H3C S5560S-28F-EI Series Advanced Gigabit Ethernet Switches

H3C S5560S-28F-EI Series Advanced Gigabit Ethernet Switches

H3C’s S6520X-SI Series switches offer industry-leading performance and scalability among 10GE access switches, with support for dual replaceable power supplies, fixed or modular backbone interfaces (10GbE/ 40GbE) and IRF technologies for fault tolerance. Devices in this series support OSPF/BGP protocols and multicast, SDN technology and flexible management capabilities.

The S6520X-SI series includes the following models:

H3C S6520X-10XT-SI – 8 1G/2.5G/5G/10GBase-T ports, 2 SFP+ 1G/10GBase-X ports

H3C S6520X-16XT-SI – 14 1G/2.5G/5G/10GBase-T ports, 2 SFP+ 1G/10GBase-X ports

H3C S6520X-16ST-SI – 16 SFP+ 1/10G ports (2 combined multi-gigabit ports 1G/2.5G/5G/10G Base-T), 2 slots for power supplies

H3C S6520X-18C-SI – 16 SFP+ 1/10G ports, 1 expansion slot, 2 power supply slots

H3C S6520X-24ST-SI – 24 SFP+ 1/10G ports, (2 combined multi-gigabit ports 1G/2.5G/5G/10G Base-T), 2 slots for power supplies

H3C S6520X-26C-SI – 24 SFP+ 1/10G ports, 1 expansion slot, 2 power supply slots

H3C S6520X-26MC-SI – 24 ports 1G/2.5G/5GBase-T, 1 expansion slot, 2 slots for power supplies

H3C S6520X-26MC-UPWR-SI – 24 ports 100M/1G/2.5G/5GBase-T(UPOE), 1 expansion slot, 2 slots for power supplies

H3C S6520X-26XC-UPWR-SI – 24 ports 100M/1G/2.5G/5G/10GBase-T UPoE, 1 expansion slot, 2 slots for power supplies

H3C S6520X-54XC-UPWR-SI – 48 100M/1G/2.5G/5G/10GBase-T UPoE ports, 4 QSFP+ ports, 1 expansion slot, 2 power supply slots

High Density 10GE and Multi-Gigabit Ports

The switch has a high density of 10GE ports for forwarding traffic and allows the flexibility to increase the number of 10GE ports operating at media speeds transfers. It is equipped with 16/24 SFP+ 10/1GE auto-sensing ports, one expansion slot supporting up to 9 different interface modules with GE, 10GE, 25GE, 40GE and multi-gigabit ports. The S6520X-26MC-UPWR-SI model is equipped with 24 1G/2.5G/5GBase-T ports supporting UPOE technology, allowing up to 90 W of twisted pair power to be supplied through these ports.

Intelligent technology H3C IRF2 Intelligent Resilient Architecture

H3C IRF2 Intelligent Resilient Architecture technology allows you to virtualize multiple S6520X-SI switches into a single virtual switch, providing the following benefits:

Scalability – IRF 2 technology allows you to easily add additional devices to the IRF 2 system. It provides a single control center, allowing switches to be easily plugged in and turned on, and supports automatic software updates to synchronize software on the host device with newly connected devices in the system. This technology offers added flexibility and reduced total cost of ownership by allowing new switches to be added to the fabric without changing the network topology as the organization grows.

High availability – proprietary hot standby technology of H3C routers ensures backup and copying of all information in the control plane and data plane, as well as uninterrupted Layer 3 data transfer using IRF 2 switch fabric. Additionally, it eliminates critical nodes whose failure could lead to system failure and ensures uninterrupted service delivery.

Reservation and balancing load – Distributed link aggregation technology supports load sharing and mutual redundancy for multiple backbone links, which increases the level of redundancy in the network and promotes more efficient use of link resources.

n

Flexibility and fault tolerance – The IRF links between devices in the IRF system use standard GE ports instead of dedicated ports, allowing customers to allocate link capacity between upstream interfaces, downstream interfaces, and connections in the IRF system according to their needs.In addition, the S6520X IRF fabric -EI can span a single rack, multiple racks, or even multiple campuses.

Wide range of advanced features

On switches a wide range of functions and capabilities are implemented, including the following:

Modular architecture hardware and software supply – the switches use a modular hardware architecture with the ability to hot-swappable and redundant various modules, including power supplies and fan modules. The switch software is also built on a modular basis, which allows you to install and remove individual modules as needed. Calibrated physical architecture and optimized software processes significantly reduce overall packet processing latency.

Softwaredefined networks< strong>(SDN)is an innovative network architecture that separates the network control plane from the data forwarding plane, typically through Openflow. SDN greatly simplifies network management without the complexity and overhead of maintenance, provides flexible traffic management, and offers an excellent platform for network applications and innovative solutions.

Technology virtual extensible < strong>local networks (VXLAN) – technology for encapsulating MAC addresses in UDP frames that provide Layer 2 connectivity between remote sites using an IP network. Using VXLAN, it is possible to work with virtual machines over long distances and data mobility; This technology is typically used in data centers and at the access layer of campus networks serving multiple companies (tenants). H3C’s VXLAN implementation supports automatic VXLAN tunnel creation using EVPN.

Virtual private networks Ethernet (EVPN) – virtual LAN technology layer 2 networks, providing connectivity between remote entities over an IP network at both layer 2 and layer 3. EVPN uses MP-BGP in the control plane and VXLAN in the data plane.

EVPN provides the following advantages: Automated configuration; Separation of the control plane from the data plane; Integrated Routing and Bridging (IRB).

Update software software without interruption work (ISSU)and functions operations,< strong>administration and maintenance (OAM) withoutinterruption work /b> – ensure uninterrupted operation and optimization of Ethernet management and maintenance mechanisms.

Comprehensive security policies

Switches Authentication, Authorization, and Accounting (AAA) features are supported, including RADIUS authentication, as well as dynamic and static binding of user identities such as user account, IP address, MAC address, VLAN, and port number.

n

When using a switch with the H3C IMC management system, you can manage and monitor active users in real time and take immediate action if violations are detected.

User profiles allow you to set a set of policies depending on the groups to which the user belongs, in various application scenarios.

Switches offer the ability to assign a large number of ACLs for incoming and outgoing traffic, as well as VLAN-based ACLs. This simplifies configuration and saves ACL resources.

MACsec

MACsec is an ideal link-layer protocol for security on each individual hop for Ethernet networks, which are typically not secure. It provides the following features:

Data Encryption – Encrypting data over the Ethernet link provides protection against security threats such as eavesdropping.

Replay protection – prevents packets from being intercepted and subsequently modified during transmission to protect the network from unauthorized access.

Tampering protection – prevents packet modification to ensure data integrity.

MACsec supports the following deployment options:

Client-centric – protects the data link between the client and its access device.

Device-centric – protects the data link between two adjacent devices.

The switch can interface with the H3C iNode client and core switches such as the S10500 and S7500E to implement a comprehensive MACsec solution.

High Availability

In addition to host- and link-level security, the switches provide the following high-availability hardware features:

Redundancy of power supplies according to the 1+1 scheme and redundancy of fan modules according to the 1+1 scheme.

Hot-swappable interface modules.

Automatic monitoring of the status of power supplies and fan modules, as well as alarm generation mechanisms.

n

Automatic adjustment of fan speed depending on temperature changes.

Self-defense mechanisms that are triggered when detected overcurrents, overvoltages or excess temperatures.

Extensive management capabilities

The switches offer a variety of management functions, making them very easy to manage. The switches offer the following device management features:

Multiple management interfaces, including a console port, an Ethernet port for out-of-band management, and a USB port.

< p style="font-weight: 400;">Supports configuration and management via command line interface (CLI) or web interfaces of general purpose systems such as the H3C IMC Intelligent Management Center.

Supports various access methods, including SNMPv1/v2c/v3, Telnet and the more secure SSH 2.0 and SSL.

Using functions OAM for enhanced system management capabilities.

FTP support for system updates.

Smart Management Center (SmartMC)< /h2>

SmartMC is H3C’s latest, innovative solution that helps small and medium-sized businesses manage their network management challenges using a free, easy-to-use web-based tool -interface. SmartMC is an on-switch management tool available in management switches and other access network switches.

SmartMC has the following advantages:

Smart Operation: Once the switch is powered on and the SmartMC function is activated, the topology is automatically built and displayed to the user in a rich web GUI to check the current status.

< p style="font-weight: 400;">Centralized management: All management operations can be performed through the management switch, including centralized configuration backup and software versioning for increased efficiency.

One-click device replacement: If one of the switches fails, a new replacement switch of the same type can be automatically loaded with the same configuration so that it immediately starts working like the previous one.

DRNI Architecture

H3C S6520X-SI series switches support DRNI (Distributed Resilient Network Interconnect) connection aggregation technology across various devices, realizing the connection between devices by virtually combining two physical devices into one,

Brand

H3C

Additional information

Weight 7 kg
Switching capacity of ports

128 Gbps

Device switching capacity

598 Gbps

Packet forwarding speed

96 million packets/s

Flash/SDRAM

512 MB/512 MB

Ethernet management ports

1

Console port

1 micro-USB console port, 1 RJ-45 console port, only the micro-USB console port will be available., When connected to both ports

Working ports

24 Ethernet 100/1000BASE-X SFP ports (including 8 combo interfaces), 4 SFP+ 10G ports

Stacking Interface Bandwidth

80 Gbps

Rated input voltage

AC power supply current: 100 .. 240 V AC current, 50/60 Hz, DC power supply. current: –36 .. –72 V DC current

Minimum power consumption

One AC power supply. DC at 150 W: 18 W, One AC power supply. DC at 75 W: 15 W, One DC power supply. current at 150 W: 18 W, Two AC power supplies current at 150 W: 23 W, Two AC power supplies. DC at 75 W: 17 W, Two DC power supplies. DC at 150 W: 22 W

Maximum power consumption

One AC power supply. DC at 150 W: 48 W, One AC power supply. DC at 75 W: 47 W, One DC power supply. current at 150 W: 51 W, Two AC power supplies current at 150 W: 55 W, Two AC power supplies. DC at 75 W: 49 W, Two DC power supplies. DC at 150 W: 57 W

Working temperature

0°C .. 45°C (32°F .. 113°F)

Storage temperature

-40°C .. 70°C (-40°F .. 158°F)

SDN/OpenFlow

Counters, Group tables, Multiple controllers (peer/master/slave controller role), OpenFlow 1.3, Simultaneous processing of multiple tables for flows

Port Specifications

802.3x Flow Control (Duplex) mode), Bit Rate Suppression (BPS), Broadcast/Multicast/Unknown Unicast Suppression, PPS Based Storm Suppression, Storm Suppression Based on Percentage of Port Capacity

Jumbo frame support

10000 bytes

MAC Address Table

64k Entry MAC Address Table, Blackhole MAC Addresses, MAC Address Memorization Limit

VLANs

IP-based VLANs, MAC-based VLANs, MVRP, Port-Based VLANs (up to 4094 VLANs), Protocol-based VLANs, QinQ and flexible QinQ, VLAN Mapping, Voice VLAN

DHCP

DHCP Client, DHCP relay, DHCP Server, DHCP Snooping and Filtering, Supports option82 field for DHCP Snooping/Relay

IRF2

Distributed device management, distributed link aggregation and distributed fault-tolerant routing, IRF2, Local device stacking and remote device stacking, Stacking over standard Ethernet interfaces, Supports stacking of up to 9 devices

IP routing

12k routing table entries IPV4, BGP and BGP4+ for IPv6, IS-IS, OSPFv1/v2/v3, RIPv1/v2 and RIPng, Static Routing, VRRP/VRRPv3

IPv6

ICMP v6, Telnet v6, SFTP v6, SNMP v6, BFD v6, VRRP v3, IPv6 over IPv4 Tunneling, ISATAP Tunnels, Manual Tunnels, Neighbor Discovery (ND), PMTU

Multicast

IGMP v1/v2/v3 and MLD v1/v2, IGMP v1/v2/v3 snooping and snooping MLD v1/v2, MBGP and MBGP for IPv6, MLD Proxy, MSDP and MSDP for IPv6, Multicast VLAN, PIM Tracking, PIM-DM, PIM-SM and PIM-SSM

Mirror duplication

Local and remote port mirroring, N:4 port mirroring, Stream Mirroring

OAM

802.1ag, 802.3ah

Safety

802.1X and centralized MAC authentication, AS/NZS 60950-1, Authentication HWTACACS, Bridged data block protection BPDU protocol and root node protection, CAN/CSA-C22.2 No.60950-1, DHCP traffic snooping and filtering, Dynamic ARP Discovery, EAD, EN 60950-1, FDA 21 CFR Subpart J, GB 4943.1, Guest VLAN, Hierarchical User Management and Password Protection, IEC 60950-1, IP/Port/MAC Binding, Plaintext and MD5 Authentication for OSPF and RIPv2 Packets, Port Isolation, Port Security, Portal authentication, Public Key Infrastructure (PKI), RADIUS Authentication, Source IP Spoofing Protection, SSH 2.0, UL 60950-1, Unicast reverse forwarding (uRPF) )

Management and maintenance

Alarms for Power Supply, Fans and Over Temperature, Configuration via Command Line Interface ( CLI), Telnet and Console Port, Device Link Discovery Protocol (DLDP), LLDP, LLDP-MED, Loopback Discovery, Network Management System IMC, NTP, Ping and Tracert, Remote monitoring (RMON) of alarms, events and historical records, SNMPv1/v2/v3, Software Download and Update via XMODEM/FTP/TFTP, System Log, Alarms by Severity and Debug Output information, Virtual Cable Tester (VCT), Web-based Network Management Interface

Energy saving

802.3az EEE, Automatic port power off, Scheduled port power off (scheduled task)

Electromagnetic compatibility

CISPR 24, CLASS A per EN 55032, CLASS A per FCC Part 15 subpart B, CLASS A per ICES-003, CLASS A per VCCI, CLASS A to AS/NZS CISPR32, CLASS A to CISPR 32, EN 55024, EN 61000-3-2, EN 61000-3-3, ETSI EN 300 386, GB/T 9254, YD/T 993

The page is under development

This section is under development.

We apologize for the temporary inconvenience

Let call
Please enable JavaScript in your browser to complete this form.