
Width 17.4 Inches/44.2 Cm
Depth 17 Inches/43.2 Cm
Weight 11 lbs/5 Kg
EPS Dimensions
EPS-T
Height 1.75 Inches/4.4 Cm
Width 17.4 Inches/44 Cm
Depth 7.6 Inches/19.3 Cm
EPS-160
Height 1.7 Inches/4.3 Cm
Width 7.4 Inches/18.8 Cm
Cable Length 1 Meter
Operating Specifications
Temperature
• Operating Temperature Range, Degrees Celsius/
Fahrenheit: 0° to 40° C (32° to 104° F)
• Storage Temperature Range, Degrees/Degrees
Celsius: -40° to +70° C (-40° to 158° F)
• Humidity Range: 10-95% (RH) non-condensing
Acoustic
• Compliant with NEBS GR-63-Core spec • The max measured value is 58dbA
Power
• Auto-ranging 100-240VAC, 50-60 Hz
• Min Voltage/Associated Current: 100VAC/4A
• Line Frequency: 50-60 Hz
• Max Voltage/Associated Current: 240VAC/2A
• Heat Dissipation, Watts/BTU: 160W/
546BTU/hr
© 2006 Extreme Networks, Inc. All rights reserved.
• External Power System connector
• External Power System EPS-160 module
- Heat Dissipation, Watts/BTU: 160W/
546BTU/hr
- 100-240VAC, 4A-2A
Reliability
• Calculated MTBF: 77,934 hours, without EPS160 External Power System
• Calculated MTBF with EPS-160: 79,164 hours
• Calculated MTBF for EPS-160: 1,230,089
hours
• Calculated MTBF for XEN 10-Gigabit Card:
1,230,089 hours
• Method: Bellcore TR-332 Operating @ 40 °C
Regulatory/Safety
Safety
North America
• cULus Listed device – UL 60950 3rd Edition
(U.S. Safety) – CAN/CSA-C22.2 No. 60950-00
(Canadian Safety)
Europe
• Low Voltage Directive (LVD)
• TUV-R GS Mark by German Notified BodyEN60950:2000 (European Safety)
International
• CB Scheme – IEC60950: 2000 with all country
deviations (International Safety)
Country Specific
• Mexico NOM/NYCE (Product Safety & EMC
Approval)
• Australia/New Zealand AS/NZS 3260 (ACA
DoC, Safety of ITE)
• Argentina S-Mark
• GOST (Russia)
Laser Safety
North America
• FCC 21 CFR subpart (J) (Safety of Laser
Products)
• CDRH Letter of Approval (U.S. FDA Approval)
Europe
• EN60825-2 (European Safety of Lasers)
EMI/EMC
North America
• FCC 47 CFR Part 15 Class A (U.S. Emissions)
• ICES-003 Class A (Canada Emissions)
Europe
• 89/336/EEC EMC Directive
• ETSI/EN 300 386:2001 (EU Telecommunication
Emissions & Immunity)
• EN55022:1998 Class A (Europe Emissions)
• EN55024:1998 includes IEC/EN 610002,3,4,5,6,11 (Europe Immunity)
• EN 61000-3-2, -3 (Europe Harmonics and
Flicker)
International
• IEC/CISPR 22:1997 Class A (International
Emissions)
• IEC/CISPR 24:1998 (International Immunity)
• IEC/EN 61000-4-2 Electrostatic Discharge
• IEC/EN 61000-4-3 Radiated Immunity
• IEC/EN 61000-4-4 Transient Bursts
• IEC/EN 61000-4-5 Surge
• IEC/EN 61000-4-6 Conducted Immunity
• IEC/EN 61000-4-11 Power Dips &
Interruptions
Country Specific
• Japan Class A (VCCI Registration, Emissions)
• Australia/New Zealand AS/NZS 3548 (ACA
DoC, Emissions)
• Korean MIC Mark (MIC Approval, Emissions &
Immunity)
• Mexico NOM/NYCE (Product Safety & EMC
Approval)
• GOST (Russia)
• Taiwan CNS 13438:1997 Class A (BSMI
Approval, Emissions)
Environmental
Standard
• EN 300 019-2-1 (2000-09) – Storage Class
1.2-packaged
• EN 300 019-2-2 (1999-09) – Transportation
Class 2.3 (Packaged
• EN 300 019-2-2 (1999-09) – Stationary Use at
Weather protected Locations, Class 3.1e Operational
• EN 300 753 (1997-10) – Acoustic Noise –
Operational
• ASTM D5276 * – Drop – Package
• ASTM D3332 * – Shock – Unpackaged
• ASTM D3580 * – Random Vibration –
Unpackaged
• ASTM D6179 * – Tilt – Packaged
*Additional testing requested by
Extreme Networks
Warranty
• Limited Lifetime Hardware Warranty
• 90-days on Software
Summit 400-48t—Page 6
Extreme Networks Data Sheet
Ordering Information
Part
Number
Name
Description
16101
Summit 400-48t
16102
16106
16107
16108
16111
Summit 400-48t Advanced
Edge Voucher
Stacking cable, 0.5M
Stacking cable, 1.5M
Stacking cable, 3.0M
XGM-2xn
Summit 400-48t, 48 10/100/1000BASE-T, 4 mini-GBIC, ExtremeWare
Edge software license
Summit 400-48t ExtremeWare Advanced Edge Upgrade Voucher
10906
10907
10051
10052
10053
EPS-T
EPS-160
SX mini-GBIC
LX mini-GBIC
ZX mini-GBIC
10110
SR XENPAK
10111
LR XENPAK
10112
ER XENPAK
10113
ZR XENPAK*
10114
LX4 XENPAK
Summit UniStack stacking cable, 0.5M
Summit UniStack stacking cable, 1.5M
Summit UniStack stacking cable, 3.0M
Option module with two unpopulated XENPAK ports for Summit X450 series and
Summit 400-48t
External Power System tray, accepts up to 2 EPS power modules
External Power System module, 160 watts, for use with EPS-T
1-port, Mini-GBIC, SFP, 1000BASE-SX, LC connector
1-port, Mini-GBIC, SFP 1000BASE-LX, LC connector
1-port, Mini-GBIC, SFP, Extra long distance SMF 70 Km/21 dB budget,
LC connector
10 Gigabit Ethernet XENPAK Transceiver, 850 nm, up to 300 m on multimode
fiber, SC connector
10 Gigabit Ethernet XENPAK Transceiver, 1310 nm, up to 10 km on single-mode fiber,
SC connector
10 Gigabit Ethernet XENPAK Transceiver, 1550 nm, up to 40 km on single-mode fiber,
SC connector
10 Gigabit Ethernet XENPAK Transceiver, 1310 nm, up to 300 m on multimode fiber
and up to 10 Km on single mode fiber, SC connector
10 Gigabit Ethernet XENPAK Transceiver, 1550 nm, up to 80 Km on single-mode fiber,
SC connector
* XGM-2xn (16111) can support up to one ZR XENPAK (10113). The following configurations are supported:
• One ZR XENPAK + One SR XENPAK
• One ZR XENPAK
www.extremenetworks.com
email: info@extremenetworks.com
Corporate
and North America
Extreme Networks, Inc.
3585 Monroe Street
Santa Clara, CA 95051 USA
Phone +1 408 579 2800
Europe, Middle East, Africa
and South America
Phone +31 30 800 5100
Asia Pacific
Phone +852 2517 1123
Japan
Phone +81 3 5842 4011
© 2006 Extreme Networks, Inc. All rights reserved. Extreme Networks, the Extreme Networks Logo, ExtremeWare, and Summit are either registered trademarks or trademarks of Extreme
Networks, Inc. in the United States and/or other countries.
Specifications are subject to change without notice.
1072_04
11/06
Summit 400-48t Data Sheet
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