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H3C S5560X-EI is a series of intelligent scalable GE switches with outstanding performance, high port density, and ease of installation. It offers the following benefits:
Industry-leading high-performance hardware architecture with H3C's state-of-the-art Comware 7 operating system.
Seamless wired and wireless integration on a unified switching platform. The license-based wireless access controller functionality enables wired and wireless local forwarding at the access layer, eliminates the bandwidth bottlenecks typical of a wireless controller, expands wireless deployment, and saves TCO.
Reliable hardware design with modular dual power supply and dual FAN design.
Embedded SmartMC delivers the easiest and simplest network operation and management solution.
Advanced free of charge enterprise features and functions like layered security, VxLAN, IRF and Macsec
High-density 10/100/1000Base-T autosensing Ethernet ports or 10GE SFP + fiber ports on board
One expansion slot, up to 9 optional interface cards that provide high density giga, 10GE, 25GE, 40GE and multigiga access.
As an access device on enterprise networks, the switch can provide GE connections for desktop applications. It can also be used as a core device on small- and medium-sized enterprise networks. On MAN or industrial networks, it provides GE access for users and transmits the aggregated traffic from downstream switches to core switches.
The S5560X-EI switch series has the following models:
S5560X-30C-EI: 24 × 10/100/1000BASE-T ports (including 8 × combo interfaces), 4 × 10G/1G BASE-X SFP+ ports, 1 × expansion slot, 2 × fan tray slots, and 2 × power module slots.
S5560X-54C-EI: 48 × 10/100/1000BASE-T ports, 4 × 10G/1G BASE-X SFP+ ports, 1 × expansion slot, 2 × fan tray slots, and 2 × power module slots.
S5560X-30F-EI: 24 × SFP ports (including 8 × combo interfaces), 4 × 10G/1G BASE-X SFP+ ports, 1 × expansion slot, 2 × fan tray slots, and 2 × power module slots.
S5560X-54F-EI: 48 × SFP ports, 4 × 10G/1G BASE-X SFP+ ports, 1 × expansion slot, 2 × fan tray slots, and 2 × power module slots.
S5560X-30C-PWR-EI: 24 × 10/100/1000BASE-T ports, 4 × 10G/1G BASE-X SFP+ ports, 1 × expansion slot, 2 × fan tray slots, and 2 × power module slots.
S5560X-54C-PWR-EI: 48 × 10/100/1000BASE-T ports, 4 × 10G/1G BASE-X SFP+ ports, 1 × expansion slot, 2 × fan tray slots, and 2 × power module slots.
S5560X-34S-EI: 28 × 10/100/1000BASE-T ports (including 4 × combo interfaces), 4 × 10G/1G BASE-X SFP+ ports, and 2 × 40G QSFP+ ports, fixed AC&DC power supply
S5560X-54S-EI: 48 × 10/100/1000BASE-T ports, 4 × 10G/1G BASE-X SFP+ ports, and 2 × 40G QSFP+ ports, fixed AC&DC power supply
S5560X-30F-EIF: 24 × SFP ports, 4 × 10G/1G BASE-X SFP+, 4 × 40G QSFP+ ports, fixed AC&DC power supply.
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H3C S5560X-EI series switches provide 24 or 48 Giga and 4 fixed 10GE ports onboard with one expansion slot, supporting up to 9 types of interface cards like 2-port 10GBaseT / SFP+; 8-port 10G SFP+ card; 2-port 40G QSFP+ card and Multigiga ports. The switch supports up to 12 10G ports, 2*25G or 2*40G ports. The scaling flexibility and the high port density satisfy the requirements for hybrid configuration of copper ports and fiber ports at the distribution layer in large sized networks or at the core layer in SMB sized networks.
Virtual eXtensible LAN (VXLAN) is a MAC-in-UDP technology that provides Layer 2 connectivity between distant network sites across an IP network. VXLAN enables long-distance virtual machine and data mobility and is typically used in data centers and the access layer of campus networks for multitenant services. The H3C implementation of VXLAN supports automatic VXLAN tunnel establishment with EVPN.
In H3C open application architecture (OAA), the switch can accommodate high-performance OAP modules to offer dedicated services such as firewall, IPS, or load balancing in addition to conventional forwarding services. By installing OAP modules, the customers can use the switch as a multiservice device without having to buy separate service appliances, such as a firewall device.
H3C S5560X-EI series switches implement the WLAN function by installing an AC feature pack on the main control unit, thereby implementing both the wired function and the WLAN function on a single device. Embedded AC is a low-cost WLAN solution, save overall investment, improve forwarding capacity, realized a true unified wired and wireless solution in Campus. Max 256 APs supported on one single switches.
H3C S5560X-EI series switches come with IPv4/IPv6 dual-stack platform which provides sophisticated IPv4/IPv6 solutions by supporting multiple tunnels, IPv4/IPv6 Layer 3 routing protocols, multicasting, and policy-based routing. The S5560X-EI series switches are mature commercial IPv6 product that has passed the IPv6 network access certification of the Chinese Ministry of Industry and Information Technology and the IPv6 Ready Phase II certification.
H3C S5560X-EI series switches are pre-built with Intelligent Resilient Framework 2 (IRF2). IRF2 provides the following benefits:
High scalability: With IRF2, plug-n-play device aggregation can be achieved by adding one or more switches into the IRF2 stack and enabling IRF2 stacking on the new device. New devices can be managed with a single IP, and upgraded at the same time to reduce network expansion cost.
High reliability: The IRF2 patented 1: N backup technology allows each slave device in the IRF2 stack to serve as the backup of the master, creating control and data link redundancy, as well as uninterrupted layer-3 forwarding. This improves the reliability, avoids unplanned business downtime and serves to improve overall performance. When the master device fails, traffic remains uninterrupted.
Load balancing: IRF2 supports cross-device link aggregation, upstream and downstream can be connected to more than one physical link, which creates another layer of network redundancy and boosts the network resource utilization.
Availability: H3C Implements IRF2 through standard Forty Gigabit Ethernet (40GE) or Ten Gigabit Ethernet (10GE) ports which allocates bandwidth for business and application access and reasonably splits local traffic and upstream traffic. IRF2 rules not only able to obeyed within and across the rack, but also across the LAN
Software-defined networking (SDN) is an innovative network architecture that separates the control plane from the forwarding plane, typically by using OpenFlow. SDN significantly simplifies network management, reduces maintenance complexity and cost, enables flexible traffic management, and offers a good platform for core network and application innovations.
The S5560X-EI network switch series supports a large network flow table. Combined with H3C SDN controller, it can easily implement a two-layer network architecture and quickly add functions in existing network in order to drastically reduces network management complexity while substantially lowers network maintenance cost.
Endpoint Admission Defense (EAD), in conjunction with the backend system, integrates endpoint security (including anti-virus and patching) and network security (including network access control and access right control) into an interactive security system. By checking, isolating, repairing, managing, and monitoring the endpoints, this system turns reactive single-point defense to proactive, all-round defense, and dispersed management to centralized policy management. This system enhances the overall network protection against numerous security threats and improves the responsiveness to new threats.
The switch supports unified MAC address authentication, 802.1x authentication, and portal authentication; dynamic or static binding of user identifiers such as user account, IP address, MAC address, VLAN, and port number; and dynamic application of user profiles or policies (such as VLAN, QoS, and ACL) on users. Using the switch in conjunction with H3C IMC, you can manage and monitor online users in real time and take prompt action on illegitimate behaviors.
The switch offers a large number of inbound and outbound ACLs and VLAN-based ACL assignment.
The switch supports Unicast Reverse Path Forwarding (uRPF), which protects a network against source spoofing attacks, preventing DoS and DDoS attacks.
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.
The switch can cooperate with H3C iNode client and core switches such as S10500 and S7500 to provide a complete MACsec solution.
The switch offers the following hardware high availability features:
1+1 power module redundancy and 1+1 fan tray redundancy.
Supports multiple AC and DC power module options.
Automatically monitors power module and fan tray status, and generates alarms when a power or temperature event occurs.
Adjusts fan speed based on the change in temperature.
In addition to hardware redundancy, the switch provides a variety of node and link redundancy and protection mechanisms, including:
Ethernet link aggregation, including LACP.
Spanning tree protocols, including STP, RSTP and MSTP.
Smart Link, which protects faster link switchover for dual uplink network.
Rapid Ring Protection Protocol (RRPP).
IRF 2 ring topology in conjunction with multichassis link aggregation.
The switch offers abundant QoS features, including:
Packet filtering based on packet header fields from Layer 2 through Layer 4, including source MAC, destination MAC, source IP, destination IP, TCP/UDP port number, protocol type, and VLAN.
Flexible queuing and scheduling algorithms configured on a per-port or per-queue basis, including strict priority (SP), weighted round robin (WRR), SP+WRR, weighted fair queuing (WFQ), and SP+WFQ.
Committed access rate (CAR) with the minimum granularity at 64 kbps.
Port mirroring in both outbound and inbound directions for network monitoring and troubleshooting.
The S5560X-EI switch series supports abundant management ports, such as the console port, mini-USB and the out-of-band network management port. It supports the Simple Network Management Protocol (SNMP) v1/v2c/v3, Open View, IMC, CLI, Web-based NMS and Telnet allowing easy device management. It also supports SSH2.0 to provide better protection management.
The S5560X-EI switch supports SPAN/RSPAN/ERSPAN mirroring, and multiple mirroring ports so that network traffic can be analyzed to carry out corresponding management and maintenance measures and traffic of network services and applications is visible. The S5500X-EI switch provides network stream analysis reports, which help users to promptly optimize the network structure and adjust resource deployment.
SmartMC is H3C's latest offering and innovation that helps small and middle size enterprise network to address management issue and is free of charge, easy to use web management tool. SmartMC is embedded network management tool into the switch, it includes commander switches and other access switches.
SmartMC delivers the following benefits:
Intelligent operation: once the switch is powered on and SmartMC function is enabled, topology will be created automatically and user can go enhanced web GUI to check the latest status.
Centralized management: all management can be achieved via commander switch such as centralized configuration backup, and software version management, increasing working efficiency.
One key device replacement: in case of one switch failure, the new added same type switch can download the same configuration and work as old switch immediately
H3C S5560X-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 S5560X-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.
Item | S5560X-30C-EI | S5560X-54C-EI | S5560X-30F-EI | S5560X-54F-EI | S5560X-30F-EIF |
Port switching capacity | 288Gbps | 336Gbps | 288Gbps | 336Gbps | 288Gbps |
Packet forwarding rate | 216 Mpps | 252 Mpps | 216 Mpps | 252 Mpps | 216 Mpps |
Box switching capacity | 598Gbps | ||||
Dimensions (H × W × D) | 43.6 × 440 × 360 mm (1.72 × 17.32 × 14.17 in) | 43.6 × 440 × 360 mm (1.72 × 17.32 × 14.17 in) | 43.6 × 440 × 360 mm (1.72 × 17.32 × 14.17 in) | 43.6 × 440 × 360 mm (1.72 × 17.32 × 14.17 in) | 43.6 × 440 × 220 mm (1.72 × 17.32 × 8.66 in) |
Weight | ≤ 6.7 kg (14.77 lb) | ≤ 7.0 kg (15.43 lb) | ≤ 6.6 kg (14.55 lb) | ≤ 6.7 kg (14.77 lb) | ≤ 3.2 kg (7.05 lb) |
CPU | Dual Core, 800MHz | ||||
Flash/SDRAM | 1GB/2GB | ||||
Management Ethernet ports | 1 | ||||
Console ports | 1 × RJ-45 console port 1 × Micro-USB console port Only the Micro-USB console port is available when you connect both ports. | ||||
Service ports | 24 × 10/100/1000Base-T autosensing Ethernet ports (including 8 combo interfaces) 4 × 10G SFP+ ports | 48 × 10/100/1000Base-T autosensing Ethernet ports 4 × 10G SFP+ ports | 24 × SFP ports (including 8 combo interfaces) 4 × 10G SFP+ ports | 48 × SFP ports 4 × 10G SFP+ ports | 24 × SFP ports (including 8 combo interfaces) 4 × 10G SFP+ ports 2 x 40G QSFP+ ports |
Expansion slots | 1 | 0 | |||
Compatible interface module | 2-port 40GE QSFP+ interface module 2-port 10G SFP+ interface module 2-port 25G SFP28 interface module 2-Port 10G BASE-T Interface Card with MACSec 2-Port 10G SFP Plus Interface Card with MACSec 4-Port 10/100/1000BASE-T Ethernet,6-Port SFP(2-Port Combo) Interface Module 8-Port 10G SFP Plus with MACSec Interface Module 8-Port 1/2.5/5G BASE-T Ethernet Copper Interface Module 8-Port 1/2.5/5/10G BASE-T Ethernet Copper Interface Module | N/A | |||
AC input voltage | PSR150-A1&PSR150-A2: Rated: 100 VAC to 240 VAC @ 50 Hz/60 Hz Max: 90 VAC to 264 VAC @ 47 Hz to 63 Hz | ||||
DC input voltage | PSR150-D1: Rated: –48 VDC to –60 VDC Max: –36 VDC to –72 VDC You can use a –48 VDC power source in the equipment room or an H3C RPS (RPS800-A or RPS1600-A). | ||||
Min. power consumption | Dual AC inputs: 29 W Single DC input: 24 W Dual DC inputs: 28 W | Single AC input: 27 W Dual AC inputs: 31 W Single DC input: 24 W Dual DC inputs: 29 W | Single AC input: 24 W Dual AC inputs: 29 W Single DC input: 24 W Dual DC inputs: 30 W | Single AC input: 30 W Dual AC inputs: 37 W Single DC input: 30 W Dual DC inputs: 36 W | AC:20W DC:23W |
Max. power consumption | Single AC input: 87 W Dual AC inputs: 91 W Single DC input: 88 W Dual DC inputs: 95 W | Single AC input: 88 W Dual AC inputs: 93 W Single DC input: 89 W Dual DC inputs: 96 W | Single AC input: 112 W Dual AC inputs: 116 W Single DC input: 113 W Dual DC inputs: 122 W | Single AC input: 130 W Dual AC inputs: 134 W Single DC input: 132 W Dual DC inputs: 140 W | AC:71W DC:72W |
MTBF(Year) | 178.67 | 151.28 | 170.05 | 149.97 | 170.05 |
MTTR(Hour) | 1 | 1 | 1 | 1 | 1 |
Operating temperature | 0ºC to 45ºC (32°F to 113°F) -60m-5000m altitude: From 0m, the maximum operating temperature reduce by 0.33℃ for every time 100 the altitude increases by 100m. | ||||
Storage temperature | -40℃ to 70℃(-40℉ to 158℉) | ||||
Operating &storage humidity | 5% RH to 95% RH, non-condensing |
Item | S5560X-30C-PWR-EI | S5560X-54C-PWR-EI | S5560X-34S-EI | S5560X-54S-EI |
Port Switching capacity | 288Gbps | 336Gbps | 288Gbps | 336Gbps |
Packet forwarding rate | 216 Mpps | 252 Mpps | 216 Mpps | 252 Mpps |
Box switching capacity | 598Gbps | |||
Dimensions (H × W × D) | 43.6 × 440 × 460 mm (1.72 × 17.32 × 18.11 in) | 43.6 × 440 × 460 mm (1.72 × 17.32 × 18.11 in) | 43.6 × 440 × 260 mm (1.72 × 17.32 × 10.24 in) | 43.6 × 440 × 260 mm (1.72 × 17.32 × 10.24 in) |
Weight | ≤ 9.2 kg (20.28 lb) | ≤ 9.6 kg (21.16 lb) | ≤ 3.6 kg (7.94 lb) | ≤ 3.9 kg (8.60 lb) |
CPU | Dual Core, 800MHz | |||
Flash/SDRAM | 1GB/2GB | |||
Packet buffer | 4M | |||
Management Ethernet ports | 1 | |||
Console ports | 1 × RJ-45 console port 1 × Micro-USB console port Only the Micro-USB console port is available when you connect both ports. | |||
Service ports | 24 × 10/100/1000Base-T autosensing Ethernet ports 4 × 10G SFP+ ports | 48 × 10/100/1000Base-T autosensing Ethernet ports 4 × 10G SFP+ ports | 28 × 10/100/1000Base-T autosensing Ethernet ports (including 4 combo interfaces) 4 × 10G SFP+ ports 2 × 40G QSFP+ ports | 48 × 10/100/1000Base-T autosensing Ethernet ports 4 × 10G SFP+ ports 2 × 40G QSFP+ ports |
Expansion slots | 1 | 1 | N/A | N/A |
Compatible interface modules | 2-port 40GE QSFP+ interface module 2-port 25G SFP28 interface module 2-port 10G SFP+ interface module 2-Port 10G BASE-T Interface Card with MACSec 2-Port 10G SFP Plus Interface Card with MACSec 4-Port 10/100/1000BASE-T Ethernet,6-Port SFP(2-Port Combo) Interface Module 8-Port 10G SFP Plus with MACSec Interface Module 8-Port 1/2.5/5G BASE-T Ethernet Copper Interface Module 8-Port 1/2.5/5/10G BASE-T Ethernet Copper Interface Module | N/A | N/A | |
AC input voltage | PSR360-56A/PSR720-56A: Rated: 100 VAC to 240 VAC @ 50 Hz/60 Hz Max: 90 VAC to 264 VAC @ 47 Hz to 63 Hz PSR1110-56A: Rated: 115 VAC to 240 VAC @ 50 Hz/60 Hz Max: 102.5 VAC to 264 VAC @ 47 Hz to 63 Hz | Rated: 100 VAC to 240 VAC @ 50 Hz/60 Hz Max: 90 VAC to 264 VAC @ 47 Hz to 63 Hz | ||
DC input voltage | PSR560-56D: Rated: –48 VDC to –60 VDC Max: –36 VDC to –72 VDC You can use a –48 VDC power source in the equipment room or an H3C RPS (RPS1600-A). | Rated: –48 VDC to –60 VDC Max: –36 VDC to –72 VDC You can use a –48 VDC power source in the equipment room or an H3C RPS (RPS800-A or RPS1600-A). | ||
Min. power consumption | Single AC input: 31 W Dual AC inputs: 31 W Single DC input: 43 W Dual DC inputs: 60 W | Single AC input: 33 W Dual AC inputs: 40 W Single DC input: 48 W Dual DC inputs: 66 W | Single AC input: 19 W | Single AC input: 22 W |
Max. power consumption | Single 1110 W AC input: 926 W (including 720 W for PoE) Dual 1110 W AC inputs: 928 W (including 720 W for PoE) Single 560 W DC input: 486 W (including 360 W for PoE) Dual 560 W DC inputs: 876 W (including 720 W for PoE) | Single 1110 W AC input: 1090 W (including 810 W for PoE) Dual 1110 W AC inputs: 1742 W (including 1440 W for PoE) Single 560 W DC input: 502 W (including 360 W for PoE) Dual 560 W DC inputs: 1003 W (including 810 W for PoE) | Single AC input: 56 W Single DC input: 57 W | Single AC input: 66 W Single DC input: 68 W |
MTBF(Year) | 151.08 | 133.40 | 109.80 | 101.50 |
MTTR(Hour) | 1 | 1 | 1 | 1 |
Operating temperature | 0ºC to 45ºC (32°F to 113°F) -60m-5000m altitude: From 0m, the maximum operating temperature reduce by 0.33℃ for every time 100 the altitude increases by 100m. | |||
Storage temperature | -40℃ to 70℃(-40℉ to 158℉) | |||
Operating &storage humidity | 5% RH to 95% RH, non-condensing |
Note:This content is applicable only to regions outside mainland China. H3C reserves the right to interpret the content.
Item | S5560X-EI switch series |
SDN/OpenFlow | OpenFlow 1.3 Multiple controllers (equal/master/slave controller role) Concurrent processing of multiple flow tables Group table Meter |
VXLAN | VXLAN L2 switching VXLAN L3 routing VXLAN VTEP IS-IS+ENDP distributed control plane MP-BGP+EVPN distributed control plane OpenFlow+Netconf centralized control plane |
Link aggregation | 1G/10G/40G port aggregation Static aggregation Dynamic aggregation Multichassis link aggregation |
Broadcast/Multicast/Unicast storm suppression | Storm suppression based on port bandwidth percentage Storm suppression based on PPS Storm suppression based on BPS Broadcast traffic/Multicast traffic/Unknown unicast traffic suppression |
MAC address table | MAC address entries Static MAC address Blackhole MAC address MAC learning limit |
ARP Table | Static ARP Gratuitous ARP Common proxy ARP and local proxy ARP Dynamic ARP inspection ARP anti-attack ARP flood suppression ARP source suppression ARP detection based on DHCP snooping safety entries, 802.1X entries, and IP/MAC static binding entries |
VLAN | Port-based VLAN MAC-based VLAN Protocol-based VLAN IP subnet based VLAN Dynamic VLAN QinQ and flexible QinQ VLAN mapping Voice VLAN MVRP ((GVRP analog)) Hardware-based switching |
Loop-free redundant Layer 2 topology | STP/RSTP/MSTP/PVST/PVST+ STP Root Guard BPDU Guard BPDU Blocking and Root Guard Link Detection (UDLD) Digital Diagnostic Monitor (DDM) G.8032 Ethernet ring protection switching (ERPS) |
DHCP | DHCP client DHCP snooping DHCP relay DHCP server DHCP snooping Option 82/DHCP relay Option 82 DHCPv6 |
IRF2 | IRF2 Distributed device management, distributed link aggregation, and distributed resilient routing Stacking through standard Ethernet interfaces Local device stacking and remote device stacking Support up to 9 devices stacking |
IP routing | IPv4 routing IPv6 routing Static routing RIPv1/v2 and RIPng OSPFv1/v2/v3 BGP and BGP4+ for IPv6 Hardware-based IPv4/IPv6 routing Equal-cost multi-path routing (ECMP) and policy routing VRRP/VRRPv3 Inter VLAN routing |
IPv6 | Neighbor Discovery (ND) PMTU IPv6-Ping, IPv6-Tracert, IPv6-Telnet, and IPv6-TFTP Manual tunnel 6to4 tunnel ISATAP tunnel GRE tunnel |
Multicast | IGMP Snooping v1/v2/v3 and MLD Snooping v1/v2 PIM Snooping MLD Proxy Multicast VLAN IGMP v1/v2/v3 and MLD v1/v2 PIM-DM, PIM-SM and PIM-SSM MSDP and MSDP for IPv6 MBGP and MBGP for IPv6 |
MPLS | Support MPLS Support MCE Support MPLS VPN, VPLS |
Mirroring | Flow mirroring N:4 port mirroring Local port mirroring and remote port mirroring Policy-based Mirroring Traffic Mirroring mirror session quantity: support 8 mirror group Proportion of Port Mirroring: N:1 Proportion of Traffic Mirroring: N:1 |
QoS/ACL | Layer 2 to Layer 4 packet filtering Traffic classification based on source MAC, destination MAC, source IP, destination IP, TCP/UDP port, and VLAN Time range-based ACL Bi-directional ACLs (inbound and outbound) VLAN-based ACL issuing Rate limit for receiving and transmitting packets (a minimum CIR of 8 Kbps) Packet redirection 802.1p priority and DSCP priority Committed Access Rate (CAR) Flexible queue scheduling algorithms based on both port and queue, including SP, WRR, and SP+WRR ToS(Type of Service) Best-effort service/ IntServ/DiffServ 802.1p, DSCP, EXP |
Security | Hierarchical user management and password protection MAC-based authentication 802.1X Storm constrain Guest VLAN AAA authentication RADIUS authentication HWTACACS SSH 2.0 Port isolation Port security EAD Dynamic ARP detection BPDU guard and root guard uRPF IP/Port/MAC binding Plaintext authentication and MD5 authentication for OSPF and RIPv2 packets Public Key Infrastructure (PKI) IP Source Guard HTTPs SCP |
Forwarding | Wire-speed/Line-rate architecture |
Loading and upgrading | Loading and upgrading through XMODEM/FTP/TFTP Loading and upgrading from USB Multiplesystemimagesstored |
Management and maintenance | Zero Touch Provision Configuration through CLI, Telnet, and console port SNMPv1/v2c/v3 and Web-based NMS SNMP for IPv6 Restful Python Web network management RMON(Remote Network Monitoring) and groups 1,2,3and 9, alarm event, and history recording. IMC network management system System log, alarming based on severity, debugging information output NTP, SNTP Power, fan, and temperature alarming Ping and Tracert Virtual Cable Test (VCT) Device Link Detection Protocol (DLDP) LLDP, LLDP-MED Loopback detection |
Power saving | Automatic port power-down Scheduled port power-down (schedule job) 802.3az Energy Efficient Ethernet (EEE) support |
EMC | FCC Part 15 Subpart B CLASS A ICES-003 CLASS A VCCI CLASS A CISPR 32 CLASS A EN 55032 CLASS A AS/NZS CISPR32 CLASS A CISPR 24 EN 55024 EN 61000-3-2 EN 61000-3-3 ETSI EN 300 386 GB/T 9254 YD/T 993 |
Safety | UL 60950-1 CAN/CSA C22.2 No 60950-1 IEC 60950-1 EN 60950-1 AS/NZS 60950-1 FDA 21 CFR Subchapter J GB 4943.1 |
Model | S5560X-30C-EI | S5560X-54C-EI | S5560X-30F-EI | S5560X-54F-EI | S5560X-30F-EIF | S5560X-30C-PWR-EI | S5560X-54C-PWR-EI | S5560X-34S-EI | S5560X-54S-EI |
MAC address entries | 65,536 | 65,536 | 65,536 | 65,536 | 65,536 | 65,536 | 65,536 | 65,536 | 65,536 |
VLAN table | 4094 | 4094 | 4094 | 4094 | 4094 | 4094 | 4094 | 4094 | 4094 |
VLAN interface | 1024 | 1024 | 1024 | 1024 | 1024 | 1024 | 1024 | 1024 | 1024 |
Active VLAN | 4094 | 4094 | 4094 | 4094 | 4094 | 4094 | 4094 | 4094 | 4094 |
IPv4 routing entries | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 |
IPv4 ARP entries | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 | 32,768 |
IPv4 ACL entries | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 |
IPv4 multicast L2 entries | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 |
IPv4 multicast L3 entries | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 |
IPv6 unicast routing entries | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 |
QOS forward queues | 8 | 8 | 8 | 8 | 8 | 8 | 8 | 8 | 8 |
IPv6 ACL entries | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 | Ingress: 2048 Egress: 512 |
IPv6 ND entries | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 | 16,384 |
IPv6 multicast L2 entries | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 | 4000 |
IPv6 multicast L3 entries | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 | 2000 |
Jumbo frame length (Bytes) | 10000 | 10000 | 10000 | 10000 | 10000 | 10000 | 10000 | 10000 | 10000 |
Max Stacking Members | 9 | 9 | 9 | 9 | 9 | 9 | 9 | 9 | 9 |
Max Stacking | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps |
Bandwidth | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps | 160Gbps |
LACP group | 128 | 128 | 128 | 128 | 128 | 128 | 128 | 128 | 128 |
MAX num in one LACP group | 32 | 32 | 32 | 32 | 32 | 32 | 32 | 32 | 32 |
Field Replace Unit | S5560X-30C-EI | S5560X-30C-PWR-EI |
Removable power modules | ||
PSR150-A1 | Supported | Not supported |
PSR150-A2 | Supported | Not supported |
PSR150-D1 | Supported | Not supported |
PSR360-56A | Not supported | Supported |
PSR560-56D | Not supported | Supported |
PSR720-56A | Not supported | Supported |
PSR1110-56A | Not supported | Supported |
Removable fan trays | ||
LSPM1FANSA | Supported | Supported |
LSPM1FANSB | Supported | Supported |
Expansion cards | ||
LSWM2QP2P | Supported | Supported |
LSWM2SP2PM | Supported | Supported |
LSWM4SP8PM | Supported | Supported |
LSPM4G4T6P | Supported | Supported |
LSWM2XMGT8P | Supported | Supported |
LSWM2MGT8P | Supported | Supported |
LSWM2ZSP2P | Supported | Supported |
LSWM2SP2PB | Supported | Supported |
LSWM2SP4PB | Supported | Supported |
Power supply 1 | Power supply 2 | S5560X-30C-PWR-EI | S5560X-54C-PWR-EI | ||
Total PoE power capacity | PoE Ports Quantity | Total PoE power capacity | PoE Ports Quantity | ||
PSR360-56A | / | 180 W | 15.4W (802.3af): 11 | 180 W | 15.4W (802.3af): 11 |
PSR360-56A | PSR360-56A | 450 W | 15.4W (802.3af): 24 | 450 W | 15.4W (802.3af): 28 |
PSR720-56A | / | 450 W | 15.4W (802.3af): 24 | 450 W | 15.4W (802.3af): 28 |
PSR560-56D | PSR360-56A | 720 W | 15.4W (802.3af): 24 | 720 W | 15.4W (802.3af): 45 |
PSR720-56A | PSR360-56A | 810 W | 15.4W (802.3af): 24 | 810 W | 15.4W (802.3af): 48 |
PSR560-56D | PSR560-56D | 810 W | 15.4W (802.3af): 24 | 810 W | 15.4W (802.3af): 48 |
PSR1110-56A | / | 810 W | 15.4W (802.3af): 24 | 810 W | 15.4W (802.3af): 48 |
PSR720-56A | PSR560-56D | 810 W | 15.4W (802.3af): 24 | 1200 W | 15.4W (802.3af): 48 |
PSR720-56A | PSR720-56A | 810 W | 15.4W (802.3af): 24 | 1200 W | 15.4W (802.3af): 48 |
PSR1110-56A | PSR360-56A | 810 W | 15.4W (802.3af): 24 | 1200 W | 15.4W (802.3af): 48 |
PSR1110-56A | PSR560-56D | 810 W | 15.4W (802.3af): 24 | 1440 W | 15.4W (802.3af): 48 |
PSR1110-56A | PSR720-56A | 810 W | 15.4W (802.3af): 24 | 1560 W | 15.4W (802.3af): 48 |
PSR1110-56A | PSR1110-56A | 810 W | 15.4W (802.3af): 24 | 1680 W | 15.4W (802.3af): 48 |
Organization | Standards And Protocols |
IEEE | 802.1x Port based network access control protocol |
802.1ab Link Layer Discovery Protocol | |
802.1ak MVRP and MRP | |
802.1ax Link Aggregation | |
802.1d Media Access Control Bridges | |
802.1p Priority | |
802.1q VLANs | |
802.1s Multiple Spanning Trees | |
802.1ag Connectivity Fault Management | |
802.1v VLAN classification by Protocol and Port | |
802.1w Rapid Reconfiguration of Spanning Tree | |
802.3ad Link Aggregation Control Protocol | |
802.3af Power over Ethernet | |
802.3at Power over Ethernet | |
802.3az Energy Efficient Ethernet | |
802.3ah Ethernet in the First Mile | |
802.3x Full Duplex and flow control | |
802.3u 100BASE-T | |
802.3ab 1000BASE-T | |
802.3z 1000BASE-X | |
802.3ae 10-Gigabit Ethernet | |
802.3an 10-Gigabit Base-T Ethernet | |
802.3by 25G Ethernet | |
IETF | RFC 768 User Datagram Protocol |
RFC 791 Internet Protocol (IP) | |
RFC 792 Internet Control Message Protocol (ICMP) | |
RFC 793 Transmission Control Protocol (TCP) | |
RFC 813 Window and Acknowledgement Strategy in TCP | |
RFC 815 IP datagram reassembly algorithms | |
RFC 8201 Path MTU Discovery for IP version 6 | |
RFC 826 Address Resolution Protocol (ARP) | |
RFC 879 TCP maximum segment size and related topics | |
RFC 896 Congestion control in IP/TCP internetworks | |
RFC 917 Internet subnets | |
RFC 919 Broadcasting Internet Datagrams | |
RFC 922 Broadcasting Internet Datagrams in the Presence of Subnets (IP_BROAD) | |
RFC 951 BOOTP | |
RFC 1027 Proxy ARP | |
RFC 1757 Remote Network Monitoring Management Information Base | |
RFC 1122 Requirements for Internet Hosts - Communications Layers | |
RFC 1215 Convention for defining traps for use with the SNMP | |
RFC 1256 ICMP Router Discovery Messages | |
RFC 1350 TFTP Protocol (revision 2) | |
RFC 1393 Traceroute Using an IP Option | |
RFC 1403 BGP OSPF Interaction | |
RFC 1519 Classless Inter-Domain Routing (CIDR) | |
RFC 1542 BOOTP Extensions | |
RFC 1583 OSPF Version 2 | |
RFC 1591 Domain Name System Structure and Delegation | |
RFC 1657 Definitions of Managed Objects for BGP-4 using SMIv2 | |
RFC 1772 Application of the Border Gateway Protocol in the Internet | |
RFC 1812 Requirements for IP Version 4 Router | |
RFC 1918 Address Allocation for Private Internet | |
RFC 1997 BGP Communities Attribute | |
RFC 1998 An Application of the BGP Community Attribute in Multi-home Routing | |
RFC 2131 Dynamic Host Configuration Protocol (DHCP) | |
RFC 2132 DHCP Options and BOOTP Vendor Extensions | |
RFC 2236 Internet Group Management Protocol, Version 2 (IGMPv2) | |
RFC 2273 SNMPv3 Applications | |
RFC 2328 OSPF Version 2 | |
RFC 2375 IPv6 Multicast Address Assignments | |
RFC 2385 Protection of BGP Sessions via the TCP MD5 Signature Option | |
RFC 2401 Security Architecture for the Internet Protocol | |
RFC 2402 IP Authentication Header | |
RFC 2439 BGP Route Flap Damping | |
RFC 2460 Internet Protocol, Version 6 (IPv6) Specification | |
RFC 2464 Transmission of IPv6 over Ethernet Networks | |
RFC 2545 Use of BGP-4 Multiprotocol Extensions for IPv6 Inter-Domain Routing | |
RFC 2576 (Coexistence between SNMP V1, V2, V3) | |
RFC 2579 Textual Conventions for SMIv2 | |
RFC 2580 Conformance Statements for SMIv2 | |
RFC 2710 Multicast Listener Discovery (MLD) for IPv6 | |
RFC 2711 IPv6 Router Alert Option | |
RFC 2787 Definitions of Managed Objects for the Virtual Router Redundancy Protocol | |
RFC 2918 Route Refresh Capability for BGP-4 | |
RFC 2925 Definitions of Managed Objects for Remote Ping, Traceroute, and Lookup Operations | |
RFC 2934 Protocol Independent Multicast MIB for IPv4 | |
RFC 3101 OSPF Not-so-stubby-area option | |
RFC 3019 MLDv1 MIB | |
RFC 3046 DHCP Relay Agent Information Option | |
RFC 3056 Connection of IPv6 Domains via IPv4 Clouds | |
RFC 3065 Autonomous System Confederation for BGP | |
RFC 3137 OSPF Stub Router Advertisment sFlow | |
RFC 3376 IGMPv3 | |
RFC 3416 (SNMP Protocol Operations v2) | |
RFC 3417 (SNMP Transport Mappings) | |
RFC 3418 Management Information Base (MIB) for the Simple Network Management Protocol (SNMP) | |
RFC 3484 Default Address Selection for IPv6 | |
RFC 3509 Alternative Implementations of OSPF Area Border Routers | |
RFC 3580 IEEE 802.1X Remote Authentication Dial In User Service (RADIUS) Usage Guidelines | |
RFC 3623 Graceful OSPF Restart | |
RFC 3768 Virtual Router Redundancy Protocol (VRRP) | |
RFC 3810 Multicast Listener Discovery Version 2 (MLDv2) for IPv6 | |
RFC 3973 PIM Dense Mode | |
RFC 4022 MIB for TCP | |
RFC 4113 MIB for UDP | |
RFC 4213 Basic Transition Mechanisms for IPv6 Hosts and Routers | |
RFC 4251 The Secure Shell (SSH) Protocol | |
RFC 4252 SSHv6 Authentication | |
RFC 4253 SSHv6 Transport Layer | |
RFC 4254 SSHv6 Connection | |
RFC 4271 A Border Gateway Protocol 4 (BGP-4) | |
RFC 4273 Definitions of Managed Objects for BGP-4 | |
RFC 4291 IP Version 6 Addressing Architecture | |
RFC 4292 IP Forwarding Table MIB | |
RFC 4293 Management Information Base for the Internet Protocol (IP) | |
RFC 4360 BGP Extended Communities Attribute | |
RFC 4419 Key Exchange for SSH | |
RFC 4443 ICMPv6 | |
RFC 4456 BGP Route Reflection: An Alternative to Full Mesh Internal BGP (IBGP) | |
RFC 4486 Subcodes for BGP Cease Notification Message | |
RFC 4541 IGMP & MLD Snooping Switch | |
RFC 4552 Authentication/Confidentiality for OSPFv3 | |
RFC 4601 PIM Sparse Mode | |
RFC 4607 Source-Specific Multicast for IP | |
RFC 4724 Graceful Restart Mechanism for BGP | |
RFC 4750 OSPFv2 MIB partial support no SetMIB | |
RFC 4760 Multiprotocol Extensions for BGP-4 | |
RFC 4861 IPv6 Neighbor Discovery | |
RFC 4862 IPv6 Stateless Address Auto-configuration | |
RFC 4940 IANA Considerations for OSPF | |
RFC 5059 Bootstrap Router (BSR) Mechanism for PIM, PIM WG | |
RFC 5065 Autonomous System Confederation for BGP | |
RFC 5095 Deprecation of Type 0 Routing Headers in IPv6 | |
RFC 5187 OSPFv3 Graceful Restart | |
RFC 5340 OSPFv3 for IPv6 | |
RFC 5424 Syslog Protocol | |
RFC 5492 Capabilities Advertisement with BGP-4 | |
RFC 5519 Multicast Group Membership Discovery MIB (MLDv2 only) | |
RFC 5798 VRRP (exclude Accept Mode and sub-sec timer) | |
RFC 5880 Bidirectional Forwarding Detection | |
RFC 5905 Network Time Protocol Version 4: Protocol and Algorithms Specification | |
RFC 6620 FCFS SAVI | |
RFC 6987 OSPF Stub Router Advertisement | |
RFC6020 YANG - A Data Modeling Language for the Network Configuration Protocol (NETCONF) | |
RFC7348 Virtual eXtensible Local Area Network (VXLAN): A Framework for Overlaying Virtualized Layer 2 Networks over Layer 3 Networks | |
RFC7432 BGP MPLS-Based Ethernet VPN | |
RFC4664 Framework for Layer 2 Virtual Private Networks (L2VPNs) | |
RFC4665 Service Requirements for Layer 2 Provider Provisioned Virtual Private Networks | |
RFC4761 Virtual Private LAN Service (VPLS) Using BGP for Auto-Discovery and Signaling | |
RFC4762 Virtual Private LAN Service (VPLS) Using Label Distribution Protocol (LDP) Signaling | |
RFC5120 M-ISIS: Multi Topology (MT) Routing in Intermediate System to Intermediate Systems (IS-ISs) | |
RFC5280 Internet X.509 Public Key Infrastructure Certificate and Certificate Revocation List (CRL) Profile | |
RFC5308 Routing IPv6 with IS-IS | |
RFC5381 Experience of Implementing NETCONF over SOAP | |
RFC5415 Control and Provisioning of Wireless Access Points (CAPWAP) Protocol Specification | |
ITU | ITU-T Y.1731 |
ITU-T Rec G.8032/Y.1344 Mar. 2010 |
Product ID | Product Description |
LS-5560X-30C-EI-GL | H3C S5560X-30C-EI L3 Ethernet Switch(24GE(8SFP Combo)+4SFP Plus+1Slot),No Power |
LS-5560X-54C-EI-GL | H3C S5560X-54C-EI L3 Ethernet Switch with 48*10/100/1000BASE-T Ports,4*10G/1G BASE-X SFP+ Ports and 1*Slot, No Power |
LS-5560X-30C-PWR-EI-GL | H3C S5560X-30C-PWR-EI L3 Ethernet Switch with 24*10/100/1000BASE-T Ports,4*10G/1G BASE-X SFP+ Ports and 1*Slot, PoE, No Power |
LS-5560X-54C-PWR-EI-GL | H3C S5560X-54C-PWR-EI L3 Ethernet Switch with 48*10/100/1000BASE-T Ports,4*10G/1G BASE-X SFP+ Ports and 1*Slot, PoE, No Power |
LS-5560X-30F-EI-GL | H3C S5560X-30F-EI L3 Ethernet Switch (24SFP(8GE Combo)+4SFP Plus+1Slot),No Power |
LS-5560X-30F-EIF-GL | H3C S5560X-30F-EIF L3 Ethernet Switch (24SFP+4SFP Plus+2QSFP Plus)-(AC/DC) |
LS-5560X-54F-EI-GL | H3C S5560X-54F-EI L3 Ethernet Switch with 48*100/1000 Base-X SFP Ports,4*10G/1G BASE-X SFP+ Ports and 1*Slot, No Power |
LS-5560X-34S-EI-GL | H3C S5560X-34S-EI L3 Ethernet Switch(28GE(4SFP Combo)+4SFP Plus+2QSFP Plus),(AC/DC) |
LS-5560X-54S-EI-GL | H3C S5560X-54S-EI L3 Ethernet Switch with 48*10/100/1000BASE-T Ports,4*10G/1G BASE-X SFP+ Ports and 2*40G QSFP+ Ports, (AC/DC) |
Fan | |
LSPM1FANSA | Ethernet Switch Fan Module (Power to Port Airflow) For S5560 |
LSPM1FANSB | Ethernet Switch Fan Module (Port to Power Airflow) For S5560 |
Power supply | |
PSR150-A1-GL | 150W Asset-manageable AC Power Module |
PSR150-D1-GL | 150W Asset-manageable DC Power Module |
LS5M1560DC | 560W DC Pluggable Power Module |
PSR360-56A-GL | 360W PoE AC Power Supply Module |
PSR720-56A-GL | 720W PoE AC Power Supply Module |
PSR1110-56A-GL | 1110W PoE AC Power Supply Module |
Modules | |
LSWM2QP2P | 2-Port 40G QSFP Plus Interface Card |
LSWM2SP2PB | 2-Port 10G SFP Plus Ethernet Optical Interface Module |
LSWM2SP2PM | 2-Port 10G SFP Plus Interface Card with MACSec |
LSWM4SP8PM | 8-Port 10G SFP Plus with MACSec Interface Module |
LSPM4G4T6P | 4-Port 10/100/1000BASE-T Ethernet,6-Port SFP(2-Port Combo) Interface Module |
LSWM2MGT8P | 8-Port 1/2.5/5G BASE-T Ethernet Copper Interface Module |
LSWM2XMGT8P | 8-Port 1/2.5/5/10G BASE-T Ethernet Copper Interface Module |
LSWM2ZSP2P | 2-Port 25G SFP28 Ethernet Optical Interface Module |
LSWM2SP4PB | 4-Port 10G SFP Plus Ethernet Optical Interface Module |
Wireless license | |
LIS-WX-128-BE | Enhanced Access Controller License,128 APs |
LIS-WX-64-BE | Enhanced Access Controller License,64 APs |
LIS-WX-32-BE | Enhanced Access Controller License,32 APs |
LIS-WX-16-BE | Enhanced Access Controller License,16 APs |
LIS-WX-8-BE | Enhanced Access Controller License,8 APs |
LIS-WX-4-BE | Enhanced Access Controller License,4 APs |
LIS-WX-1-BE | Enhanced Access Controller License,1 AP |
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 |