A type | Switch |
Ports | 4 x SFP |
1 Console Port (RJ45) /(RS-232) | |
24 x 10/100/1000 Base-T | |
Switch Type | - |
Number of ports | 28 (24x10/100/1000BASE-T PoE+ (AC 240W); 4x1000BASE-X SFP) |
Cooling | fan |
A type | Switch |
Ports | 4 x SFP |
1 Console Port (RJ45) /(RS-232) | |
24 x 10/100/1000 Base-T | |
Switch Type | - |
Number of ports | 28 (24x10/100/1000BASE-T PoE+ (AC 240W); 4x1000BASE-X SFP) |
Cooling | fan |
Fan Quantity | 1 pcs |
Switching matrix | 56 Gbit/sec |
MAC Address Table | 8 k |
Jumbo frames | 10000 Kb |
Packet transmission rate | 41.7 Mpps |
FLASH-memory | 256 MB |
Max. Power Consumption | 294 W |
RAM memory | 512 MB |
Stacking | up to 9 devices |
Support PoE | (15.4W (802.3af): 15; 30W (802.3at): 8) |
PoE power budget | 240 W |
Control | VCT System Diagnostics |
IPv4/v6 | |
SNMP Traps | |
Ping | |
System log | |
IMC - Intelligent Management Center | |
NTP | |
SNMP: v1, v2, v3 | |
telnet | |
Loopback Detection | |
Rate Limiting | |
Functions | Port Mirroring |
Static link aggregation | |
MLD Snooping | |
Routing statistics | |
Loopback Detection function | |
ERPS | |
RSPAN | |
QoS | |
DHCP | |
Supports access control lists (ACLs) | |
IPv4 routing | |
PIM Snooping | |
DHCP support | |
RSTP | |
STP | |
MSTP | |
IPv6 routing | |
IGMP Snooping V2/V3 | |
Security | 802.1X authentication using a RADIUS server |
SSH /2.0 | |
Port isolation (secure ports) | |
HTTPS | |
802.1X authentication | |
HWTACACS | |
hierarchical user management | |
authentication, authorization and accounting (AAA) support | |
VLAN | Port-based VLANs |
802.1Q | |
VLAN based on MAC address | |
Max. VID: 4094 | |
GVRP | |
RSPAN | |
Voice VLAN | |
Protocol based VLAN | |
QinQ |
Additional Features | Dying Gasp |
Auto-MDI/MDIX polarity detection | |
EEE802.3x flow control | |
Link Fault | |
Critical Event |
Operating humidity | up to 95% (no condensate) |
Operating temperature | from -5 to 50 °C |
Storage temperature | from -40 to 70 °C |
Dimensions, mm | 44x440x260 |
The weight | 4 g |
Warranty | 12 months |
H3C S5120V3-LI switch series supports IRF2 technology that allows multiple physical devices it connects to be virtualized into one logical device. In this way, users can manage and use these multiple devices as a single device. IRF can bring the following benefits to users:
Simplified management: Once an IRF is built, users can log into the unified logical device by connecting to any port of any member. By configuring a single device, users can manage the whole intelligent resilient system and all member devices in the system, without physically connecting to each member device for configuration and management.
Simplified services: Various control protocols running on the logical device formed by IRF are running as if they are on one device. For example, routing protocols perform the unified calculation as one device. With the application of cross-device link aggregation technology, the original spanning tree protocol will be replaced. This avoids a great number of protocol packet exchanges among the members, simplifies network operation, and shortens the convergence time during network flapping.
Elastic extension: Elastic extension can be achieved according to user needs to ensure user investment. And the new device can achieve a "hot swap" when adding or leaving IRF, without affecting the normal operation of other devices.
High performance: For high-end switches, performance and port density will be limited by the hardware structure. But for an IRF system, its performance and port density are the sum of the performance and port numbers of all devices within the system. 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.
Easy management: The entire resilient framework shares one IP. This simplifies network device and topology management, improves operating efficiency, and reduces maintenance costs.
ARP attacks and ARP viruses are major threats to LAN security, so the H3C S5120V3-LI switch series comes with diverse ARP protection functions such as ARP Detection to challenge the legitimacy of clients, validate the ARP packets, and set a speed limit for ARP to prevent ARP swarm attacks from targeting CPU.
H3C S5120V3-LI switch series supports EAD (End User Admission Domination) function. With the background system, EAD integrates terminal security policies, such as anti-virus and patching, into network access control and access right control policies to form a cooperative security system. By checking, isolating, fixing, managing, and monitoring access terminals, EAD changes passive, single point network protection to active, comprehensive network protection, and changes separate management to centralized management, enhancing the network capability for preventing viruses, worms, and new threats.
It supports multiple authentication methods such as 802.1X authentication and centralized MAC authentication, and flexibly adapts to the multiple authentication requirements of the network environment.
H3C S5120V3-LI switch series supports packet filtering at Layer 2 through Layer 4 and traffic classification. It provides a flexible queue-scheduling algorithm and allows settings to be configured based on ports and queues at the same time. SP, WRR, and SP+WRR modes are supported. It also supports ACL in the inbound and outbound direction, traffic policing, and port and traffic mirroring in the outbound and inbound direction, to monitor packets on specified ports for network detection and troubleshooting.
H3C S5120V3-LI switch series supports Simple Network Management Protocol (SNMP) v1/v2/v3, which can be managed by iMC. This series supports CLI command line, Web-based network management, and Telnet for easier device management, as well as encryption methods like SSH2.0 for more secure management.
H3C S5120V3-LI switch series supports VLAN classification based on MAC address, which is a good solution for intelligent and flexible management of mobile office; combined with ACL policies in the global or VLAN mode, it simplifies configuration and minimizes hardware resources.