Download H3C SR8800 10G Core Routers

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H3C SR8800 10G Core Routers
Product overview
H3C SR8800 10G Core Routers (hereinafter referred to as the SR8800) are developed by Hangzhou H3C Technologies Co., Ltd.,
based on its thorough research and deep understanding of user needs. The SR8800 can be widely deployed at IP backbone networks,
metropolitan area networks (MANs) and the core and distribution layers of large IP networks. Featuring powerful forwarding
capabilities and a variety of functions, the SR8800 can well satisfy users' diversified networking needs.
The SR8800 is designed of plane separation and three-engine forwarding. The SR8800 uses distributed high-performance network
processors (NPs) for hardware forwarding and adopts the large-volume crossbar non-blocking switching technology to ensure high
processing performance and excellent scalability. Through the distributed dedicated quality of service (QoS) modules, the SR8800
provides fine-tuning control and end-to-end QoS for the core applications running on it. In addition, the SR8800 ensures
non-interrupted businesses with the distributed operation, administration and maintenance (OAM) detection engine, which realizes
fault detection within 30 ms. The SR8800 adopts IRF2, which virtualizes multiple SR8800 routers into one logical router. The logical
router uses one control plane and one forwarding plane, reducing network nodes, simplifying network configuration, and improving
network availability. In short, by taking full advantage of the innovative technologies and the fine-tuning QoS mechanism, the SR8800
guarantees the smooth operation of concurrent applications for multiple users.
H3C SR8800 10G core routers
Features and benefits
Innovative architecture
Using the innovative architecture of four-plane separation and three-engine forwarding, the SR8800 integrates the crossbar
non-blocking switching technology into its 10G NP platform, thus satisfying users' requirements on application processing
performance and capacity. This plane separation architecture minimizes the impact on the forwarding plane caused by system
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functional modules such as the management module and monitor module, so that the forwarding plane can focus on the application
processing to realize 10 Gbps line speed forwarding. The distributed forwarding engine enables the use of hardware in processing
applications on the base cards. The SR8800 base cards accommodate NP engine, QoS engine and table search engine at the same
time. They use a dedicated forwarding control engine to redirect processes such as table entry lookup and QoS, all of which are
previously handled by the NP engine, to the table search engine and QoS engine. This method greatly speeds up the application
processing, allowing the system to implement fine-tuning QoS and genuine end-to-end flow control in addition to the 10 Gbps line
speed processing of applications.
Dedicated OAM engine
On the basis of the two planes (control plane and forwarding plane) of traditional core routers, the SR8800 is designed with a unique
OAM detection plane using the dedicated OAM engine. This plane monitors network operation and ensures non-interrupted
operation with the capability of 30 ms failure detection and 20 ms switchover. The detection plane, which is independent of the
control plane and the forwarding plane, ensures carrier-class reliability for users.
In addition, the SR8800 supports a complete reliability mechanism including 1+1 redundancy backup for key components, hot
swapping, and hotfix.
Built-in QoS engine
The built-in QoS engine supports hierarchical QoS (HQoS), enabling QoS scheduling based on ports, individual users, user groups,
and user applications. The cooperation of HQoS and MPLS TE allows bandwidth reservation and dispatch by tunnel or by
application.
The QoS engine provides a variety of functions including multiple queuing mechanisms (priority queuing, low latency queuing, custom
queuing, weighted fair queuing, class-based weighted fair queuing), congestion avoidance, traffic policing, traffic shaping and
priority marking, ensuring differentiated services (bandwidth, delay and jitter) for different users and applications.
The QoS engine also provides a powerful packet buffer capability of 200 ms, which can effectively solve the packet loss problem
caused by burst traffic on the network.
The Crossbar switching fabric on the SR8800 supports virtual output queuing (VOQ) and end-to-end flow control technologies, which
can effectively avoid head of line (HOL) blocking and implement differentiated services on the Crossbar.
Open application architecture
Inherited with H3C's design idea of open application architecture (OAA), the SR8800 adopts open architecture platform (OAP) cards,
such as build-in firewall card and intrusion protection system (IPS) card, satisfying the requirements for business customization and
system upgrade, and realizing the seamless integration of the core router and application systems.
Comprehensive IPv6 solution
As the fundamental protocol of the next generation network, IPv6 has been widely recognized for its unique technical advantages. The
SR8800 supports the complete IPv6 protocol suite, including IPv6 static routing, RIPng, OSPFv3, IS-ISv6 and BGP4+. It also supports
the IPv4-to-IPv6 transition technologies, such as IPv6 manual tunnels, 6to4 tunnels, ISATAP tunnels, GRE tunnels, and IPv4-compatible
automatic tunnels.
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MPLS VPN solution
The SR8800 supports distributed layer 3 MPLS VPN, VLL and VPLS/H-VPLS services, and high-performance P/PE applications. It
provides a high-quality and multi-layer MPLS VPN solution. The SR8800 also supports distributed multicast VPN, so that users can
initiate high-performance multicast applications in the MPLS VPN very conveniently to enjoy multicast services such as video
conference and remote education.
All-round security mechanism
The SR8800 supports a variety of security cards, such as firewall card, IPS card, Secure Sockets Layer (SSL) VPN card, application
control gateway (ACG) card, and load balancing (LB) card. The security cards extend protection to every port of the router and enable
the ports to provide DoS/DDoS attack protection, traffic monitoring, Uniform Resource Locator (URL) filtering, and application layer
filtering.
The SR8800 supports hierarchical user management and password protection. Users of different levels are assigned with different
configuration authorities. To log in to the SR8800, a user needs to pass AAA authentication or RADIUS authentication. Besides, the
SR8800 supports the following:
SSH2.0, providing secure encrypted channel for user login.
Standard and extended ACLs, filtering packets to prevent network attacks.
Host firewall function, preventing attacks.
URPF technology, preventing network attacks by source address spoofing.
High-performance NAT
The SR8800 supports distributed and centralized NAT, and supports load sharing over multiple NAT interface card to enhance the
entire NAT performance. The NAT interface card for the SR8800 delivers abundant features, including NAT, NAPT, internal servers,
application layer gateway (ALG), blacklist, and multi-instance NAT. It supports load sharing on multiple ISP egress interfaces and
internal servers, bi-directional NAT, and twice NAT. With all these features, the SR8800 can fully satisfy users' requirements for a
broad range of NAT network applications.
Network traffic analysis
The SR8800 supports distributed and centralized NetStream. The SR8800 NetStream supports traffic sampling, traffic accounting,
and NetFlow services export protocol v5/v8/v9. In conjunction with the log auditing system of H3C IMC, the SR8800 provides total
network traffic analysis solutions for users. To avoid statistics loss, the SR8800 can send log data simultaneously to both primary and
secondary servers (if any). The network traffic analysis function draws a clear picture of application traffic distribution on a network
and provides abundant analysis reports, allowing administrators to optimize their networks and reassign network resources in
response to traffic changes.
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Specifications
Item
SR8802
SR8805
SR8808
SR8812
Chassis
Integrated chassis, which can be installed in a 19-inch rack
MPU slots
1/2
2
2
2
Base card slots
3/2
5
8
12
Physical dimensions
(H × W × D)
265 × 442 × 443
mm (10.43 × 17.40
× 17.44 in)
486 × 442 × 450
mm (19.13 × 17.40
× 17.72 in)
975 × 436 × 450
mm (38.39 × 17.17
× 17.72 in)
753 × 442 × 450 mm (29.65
× 17.40 × 17.72 in)
(6 U)
(11 U)
(22 U)
Weight (all
components installed)
≤ 40 kg (88.18 lb)
≤ 85 kg (187.39 lb)
≤ 110 kg (242.50
lb)
≤ 120 kg (264.55 lb)
Switching capacity
240 Gbps
1.44 Tbps/8.64 Tbps
Packet forwarding
rate
144 Mpps
360 Mpps/1200
Mpps
576 Mpps/1920
Mpps
864 Mpps/2880 Mpps
(17 U)
Static routing, RIP, OSPF, IS-IS, BGP-4
Equal-cost routing
IPv4
Policy-based routing
Routing policies
GRE and IPv4 over IPv4 tunneling
IPv4/IPv6 dual stack
IPv6 static routing, RIPng, OSPFv3, IS-ISv6, and BGP4+
VRRPv3
Neighbor Discovery Protocol, Path MTU Discovery
IPv6
Ping v6, Telnet v6, FTPv6, TFTPv6, DNSv6, ICMPv6
IPv4 to IPv6 transition technologies, including IPv6 manual tunnels, 6to4 tunnels, ISATAP tunnels, GRE
tunnels, automatic IPv4-compatible IPv6 tunnels
Equal-cost routing
Policy-based routing
Routing policies
PIM-DM, PIM-SM, PIM-SSM, MSDP, MBGP and Any-RP. The maximum number of multicast groups is 32
K.
IGMPv1/v2/v3, IGMPv1 snooping, IGMPv2 snooping, and IGMPv3 snooping
Multicast
IPv6 PIM-DM, IPv6 PIM-SM, and IPv6 PIM-SSM
Multicast Listener Discovery (MLD)v1/v2, MLDv1 snooping
Multicast policies and multicast QoS
Two levels of multicast replication on the switching fabric and base cards for optimized multicast
performance
P/PE functions, compliant with the RFC 2547 bis standard
MPLS VPN
Three multi-AS MPLS VPN methods (Option1/Option2/Option3)
Hierarchical PE (HoPE)
Multi-role host
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VLL (Martini/Kompella approaches), point-to-point layer 2 MPLS VPN functions
VPLS/HVPLS (Martini/Kompella approaches), point-to-multi-point layer 2 MPLS VPN functions
MPLS TE/FRR, FRR switchover less than 50 ms
Distributed multicast VPNs
PPP
LCP/PAP/CHAP
MP
Standard and extended ACLs
ACL
Ingress/egress ACLs
VLAN ACLs
Diff-Serv QoS and Inte-Serv QoS
Hierarchical QoS (HQoS) and queue scheduling mechanisms including PQ, LLQ, CQ, WFQ and
CBWFQ
Fine-tuning traffic policing
QoS
Traffic shaping
WRED congestion avoidance
Priority marking/remarking
802.1p, TOS, DSCP and EXP priority mappings
VOQ
802.1Q
Ethernet
802.3d (STP)/802.3w (RSTP)/802.3s (MSTP)
IEEE 802.3ad (link aggregation), static port aggregation and inter-board link aggregation
Port mirroring and flow mirroring
Inter-board RPR
2.5 G/10 G RPR, compliant with IEEE 802.17
Two protection methods: wrapping and steering. The hardware self-healing time is less than 50 ms.
RPR
Dynamic and static ring selection methods with improved bandwidth usage
Node topology automatic discovery
Weighted fair algorithm for intelligent bandwidth allocation
Five service levels of A0/A1/B0/B1/C; A0 services can reserve the entire ring to implement fine-tuning
QoS.
10/100/1000BASE-TX
1000BASE-X
100BASE-X
10GBASE-R/W
E1/T1
Interface type
OC-12 CPOS channelized E3/T3
OC-12c ATM
OC-12c POS
OC-192c POS
OC-192c RPR
OC-3 CPOS channelized E1/T1
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OC-3 CPOS channelized E1/T1/E3/T3
OC-3 CPOS channelized E3/T3
OC-3c ATM
OC-3c POS
OC-48 CPOS channelized OC-3
OC-48c POS
OC-48c RPR
NetFlow services export protocol v5/v8/v9
Network traffic
analysis
Traffic sampling and traffic accounting
Multiple log hosts
Load sharing across NetStream modules
Load sharing across NAT interface card
NAT, NAPT, and multi-instance NAT/NAPT
Bi-directional NAT and twice NAT
NAT
NAT logging
Blacklist
Internal servers
ALG
Preventing DoS/DDoS attacks
Preventing attacks of SYN flood, UDP flood, ICMP flood, HTTP Get flood, Land, Smurf, Fraggle,
WinNuke, Ping of Death, Tear Drop, abnormal flags of TCP, address scanning, port scanning,
Java/ActiveX blocking and SQL injection
ASPF
NAT
Firewall
ALG
Virtual firewall
Security zone
Blacklist
L2TP
IPsec
Dedicated hardware OAM detection engine, realizing link failure detection within 30 ms
1+1 redundancy backup for critical components including the MPUs and the power supplies
Passive design for the backboard to prevent single point of failure
Hot swapping for all components
Real-time hot backup of all configuration data on the primary/secondary MPUs
Reliability
Hotfix function, allowing online patch upgrade
NSF/GR for OSFP/BGP/IS-IS/LDP/RSVP
MP, Ethernet port aggregation, inter-board link aggregation
Inter-board RPR hardware ring protection, self-healing time less than 50 ms
BFD for BGP/IS-IS/OSPF/RSVP/VPLS PW/VRRP, fast failure detection (less than 30 ms) for protocols
IP FRR, TE FRR, service switchover time less than 50 ms
Network availability rate 99.999%
Security
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Hierarchical user management and password protection
DATA S H E E T
SSHv2 providing secure encrypted channel for user login
Standard and extended ACLs for packet filtering to prevent network attacks
Preventing attacks using ARP packets, 802.1X packets, unknown multicast packets, broadcast packets,
unknown unicast packets, local segment scanning packets, packets whose TTL is 1, and other protocol
packets
Host firewall functions
MAC address restriction, IP-to-MAC address binding function
URPF for preventing network attacks using source address spoofing
IEEE 802.1X and IEEE 802.1X SERVER
Portal authentication and RADIUS authentication
OSPF, RIPv2 and BGPv4 plain text authentication and MD5 authentication
Security network management SNMPv3 and SSH2.0
Broadcast suppression
Primary/secondary data backup
Firewall card, IPS card, SSL VPN card, ACG card, and LB card
Command line configuration through Console/AUX Modem/Telnet/SSH2.0
File download/upload management through FTP, TFTP, xmodem and SFTP
SNMPv1/v2/v3
System management
RMONv1, supporting 1, 2, 3 or 9 groups
NTP clock
Network Quality Analyzer (NQA)
Failure alarm and automatic recovery
Data logs
Environment
temperature
Operating temperature: 0°C to 45°C (32°F to 113°F)
Environment humidity
(non-condensing)
Operating humidity: 10% to 90%
Storage temperature: –40°C to +70°C (–40°F to +158°F)
Storage humidity: 5% to 95%
UL 60950-1:2003
CSA C22.2 No 60950-1:2003
Safety standards
IEC 60950-1:2001
EN 60950-1:2001
AS/NZS 3260
AS/NZS CISPR22 Class A
CISPR22 Class A
CISPR24
EN55022 Class A
EMC
EN55024
ETSI EN 300 386 V1.3.3
FCC Part 15 (CFR 47) Class A
ICES-003 Class A
IEC/EN 61000-3-2
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IEC/EN 61000-3-3
IEC/EN 61000-4-11
IEC/EN 61000-4-2
IEC/EN 61000-4-3
IEC/EN 61000-4-4
IEC/EN 61000-4-5
IEC/EN 61000-4-6
IEC/EN 61000-4-8
VCCI Class A
Application scenarios
As the high-performance core routers, the SR8800 can be widely deployed at the core or backbone layer of WANs, or the core of
large campus networks or MANs. The following examples illustrate the deployment of the SR8800 in some industry networks, for
reference purpose only.
National wide area network solution
Because the national WAN covers a huge geographic area, it has extremely high requirements on the reliability and security of the
networking devices. Thanks to its excellent performance, the SR8800 can fully meet these requirements. As shown in the following
figure, the SR8812 devices are deployed at the network core layer, the SR8808 devices at the provincial distribution layer, and the
SR8805/SR8802 devices are at the municipal access layer. To ensure network security, uplink and downlink devices are separated at
the national core layer and the provincial nodes. Both the provincial nodes and municipal nodes act as the aggregation access of the
MAN. Narrow band is used for access, and dedicated line is used for aggregation.
This solution is suitable for the establishment, expansion or reformation of large industry backbone networks, such as government
administration, taxation, public security, finance, and electric power. In addition, MPLS VPN is supported in the entire network.
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National wide area network solution
Provincial wide area network solution
When building a large area network at a provincial level, some industries such as electric power and railroad require high reliability,
and logical isolation among the service units to ensure the security of application systems. To address these needs, the SR8800
provincial WAN solution achieves high system reliability with the ring topology plus the high availability of the SR8800, and
implements logical isolation among business units through MPLS VPN.
In this solution, the SR8812/SR8808 devices act as the MPLS core devices to provide MPLS basic forwarding capability, and can also
act as inter-AS ASBR devices if there are requests for inter-AS services. As the PE device, the SR8800 can also act as the network
address translation (NAT) device to provide Internet access for VPN users. The SR8800 also supports multiple L2VPN methods. As a
PE device, it can provide point-to-point VLL services and point-to-multipoint VPLS services. In addition to industries like electric power
and railroad, this solution is applicable for most province-wide networking scenarios.
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Provincial wide area network solution
MAN/campus network solution
When building a MAN or campus network, the full-mesh topology on the backbone requires a large volume of link resources and a
high cost for operation and maintenance. In this regard, networking using RPR is a better solution. RPR not only provides the rapid
self-healing resilient protection mechanism and efficient bandwidth usage, but also features simple and flexible networking, making it
suitable for the establishment of a new MAN. In the network design, the SR8800 devices can act as the backbone routers to form the
core ring. They can provide high density downlink interfaces, including 10 GE, GE and FE interfaces, as well as other types such as E1
and POS interfaces. The interfaces can connect to Ethernet switches directly, or to dedicated lines.
Because the SR8800 fully supports MPLS VPN which extends the MPLS domain, the SR8800 acts as the PE device of the MPLS domain,
ensuring the extension of the MPLS WANs to the core network of LANs, or even to the access layer. By this, the SR8800 guarantees
end-to-end services for audio, video and data transmission in one network.
RPR networking solutions have been widely deployed at the provincial or municipal backbone networks for government administration,
taxation, education, power industry, and so on.
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MAN/campus network solution
Ordering information
This section lists the available SR8800 racks, router chassis, MPUs, software, base cards, Ethernet cards, subcards, intelligent modules
(IMs) and power supplies, and provides the ordering recommendations. The information is subject to change over time. For the most
up-to-date information, consult your H3C sales representative.
Rack
Rack
Description
N68-1.8-AC-H3
N68-1.8m AC rack
N68-2.2-AC-H3
N68-2.2m AC rack
SR-8800-N68H-1.8-DC-H3
N68-1.8m DC rack
SR-8800-N68H-2.2-DC-H3
N68-2.2m DC rack
Routers
Model
Description
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SR-8802-N-H3
H3C SR8802 10G Core Router
SR-8805-N-H3
H3C SR8805 10G Core Router
SR-8808-N-H3
H3C SR8808 10G Core Router
SR-8812-N-H3
H3C SR8812 10G Core Router
MPUs
Model
Description
SR0M2SRP2F3
H3C SR8800 MPU (2F)
SR0M2SRP1F3
H3C SR8800 MPU (1F)
SR0M2SRP2G3
H3C SR8800 MPU (2G)
SR0M2SRP1G3
H3C SR8800 MPU (1G)
SR0M2SRP1M3
H3C SR8802 MPU
Applicable software
Software
Description
LIS-SR8800-H3
H3C SR8800 router software
Base cards
Model
Description
SPE-1010-II
Single-channel base card (the second generation)
SPE-1010-E-II
Enhanced single-channel base card (the second generation)
SPE-1020-II
Dual-channel base card (the second generation)
SPE-1020-E-II
Enhanced dual-channel base card (the second generation)
MPE-1004
Multiservice base card
Ethernet cards
Model
Description
Connector
SPC-XP4L
4-port 10 Gbps optical Ethernet interface card
XFP, LC
SPC-GP48L
48-port 1000 Mbps optical Ethernet interface card
SFP, LC
SPC-GT48L
48-port 1000 Mbps electrical Ethernet interface card
RJ-45
SPC-XP2L
2-port 10 Gbps optical Ethernet interface card
XFP, LC
SPC-GP24L
16-port 1000 Mbps optical Ethernet interface and
8-port Combo interface card
z
SFP/ LC for fiber ports
z
RJ-45 for copper ports
SPC-GP48LA
H3C SR8800-SR0M2GP48LA0-48-port 1000 Mbps
SFP, LC
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Model
Description
optical Ethernet interface card
Connector
SPC-GP24LA
H3C SR8800-SR0M2GP24LA0-16-port 1000 Mbps
optical Ethernet interface and 8-port 1000 Mbps
Combo interface card
SPC-GT48LA
H3C SR8800-SR0M2GT48LA0-48-port 1000 Mbps
electrical Ethernet interface card
RJ-45
SPC-XP4LA
H3C SR8800-SR0M2XP4LA0-4-port 10 Gbps optical
Ethernet interface card
XFP, LC
SPC-XP2LA
H3C SR8800-SR0M2XP2LA0-2-port 10 Gbps optical
Ethernet interface card
XFP, LC
SPC-XP16R
H3C SR8800-SR0M2XP16R0-16-port 10 Gbps optical
Ethernet interface card (RA)
SFP+, LC
z
SFP/ LC for fiber ports
z
RJ-45 for copper ports
Subcards
Item
Description
Connector
PIC-GP10L
10-port 1000 Mbps optical Ethernet interface card
SFP, LC
PIC-GP20R
20-port 1000 Mbps optical Ethernet interface card
SFP, LC
PIC-GT20R
20-port 1000 Mbps electrical Ethernet interface card
RJ-45
PIC-XP1L
1-port 10 Gbps optical Ethernet interface card
XFP, LC
PIC-RSP2L
2-port OC-48c/STM-16c RPR optical interface card
SFP, LC
PIC-RUP1L
1-port OC-192c/STM-64c RPR optical interface card
XFP, LC
PIC-PUP1L
1-port OC-192c/STM-64c POS optical interface card
XFP, LC
PIC-TCP8L
8-port OC-3c/OC-12c POS/GE optical interface card
SFP, LC
PIC-PL2G6L
2-port OC-3c/STM-1c POS optical interface and 6-port
1000 Mbps optical Ethernet interface card
SFP, LC
PIC-PH2G6L
2-port OC-12c/STM-4c POS optical interface and 6-port
1000 Mbps optical Ethernet interface card
SFP, LC
PIC-PSP4L
4-port OC-48c/STM-16c optical interface card
SFP, LC
PIC-PS2G4L
2-port OC-48c/STM-16c POS optical interface and 4-port
1000 Mbps optical Ethernet interface card
SFP, LC
PIC-CL1G8L
1-port OC-3/STM-1 channelized to E1/T1 CPOS optical
interface and 8-port 1000 Mbps optical Ethernet interface
card
SFP, LC
PIC-CL2G8L
2-port OC-3/STM-1 channelized to E1/T1 CPOS optical
SFP, LC
Ethernet subcard
RPR subcard
POS subcard
CPOS subcard
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DATA S H E E T
interface and 8-port 1000 Mbps optical Ethernet interface
card
PIC-CSP1L
1-port OC-48/STM-16 channelized to OC-3/STM-1
CPOS optical interface card
SFP, LC
PIC-CHS1G4L
1-port OC-12/STM-4 channelized to E3/T3 CPOS optical
interface and 4-port 1000 Mbps optical Ethernet interface
card
SFP, LC
PIC-CLS4G4L
4-port OC-3/STM-1 channelized to E3/T3 CPOS optical
interface and 4-port 1000 Mbps optical Ethernet interface
card
SFP, LC
PIC-CLF4G8L
4-port OC-3/STM-1 channelized to E3/T3/E1/T1 CPOS
optical interface and 8-port 1000 Mbps optical Ethernet
interface card
SFP, LC
PIC-CLF2G8L
2-port OC-3/STM-1 channelized to E3/T3/E1/T1 CPOS
optical interface and 8-port 1000 Mbps optical Ethernet
interface card
SFP, LC
PIC-ALP4L
4-port 155M ATM optical interface card
SFP, LC
PIC-AHP1L
1-port 622M ATM optical interface card
SFP, LC
PIC-ET8G8L
8-port E1/T1 electrical interface and 8-port 1000 Mbps
optical Ethernet interface card
z
RJ-45 for copper ports
z
SFP/LC for fiber ports
PIC-ET32G2L
32-port E1/T1 electrical interface and 2-port 1000 Mbps
optical Ethernet interface card
z
2*DB28, female for for copper ports
z
SFP/LC for fiber ports
ATM subcard
E1/T1 subcard
MIC subcard (applicable to the MPE-1004)
MIC-GP8L
8-port 1000 Mbps optical Ethernet interface card
SFP, LC
MIC-GP4L
4-port 1000 Mbps Ethernet combo interface card
N/A
MIC-ET16L
16-port E1/T1 electrical interface card
HM96 male
MIC-CLP2L
2-port OC-3/STM-1 CPOS optical interface card or 2-port
OC-3c/STM-1c POS optical interface card
SFP, LC
MIC-SP4L
4-port OC-3c/STM-1c POS/ATM optical interface card or
1-port OC-12c/STM-4c POS/ATM optical interface card
SFP, LC
MIC-CLP4L
4-port OC-3/STM-1 CPOS optical interface card or 4-port
OC-3c/STM-1c POS optical interface card
SFP, LC
IMs
Intelligent modules
Description
IM-NAT-II
Network address translation service processing card (the second generation)
IM-NAM-II
Network analysis service processing card (the second generation)
IM-FW-II
H3C SR8800 firewall service processing card (the second generation)
IM-IPS
H3C SR8800 GE intrusion protection system card
IM-SSL
H3C SR8800 SSL VPN service card
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DATA S H E E T
IM-ACG
H3C SR8800 application control gateway card
IM-LB
H3C SR8800 load balancing service card
Power supplies and power supply frame
Model
Description
SR0M7POWERH
AC power supply-800 W
SR0M2POWERH
DC power supply-1300 W
LSBM4POWERH
DC power supply-2000 W
LSBMDPOWERH
DC power supply-3500 W
SR0M5POWERH
AC power supply-1800 W
SR0M1PSUH
3500 W AC power supply frame, which can accommodate two
1800 W standard power supplies
H3C Technologies Co., Limited
Hangzhou base
310 Liuhe Road, Zhijiang Science Park, Hangzhou, P.R.China
Copyright ©2012 H3C Technologies Co., Limited Reserves all rights
Disclaimer: although H3C trying to in this materials provide accurate information, there is no guarantee that the material content
contains no technical error or printing sex mistake, for this H3C in this material accurate does not undertake any responsibility.
H3C retained in no Notice or hint of the contents of this material right to change.
Zip: 310053
Tel: 0571-86760000
Fax: 0571-86760001
Version: 20130813-V3. 13
http://www.h3c.com
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