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H3C S5590-EI series switches are a new generation of high-performance, high-port density, high-security Layer 3 Ethernet switches developed by H3C Technology Co., Ltd. (hereinafter referred to as H3C) using industry-leading ASIC technology, supporting IPv4/IPV6 Dual-stack management and forwarding, support static routing protocols and routing protocols such as RIP, OSPF, BGP, ISIS, etc., and support rich management and security features. It is a Gigabit Layer 3 Ethernet switch product for converged service networks.
In the campus network, H3C S5590-EI series switches can be used as aggregation layer equipment, or as the core of small and medium-sized enterprises; downward can provide high-density GE tandem lower layer switches, upward through 10G/25G/40G/100G fiber or link aggregation is aggregated to the core switch to build a high-performance end-to-end IP network solution together with other H3C products.
H3C S5590-EI switches series includes the following models:
S5590-28T8XC-EI: 28 x 10/100/1000BASE-T ports, 4 x 100/1000BASE-X SFP Combo ports, 8 x 10G/1G BASE-X SFP+ ports, 1 x expansion slot, 2 x fan tray slots, 2 x power supply slots;
S5590-48T4XC-EI: 48 x 10/100/1000BASE-T ports, 4 x 10G/1G BASE-X SFP+ ports, 1 x expansion slot, 2 x fan tray slots, 2 x power supply slots;
S5590-28S8XC-EI: 28 x 100/1000BASE-X SFP ports, 4 x 10/100/1000BASE-T Combo ports, 8 x 10G/1G BASE-X SFP+ ports, 1 x expansion slot, 2 x fan tray slots, 2 x power supply slots;
S5590-48S4XC-EI: 48 x 100/1000BASE-X SFP ports, 4 x 10G/1G BASE-X SFP+ ports, 1 x expansion slot, 2 x fan tray slots, 2 x power supply slots;
S5590-28P8XC-EI: 28 x 10/100/1000BASE-T ports (PoE+), 4 x 100/1000BASE-X SFP Combo ports, 8 x 10G/1G BASE-X SFP+ ports, 1 x expansion slot, 2 x fan tray slots, 2 x power supply slots;
S5590-48P6XC-EI: 48*10/100/1000BASE-T ports (PoE+), 6*10G/1G BASE-X SFP+ ports, 1 × expansion slot, 2 × fan tray slots, 2 × power supply slots;
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As the network scale increases, a large number of access devices are required at the network edge, which makes the management of these devices very cumbersome. The main purpose of SmartMC is to solve the problem of centralized management of a large number of scattered network devices. It is designed to solve the switch-based operation and maintenance tasks of small enterprises. SmartMC provides unified operation, maintenance, and management of the network by built-in graphical operation platform.
SmartMC simplifies the operation, maintenance, and management of Small and Medium-sized campuses:
Smart management: includes device role selection, FTP server configuration, global configuration, and network management port configuration, etc.
Intelligent operation and maintenance: include group management, equipment, or group upgrade backup, monitoring and equipment failure replacement, etc.
Visualization: includes networking topology visualization and management, device list display, device ports display, etc.
Smart business: includes user management, etc. After network access users are created and successfully activated, these users can access the SmartMC network through the one-key-armed port.
The H3C S5590-EI series switches can be used as the management device of SmartMC. You can log in to the SmartMC network through the S5590-EI to manage the entire network in a unified manner.
Based on H3C's Open Service Architecture (OAA), H3C S5590-EI series switches can not only provide the functions of traditional switches, but also integrate security module cards including FW, IPS, and load balancing, mini- iMC cards, and Eagle Vision cards. etc., making the S5590-EI series switches a converged multi-service bearing platform.
H3C S5590-EI series switches implement a hardware-based IPv4/IPv6 dual-stack platform, support multiple tunnel technologies, rich IPv4 and IPv6 Layer 3 routing protocols, multicast technologies and policy routing mechanisms, providing users with complete IPv4/IPv6 solution.
H3C S5590-EI series switches support IRF2 (Second Generation Intelligent Resilient Architecture) technology, which is to connect multiple physical devices to each other to make it virtual as a logical device, users can regard these multiple devices as one Manage and use a single device. IRF can bring the following benefits to users:
Simplified management: IRF architecture is formed, it can be connected to any port of any device to log in to a unified logical device. By configuring a single device, it can manage the entire intelligent elastic system and all member devices in the system. There is no need to physically connect to each member device to configure and manage them individually.
Simplified service: IRF are also run as a single device. For example, the routing protocol will be calculated as a single device. With the application of the cross-device link aggregation technology, it can replace the original generation tree protocol, which saves the interaction of a large number of protocol packets between devices, simplifies network operation, and shortens the convergence time when the network is turbulent.
Elastic expansion:can realize elastic expansion according to user needs and ensure user investment. And new devices can be "hot-swapped" when they join or leave the IRF architecture, without affecting the normal operation of other devices.
High reliability : high reliability IRF is reflected in three aspects: link, equipment and protocol. The physical ports between member devices support the aggregation function, and the physical connection between the IRF system and the upper and lower-layer devices also supports the aggregation function, which improves the reliability of the link through multi-link backup; the IRF system consists of multiple member devices. Once the master device fails, the system will quickly and automatically elect a new master to ensure uninterrupted services through the system, thus realizing device-level 1:N backup; the IRF system will have a real-time protocol hot backup function responsible for the configuration information of the protocol. Backup to all other member devices to achieve 1:N protocol reliability.
High performance : For high-end switches, the increase in performance and port density is limited by the hardware structure. The performance and port density of an IRF system is the sum of the performance and port numbers of all devices inside the IRF. Therefore, the IRF technology can easily expand the switching capability of the device and the density of user ports several times, thereby greatly improving the performance of the device.
H3C S5590-EI series switches support the EAD ( terminal access control ) function, and cooperate with the background system to integrate terminal security measures such as terminal antivirus and patch repair with network security measures such as network access control and access authority control into a linked security The system, through the inspection, isolation, repair, management and monitoring of network access terminals, makes the entire network change from passive defense to active defense, from single-point defense to comprehensive defense, and from decentralized management to centralized policy management. , worms and other emerging security threats overall defense capabilities.
H3C S5590-EI series switches support centralized MAC address authentication, 802.1x authentication, support dynamic or static binding of user identification elements such as user account, IP, MAC, VLAN, and port, and implement user policies (VLAN, QoS, ACL) dynamic distribution; support with H3C's iMC system for real-time management of online users, timely diagnosis and disintegration of illegal network behavior.
H3C S5590-EI series switches provide enhanced ACL control logic, support large-capacity ingress and egress port ACLs, and support VLAN-based ACL delivery, which simplifies the user configuration process and avoids waste of ACL resources. In addition, H3C S5590-EI series switches will also support unicast reverse path finding technology (uRPF). The route between the interface and the source address specified in the packet is to verify its authenticity. If it does not exist, the packet is deleted, so that we can effectively prevent the source address spoofing that is increasingly flooding in the network.
MACsec is an ideal hop-by-hop link-layer security protocol for Ethernet networks, which are typically insecure. It provides the following services:
Data encryption: Encrypts data over the Ethernet link to protect data against security issues such as eavesdropping.
Antireplay: Prevents packets from being intercepted and modified en route to protect the network against unauthorized access.
Tampering protection: prevents packet tampering to protect data integrity.
MACsec supports the following deployments:
Client-oriented: Protects data transmission over the link between the client and its access device.
Device-oriented mode: Protects data transmission over the link between two peering devices.
H3C S5590-EI series switches support all ports upgraded MACsec encryption technology and use 256-bit encryption algorithm to further improve data security. All ports of the device provide 256-bit MACsec encryption to ensure data security.
H3C S5590-EI series switches support M-LAG, which enables links of multiple switches to aggregate into one to implement device-level link backup. M-LAG is applicable to servers dual-homed to a pair of access devices for node redundancy.
Streamlined topology: M-LAG simplifies the network topology and spanning tree configuration by virtualizing two physical devices into one logical device.
Independent upgrading: The DR member devices can be upgraded independently one by one to minimize the impact on traffic forwarding.
High availability: The DR system uses a keepalive link to detect multi-active collision to ensure that only one member device forwards traffic after a DR system splits.
H3C S5590-EI series switches support Telemetry technology, which can send the switch's real-time resource information and alarm information to the O&M platform through the gRPC protocol.
The platform can realize network quality backtracking, troubleshooting, risk early warning, architecture optimization and other functions to accurately guarantee user experience by analyzing real-time data.
Feature | S5590-28T8XC-EI | S5590-48T4XC-EI | S5590-28S8XC-EI | S5590-48S4XC-EI | S5590-28P8XC-EI | S5590-48P6XC-EI |
CPU | Dual Core, 1.2GHz | |||||
SDRAM | 2G | |||||
Flash | 4G | |||||
Switching Capacity | 2.4Tbps | |||||
Latency (64byte/µs) | GE: < 5µs 10GE < 3µs | |||||
Port Switching Capacity | 616Gbps | 576Gbps | 616Gbps | 576Gbps | 616Gbps | 616Gbps |
Packet Forwarding Rate | 462Mpps | 432Mpps | 462Mpps | 432Mpps | 462Mpps | 462Mpps |
Dimensions (W×D×H) (unit: mm ) | 440×360×44 | 440×400×44 | ||||
Weight | ≤7kg | |||||
Console Port | 1 | |||||
Ethernet Port for Management | 10/100/1000Base-T port: 1 | |||||
USB Port | 1 | |||||
10/100/1000BASE-T auto-sensing Ethernet Port | 28 | 48 | 4 (combo) | - | 28 | 48 |
SFP port | 4 (combo) | - | 28 | 48 | 4 (combo) | - |
SFP+ port | 8 | 4 | 8 | 4 | 8 | 6 |
Expansion Card Slot | 1 | 1 | 1 | 1 | 1 | 1 |
PoE | - | - | - | - | PoE+ Support | PoE+ Support |
Input Voltage | AC: Rated voltage range: 100 to 240V AC: 50/60Hz Maximum voltage range: 90V~290V AC, 47~63Hz | AC: Rated voltage range: 100 to 240V AC: 50/60Hz Maximum voltage range: 90V~290V AC, 47~63Hz HVDC: Rated voltage: 240V DC Maximum voltage range: 180V~320V DC | ||||
80PLUS | - | Y(80 PLUS Platinum) | ||||
Power Consumption | MIN | MIN | MIN | MIN | MIN | MIN |
MTBF(Year) | 105.15 | 101.63 | 110.74 | 101.01 | 32.15 | 28.62 |
MTTR(Hour) | 1 | 1 | 1 | 1 | 1 | 1 |
Working Temperature | -5 ºC to 45 ºC | |||||
Relative Humidity of Working Environment | 5 % to 95 % (non-condensing) |
Note:This content is applicable only to regions outside mainland China.H3C reserves the right to interpret the content.
Feature | S5590-EI switch series |
VLAN | VLAN ID range 0 to 4095(Total 4096) Access/Trunk/Hybrid VLAN Port-based VLAN MAC-based VLAN IP subnet-based VLAN Protocol-based VLAN IEEE 802.1P(CoS priority) Super VLAN Private VLAN Voice VLAN QinQ(802.1Q-in-802.1Q) Vlan mapping Static/Dynamic/Blackhole/Multiport unicast MAC MAC automatic learning and aging Port-based/VLAN-based MAC learning limit MAC filter Port isolation IEEE 802.3x flow control (full duplex) Storm suppression based on port rate percentage PPS -based storm suppression bps -based storm suppression Loop detection(VLAN and VXLAN network) MVRP(Multiple VLAN Registration Protocol) GVRP(Generic VLAN Registration Protocol) STP(Spanning tree protocol ) RSTP(Rapid Spanning Tree Protocol) MSTP(Multiple Spanning Tree Protocol) PVST(Per-VLAN Spanning Tree) (compatible with PVST+/RPVST+) BPDU/root/loop/TC-BPDU/PVST BPDU/disputeloopback guard BPDU filter role/TC-BPDU transmission restriction LLDP(Link Layer Discovery Protocol) and LLDP-MED(Link Layer Discovery Protocol Media Endpoint Discovery) DCBX(Data Center Bridging Exchange Protocol) Broadcast/multicast/unknown unicast storm constrain Jumbo frame Store-and-forward(Default) Cut-through-forward |
Ethernet link aggregation | Static aggregation Dynamic aggregation S-MLAG(Simple multichassis link aggregation) 10GE/25G/40GE/100GE port aggregation LACP(Link Aggregation Control Protocol) M-LAG(Multichassis Link Aggregation) |
IP Services | Static/Dynamic/Gratuitous/proxy ARP ARP snooping/fast-reply/direct route advertisement/ping ARP attack detection ARP source suppression Ping, Tracert DHCP(Dynamic Host Configuration Protocol) DHCP Server/relay agent/client/snooping DHCP Option 43, Option 82, and Option 184, DNS(Domain Name System) DDNS(Dynamic Domain Name System) mDNS(Multicast Domain Name System) IRDP(ICMP Router Discovery Protocol) UDP helper ND(Neighbor Discovery) ND snooping/proxy/direct route advertisement/ping DHCPv6 Server/relay agent/client/snooping/guard GRE(Generic Routing Encapsulation) HTTP redirect GRE tunneling VXLAN tunneling and VXLAN-DCI tunneling IPv4/IPv6 over IPv4 tunneling, and IPv4/IPv6 over IPv6 tunneling IPv4/IPv6 Fast Forwarding |
Routing | Static routing, RIP, OSPF, IS-IS, and BGP IPv6 static routing, RIPng, OSPFv3, IS-ISv6, and BGP4+ IPv4/IPv6 dual stack IPv4/IPv6 ECMP(Equal-cost multi-path routing) IPv4/IPv6 PBR(Policy-based routing) IPv4/IPv6 Routing policy Pingv6, Telnetv6, FTPv6, TFTPv6, DNSv6, ICMPv6 Dual-stack PBR(policy-based routing) |
Multicast | PIM-DM, PIM-SM, PIM-SSM, and Any-RP PIM snooping MSDP(Multicast Source Discovery Protocol) IGMPv1/IGMPv2/IGMPv3 IGMP proxying IGMP Snooping IGMP snooping proxying IGMP Filter and IGMP Fast leave IPv6 PIM-DM, PIM-SM, PIM-SSM, and Any-RP IPv6 PIM snooping MLDv1/MLDV2 MLD proxying MLD Snooping MLD snooping proxying Multicast routing and forwarding Multicast VLAN MVPN(Multicast VPN) Multicast policy and Multicast QoS |
ACL/QoS | ACL(Access Control List) advanced ACL User-defined ACL Ingress and Egress ACL Ingress/Egress CAR Diff-Serv QoS Eight queues each interface 802.1P/DSCP Priority marking and remarking 802.1p, TOS, DSCP, and EXP priority mapping Flexible queue scheduling algorithms including SP, WRR, SP+WRR, WFQ, SP+WRR Traffic shaping Time ranges Traffic classification based on source MAC, destination MAC, source IP, destination IP, port, protocol, and VLAN Congestion avoidance, Tail-Drop, RED(Random Early Detection) and WRED(Weighted Random Early Detection) |
MPLS | Static LSP(label switched path) LDP(Label Distribution Protocol) IPv6 LDP Tunnel policies VRF(Virtual Routing and Forwarding) MPLS L2VPN MPLS L3VPN MPLS Ping/Tracert MCE(Multi-VPN Instance Customer Edge) IPv6 MCE MPLS OAM |
Security | RBAC(Role-based access control) AAA(Authentication, Authorization, and Accounting) RADIUS(Remote Authentication Dial-In User Service)( includeDHCP, Radius,LLDP) TACACS(Terminal Access Controller Access Control System) HWTACACS(HW Terminal Access Controller Access Control System) (Same authentication processes and implementations with TACACS+) User hierarchical management and password protection 802.1X authentication Portal authentication MAC authentication Web authentication Triple authentication Guest VLAN Port security SSH1.x and SSH2.0(Secure Shell) SSL(Secure Sockets Layer) HTTPs Public Key Infrastructure (PKI) Control Plane Protection (CoPP), Wireless Intrusion Prevention System (WIPS) Attack detection and prevention TCP attack prevention IPSG(IP source guard) IPv6 RA Guard ARP attack protection ND attack protection uRPF(Unicast Reverse Path Forwarding) MFF(MAC-forced forwarding) SAVI(Source Address Validation Improvement) FIPS(Federal Information Processing Standards ) MACsec(Media Access Control Security) All ports AES256 MACsec Microsegmentation Hierarchical user management and password protection EAD(Endpoint Admission Defense) Basic and advanced ACLs for packet filtering OSPF, RIPv2, BGPv4 plain text and MD5 authentication |
High Availability | Ethernet OAM(IEEE 802.3ah) CFD(Connectivity Fault Detection)(IEEE 802.1ag and ITU-T Y.1731) DLDP(Device Link Detection Protocol ) RRPP(Rapid Ring Protection Protocol) ERPS( G.8032 Ethernet Ring Protection Switching ) Smart Link Monitor Link VRRPv2(Virtual Router Redundancy Protocol) VRRPv3 BFD(Bidirectional forwarding detection) Hardware BFD BFD for VRRP/BGP/IS-IS/OSPF/RSVP/static routing, with a failover detection time less than 50 milliseconds Track Process redundancy/placement CPU protection Hot patching, online patch upgrade Link aggregation VCT(virtual cable test) Smart-Link ISSU(In-Service Software Upgrade ) |
Network Management | NQA(Network quality analyzer) iNQA(Intelligent Network Quality Analyzer) eMDI(Enhanced Media Delivery Index) performance management through gRPC or NETCONF NTP(Network Time Protocol) PTP(Precision Time Protocol) IEEE 1588 version 2/IEEE 802.1AS/SMPTE ST 2059-2/AES67-2015 SNMPv1/SNMPv2c/SNMPv3 RMON(Remote Network Monitoring) and groups 1,2,3 and 9 NETCONF/YANG EAA(Embedded Automation Architecture) Port mirroring SPAN(Switch Port Analyzer)/RSPAN(Remote SPAN) Flow mirroring N:9 port mirroring local and remote port mirroring NetStream/IPv6 NetStream, traffic analysis sampling ratio 1:1 sFlow Information center VCF(Virtual Converged Framework) CWMP(CPE WAN Management Protocol/TR-069) Fault alarm and automatic fault recovery System logs Alarming based on severity Power, fan, and temperature alarming Debugging information output Device status monitoring mechanism, including the CPU engine, backplane, chips and other key components Configuration through CLI, Telnet, and console port Zero Touch Provisioning Loading and upgrading through XModem/FTP/TFTP/SFTP/USB Secure Boot Embedded AC, maximum support management 2K AP iMC network management system SmartMC(embedded Smart Graphical Management Center)(built-inWebGUI) |
Stacking | IRF2(Intelligent Resilient Framework 2) Distributed device management Distributed link aggregation Distributed resilient routing Stacking through standard Ethernet ports Local device stacking and remote device stacking LACP-, BFD-, and ARP-based multi-active detection (MAD) |
Automatic Configuration | Server-based automatic configuration USB-based automatic configuration |
Programmability and Automation | Ansible Auto DevOps by using Python, NETCONF, TCL, and Restful APIs for automated network programming |
Visualization | gRPC(Google remote procedure call) INT(Inband Telemetry) Flow group MOD(Mirror On Drop) |
OpenFlow | OpenFlow 1.3 Multiple controllers (EQUAL, master/slave) Multiple tables flow Group table |
VXLAN | VXLAN L2 switching VXLAN L3 routing Centralized VXLAN gateway Distributed VXLAN gateway VXLAN M-LAG VXLAN-DCI OVSDB(Open vSwitch Database) VXLAN VTEP MP-BGP EVPN control plane EVPN VXLAN EVPN M-LAG |
Intelligent Lossless Network | PFC(Priority-based Flow Control) ECN(Explicit Congestion Notification ) |
Energy Saving | Port automatic power down function Port timing down function (Schedule job) EEE(802.3az Energy Efficient Ethernet) |
EMC | FCC Part 15 Subpart B CLASS A ICES-003 CLASS A VCCI CLASS A CISPR 32 CLASS A EN 55032 CLASS A CISPR 35 AS/NZS CISPR 32 EN 55035 EN 61000-3-2 EN 61000-3-3 EN 61000-4-2 EN 61000-4-3 EN 61000-4-4 EN 61000-4-5 EN 61000-4-6 EN 61000-4-11 ETSI EN 300 386 |
Safety | UL 62368-1 CSA C22.2 No. 62368-1-14 IEC 62368-1 EN 62368-1 EN 60825-1 AS/NZS 62368-1 GB 4943.1 |
RoHS | EU RoHS2.0 Directive China RoHS 2.0 |
Entries | S5590-EI Series |
MAC address entries(maximum) | 320K |
VLAN table(Active VLAN) | 4K |
VLAN interface | 4093 |
IPv4 routing entries(maximum) | 80K |
IPv4 ARP entries(maximum) | 64K |
IPv4 ACL entries | IN: 3.75K EG: 512 |
IPv4 multicast L2 entries | 8K |
IPv4 multicast L3 entries | 4K |
IPv6 unicast routing entries(maximum) | 32K |
IPv6 ND entries | 32K |
IPv6 multicast L2 entries | 8K |
IPv6 multicast L3 entries | 4K |
QOS forward queues | 8 |
Jumbo frame length | 13312 |
Max Stacking Members | 9 |
Max Stacking Bandwidth | 480Gbps |
FRU model | S5590-28T8XC-EI S5590-28S8XC-EI S5590-48T4XC-EI S5590-48S4XC-EI | S5590-28P8XC-EI S5590-48P6XC-EI
|
Removable power supplies | ||
PSR180-12A-B | Supported | Not supported |
PSR180-12A-F | Supported | Not supported |
PSR180-12D-B | Supported | Not supported |
PSR600-54A-B | Not supported | Supported |
PSR920-54A-B | Not supported | Supported |
PSR1600-54A-B | Not supported | Supported |
Removable fan trays | ||
LSPM1FANSA-SN | Supported | Supported |
LSPM1FANSB-SN | Supported | Supported |
Expansion cards | ||
LSPM6FWD | Supported | Supported |
LSWM2QP2P | Supported | Supported |
LSWM2SP8P | Supported | Supported |
LSWM2ZQP2P | Supported | Supported |
LSWM2ZSP8P | Supported | Supported |
LSWM2SP2PB | Supported | Supported |
LSWM2SP4PB | Supported | Supported |
Power supply 1 | Power supply 2 | S5590-28P8XC-EI | S5590-48P6XC-EI | ||
Total PoE power capacity | PoE Ports Quantity | Total PoE power capacity | PoE Ports Quantity | ||
PSR600-54A-B | / | 450W | 15.4W (802.3af): 28 30W (802.3at): 15 | 450W | 15.4W (802.3af): 28 30W (802.3at): 15 |
PSR920-54A-B | / | 770W | 15.4W (802.3af): 28 30W (802.3at): 25 | 770W | 15.4W (802.3af): 28 30W (802.3at): 25 |
PSR1600-54A-B (Input Voltage: 90V AC~176V AC) | / | 770W | 15.4W (802.3af): 28 30W (802.3at): 25 | 770W | 15.4W (802.3af): 28 30W (802.3at): 25 |
PSR1600-54A-B (Input Voltage:176V AC~290V AC or 180V DC~320V DC) | / | 840W | 15.4W (802.3af): 28 30W (802.3at): 28 | 1440W | 15.4W (802.3af): 48 30W (802.3at): 48 |
PSR600-54A-B | PSR600-54A-B | 840W | 15.4W(802.3af): 28 30W (802.3at): 28 | 1020W | 15.4W (802.3af): 48 30W (802.3at): 34 |
PSR600-54A-B | PSR920-54A-B | 840W | 15.4W (802.3af): 28 30W (802.3at): 28 | 1020W | 15.4W (802.3af): 48 30W (802.3at): 34 |
PSR600-54A-B | PSR1600-54A-B | 840W | 15.4W (802.3af): 28 30W (802.3at): 28 | 1020W | 15.4W (802.3af): 48 30W (802.3at): 34 |
PSR920-54A-B | PSR920-54A-B | 840W | 15.4W (802.3af): 28 30W (802.3at): 28 | 1440W | 15.4W (802.3af): 48 30W (802.3at): 48 |
PSR920-54A-B | PSR1600-54A-B | 840W | 15.4W (802.3af): 28 30W (802.3at): 28 | 1440W | 15.4W (802.3af): 48 30W (802.3at): 48 |
PSR1600-54A-B | PSR1600-54A-B | 840W | 15.4W (802.3af): 28 30W (802.3at): 28 | 1440W | 15.4W (802.3af): 48 30W (802.3at): 48 |
Organization | Standards And Protocols |
IEEE | IEEE 802.1D (STP) IEEE 802.1p (CoS) IEEE 802.1Q (VLANs) IEEE 802.1s (MSTP) IEEE 802.1w (RSTP) IEEE 802.1X (Security) IEEE 802.3ad (LACP) IEEE 802.1ae (MACsec) IEEE 802.3u (Fast Ethernet) IEEE 802.3ab (1000BASE-T) IEEE 802.3x (Flow Control) IEEE 802.3z (1000BASE-SX, 1000BASE-LX) |
RFC | RFC1771 (BGPv4) RFC1772 (Application of the BGP) RFC1965 (BGPv4 autonomous system confederations) RFC1997 (Communities attribute) RFC2385 (Transmission Control Protocol (TCP) MD5 authentication for BGP) RFC2439 (Route flap dampening) RFC2796 (Route reflection) RFC1657 (Definitions of Managed Objects for BGPv4) RFC2328 (OSPF v2) RFC1587 (OSPF NSSA) RFC2370 (OSPF opaque link-state advertisement (LSA) option) RFC1850 (OSPF v2 Management Information Base (MIB), traps) ISO10589 (IS-IS) RFC1195 (IS-IS) RFC2973 (IS-IS mesh groups) RFC1058 (RIP v1) RFC1723 (RIP v2) RFC2453 (RIP v2) RFC2083 (PNG (Portable Network Graphics) Specification Version) RFC791 (IP) RFC792 (ICMP) RFC793 (TCP) RFC768 (UDP) RFC826 (ARP) RFC783 (TFTP) RFC854 (Telnet) RFC894 (IP Over Ethernet) RFC950 (Internet Standard Subnetting Procedure) RFC959 (FTP) RFC1141 (Incremental updating of the Internet checksum) RFC1122 (Requirements for Internet Hosts -Communication Layers) RFC1256 (ICMP Router Discovery Messages) RFC1393 (Trace route Using an IP Option) RFC 1812 (IPv4) RFC 2338 (VRRP) RFC 2787 (Definitions of Managed Objects for VRRP) RFC 2474 (Diffserv) RFC 2131 (DHCP) RFC 2132 (DHCP and BOOTP Extension) RFC2280 (Routing Policy Specification Language (RPSL)) RFC1305 (NTPv3) RFC1157 (SNMP) RFC857 (Telnet Echo Option) RFC858 (Telnet Suppress Go Ahead Option) RFC1093 (NSFNET routing architecture) RFC 2138 (Radius Authentication) RFC 2139 (Radius Accounting) RFC1492 (TACACS) RFC 1518, 1519 (CIDR) RFC 2622 (Routing policy) RFC 2338 (VRRP) RFC 1112 (Host extensions for IP multicasting) RFC 2236 (Internet Group Management Protocol, Version 2) RFC 2715 (Interoperability Rules for Multicast Routing Protocols) RFC 2362 (PIM-SM) Draft (PIM-DM:draft-ietf-idmr-pim-dm-06) RFC 2283 (Multi-protocol Extensions for BGPv4) RFC 2267 (Network Ingress Filtering) RFC2474 (Definition of the Differentiated Services Field (DS Field) in the IPv4 and IPv6 Headers) RFC2475 (Architecture for Differentiated Service) RFC3168 (The Addition of Explicit Congestion Notification (ECN) to IP) RFC2702 (Requirements for Traffic Engineering Over MPLS) RFC3031 (Multi-protocol Label Switching Architecture) RFC3032 (MPLS Label Stack Encoding) RFC3033 (The Assignment of the Information Field and Protocol Identifier in the Q.2941 Generic Identifier and Q.2957 User-to-user Signaling for the Internet Protocol) RFC3036 (LDP Specification) RFC3037 (LDP Applicability) RFC2547 (BGP/MPLS VPN) RFC2764 (A Framework for IP Based Virtual Private Networks) RFC2796 (BGP Route Reflection - An Alternative to Full Mesh IBGP) RFC2842 (Capabilities Advertisement with BGPv4) RFC2858 (Multi-protocol Extensions for BGPv4) RFC2917 (A Core MPLS IP VPN Architecture) RFC2918 (Route Refresh Capability for BGPv4) RFC3107 (Carrying Label Information in BGPv4) Draft (Draft-martini-l2circuit-trans-mpls-08.txt) Draft (Draft-martini-l2circuit-encap-mpls-04.txt) Draft (Draft-kompella-ppvpn-l2vpn-01.txt) RFC2080 (RIPng for IPv6) RFC1981 (Path MTU Discovery for IP version 6) RFC2460 (Internet Protocol, Version 6 (IPv6) Specification) RFC2461 (Neighbor Discovery for IP Version 6 (IPv6)) RFC2462 (IPv6 Stateless Address Auto configuration) RFC2463 (Internet Control Message Protocol (ICMPv6) for the Internet Protocol Version 6 (IPv6) Specification) RFC2545 (BGP support IPv6) RFC2740 (OSPF for IPv6) RFC3513 (Internet Protocol Version 6 (IPv6) Addressing Architecture) RFC3596 (DNS Extensions to Support IP Version 6) Draft (Draft-ietf-isis-ipv6-04.txt ) RFC 1493 (Bridge MIB) RFC 2674 (VLAN MIB Extension) RFC 1573 (Private IF MIB) RFC 1213 (MIB II) RFC 1724 (RIP Version 2 MIB Extension) RFC 1850 (OSPF Version 2 MIB Extension) RFC 2787 (VRRP MIB) RFC 2618 (RADIUS Authentication Client MIB) RFC 2620 (RADIUS Accounting Client MIB) RFC 1155 (Structure and Mgmt Information (SMIv1)) RFC 1157 (SNMPv1/v2c) RFC 1213, 1573 (MIB II) RFC 1901-1907 (SNMPv2c, SMIv2 and Revised MIB-II) RFC 2271 (FrameWork) RFC 2578-2580 (SMIv2) RFC 2819 (RMON) RFC 2668 (IEEE 802.3 MAU MIB) RFC 2665 (Pause control) RFC 2233 (Interfaces MIB) RFC2452 (MIB for TCP6) RFC2454 (MIB for UDP6) RFC2466 (MIB for ICMP6) RFC 5905 (NTPv4) |
Product ID | Product Description |
LS-S5590-28T8XC-EI-GL | H3C S5590-28T8XC-EI L3 Ethernet Switch with 28*10/100/1000Base-T Ports (Including 4*SFP Combo Ports),8*1G/10GBase-X SFP Plus Ports and 1*Slot, Without Power Supplies |
LS-S5590-48T4XC-EI-GL | H3C S5590-48T4XC-EI L3 Ethernet Switch with 48*10/100/1000Base-T Ports,4*1G/10GBase-X SFP Plus Ports and 1*Slot, Without Power Supplies |
LS-S5590-28S8XC-EI-GL | H3C S5590-28S8XC-EI L3 Ethernet Switch with 28*100/1000Base-X SFP Ports (Including 4*GE Combo Ports),8*1G/10GBase-X SFP Plus Ports and 1*Slot, Without Power Supplies |
LS-S5590-48S4XC-EI-GL | H3C S5590-48S4XC-EI L3 Ethernet Switch with 48*100/1000Base-X SFP Ports,4*1G/10GBase-X SFP Plus Ports and 1*Slot, Without Power Supplies |
LS-S5590-28P8XC-EI-GL | H3C S5590-28P8XC-EI L3 Ethernet Switch with 28*10/100/1000BASE-T PoE+ Ports (Including 4*SFP Combo Ports),8*1G/10G BASE-X SFP Plus Ports, and 1*Slot, Without Power Supplies Switch |
LS-S5590-48P6XC-EI-GL | H3C S5590-48P6XC-EI L3 Ethernet Switch with 48*10/100/1000BASE-T PoE+ Ports,6*1G/10G BASE-X SFP Plus Ports, and 1*Slot, Without Power Supplies Switch |
Fan | |
LSPM1FANSA-SN | H3C Fan Module (Fan Panel Side Intake Airflow) |
LSPM1FANSB-SN | H3C Fan Module (Fan Panel Side Exhaust Airflow) |
Power supply | |
PSR180-12A-B | 180W Asset-Manageable AC Power Supply Module (Power Panel Side Exhaust Airflow) |
PSR180-12A-F | 180W Asset-Manageable AC Power Supply Module (Power Panel Side Intake Airflow) |
PSR180-12D-B | 180W Asset-Manageable DC Power Supply (Power Panel Side Exhaust Airflow) |
PSR600-54A-B | H3C, PSR600-54A-B,600W/56V PoE Power Supply |
PSR920-54A-B | H3C, PSR920-54A-B,920W/56V PoE Power Supply |
PSR1600-54A-B | H3C, PSR1600-54A-B,920W/56V PoE Power Supply |
Modules | |
LSPM6FWDB | H3C S5000 Series SecBlade IV Next Generation Firewall B Module |
LSWM2QP2P | 2-Port 40G QSFP Plus Interface Card |
LSWM2SP8P | 8-Port 10G SFP Plus Interface Card |
LSWM2ZQP2P | H3C S6520X 2 Ports 100G QSFP28 Interface Module |
LSWM2ZSP8P | H3C S6520X 8 Ports 25G SFP28 Interface Module |
LSWM2SP2PB | H3C 2-Port 10G SFP Plus Ethernet Optical Interface Module |
LSWM2SP4PB | H3C 4-Port 10G SFP Plus Ethernet Optical Interface Module |
Transceivers | |
SFP-GE-SX-MM850-A | 1000BASE-SX SFP Transceiver, Multi-Mode (850nm, 550m, LC) |
SFP-GE-LX-SM1310-A | 1000BASE-LX SFP Transceiver, Single Mode (1310nm, 10km, LC) |
SFP-GE-LH40-SM1310 | 1000BASE-LH40 SFP Transceiver, Single Mode (1310nm, 40km, LC) |
SFP-GE-LH40-SM1550 | 1000BASE-LH40 SFP Transceiver, Single Mode (1550nm, 40km, LC) |
SFP-GE-LH80-SM1550 | 1000BASE-LH80 SFP Transceiver, Single Mode (1550nm, 80km, LC) |
SFP-GE-LH100-SM1550 | 1000BASE-LH100 SFP Transceiver, Single Mode (1550nm, 100km, LC) |
SFP-GE-LX-SM1310-BIDI | 1000BASE-LX BIDI SFP Transceiver, Single Mode (TX1310/RX1490, 10km, LC) |
SFP-GE-LX-SM1490-BIDI | 1000BASE-LX BIDI SFP Transceiver, Single Mode (TX1490/RX1310, 10km, LC) |
SFP-GE-T | 1000BASE-T SFP |
SFP-XG-LH40-SM1550 | SFP+ Module(1550nm,40km,LC) |
SFP-XG-LX-SM1310-E | SFP+ Module(1310nm,10km,LC) |
SFP-XG-SX-MM850-E | SFP+ Module(850nm,300m,LC) |
SFP-25G-SR-MM850 | 25G SFP28 Optical Transceiver Module (850nm,100m,SR,MM,LC) |
QSFP-40G-LR4-WDM1300 | 40GBASE-LR4 QSFP+ Optical Transceiver Module |
QSFP-40G-CSR4-MM850 | QSFP+ 40GBASE Optical Transceiver Module (850nm,300m,CSR4,Support 40G to 4*10G) |
QSFP-40G-SR4-MM850 | QSFP+ 40GBASE Optical Transceiver Module (850nm,100m,SR4,Support 40G to 4*10G) |
Cables | |
CAB-CON-1.8m | Single Cable,Console Serial Port Cable,1.8m,D9F,28UL20276(4P)(P296U),MPH-8P8C |
LSWM1STK | SFP+ Cable 0.65m |
LSWM2STK | SFP+ Cable 1.2m |
LSWM3STK | SFP+ Cable 3m |
LSTM1STK | SFP+ Cable 5m |
SFP-25G-D-CAB-1M | 25G SFP28 to 25G SFP28 1m Passive Cable |
SFP-25G-D-CAB-3M | 25G SFP28 to 25G SFP28 3m Passive Cable |
SFP-25G-D-CAB-5M | 25G SFP28 to 25G SFP28 5m Passive Cable |
LSWM1QSTK0 | 40G QSFP+ Cable 1m |
LSWM1QSTK1 | 40G QSFP+ Cable 3m |
LSWM1QSTK2 | 40G QSFP+ Cable 5m |
LSWM1QSTK3 | 40G QSFP+ to 4x10G SFP+ Cable 1m |
LSWM1QSTK4 | 40G QSFP+ to 4x10G SFP+ Cable 3m |
LSWM1QSTK5 | 40G QSFP+ to 4x10G SFP+ Cable 5m |
OP-MPO8-8LC-10-M | Fiber Connector, MPO(8 core)/PC,8LC/PC(0.5m),Multimode(OM3),3.0mm,10.0m |
OP-MPO8-MPO8-10-M | Fiber connector, MPO(8 core)/PC,MPO(8 core)/PC,Multimode(OM3),3.0mm,10.0m |
OP-MPO8-MPO8-50-M | Fiber connector, MPO(8 core)/PC,MPO(8 core)/PC,Multimode(OM3),3.0mm,50.0m |
OP-MPO8-MPO8-100-M | Fiber connector, MPO(8 core)/PC,MPO(8 core)/PC,Multimode(OM3),3.0mm,100.0m |
OP-MPO8-MPO8-200-M | Fiber connector, MPO(8 core)/PC,MPO(8 core)/PC,Multimode(OM3),3.0mm,200.0m |