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RG-S6120-48XMG4VS2QXS-UP-H Next-generation Multi-GE Switches

Diverse access rates: 10 Gbps/5 Gbps/2.5 Gbps/1 Gbps/100 Mbps
Multiple power modes: PoE/PoE+/PoE++
4 x 25GE SFP28 ports and 2 x 40GE QSFP+ ports for uplink, enabling flexible networking and high-performance campus networks

Models

Seri

Fitur Penting

  • 48 x 10GE/5GE/2.5GE/GE/100M Base-T Ethernet ports for access, 4 x 25GE SFP28 ports and 2 x 40GE QSFP+ ports for uplink, meeting high-bandwidth campus network demands
  • Hardware-level multi-protection, ensuring service continuity
  • VSU, realizing flexible networking and high performance
  • Network security policies and real-time monitoring, enhancing network robustness
  • Intelligent speed regulation and auto sleeping, reducing energy consumption and noise
  • Diverse network management modes, enabling simple maintenance

Multi-GE Access

In recent years, Ethernet interface standards have rapidly evolved from 10BASE-T and 100BASE-T to 1000BASE-T (IEEE 802.3ab), leading to widespread adoption across devices such as PCs and APs. However, as the Wi-Fi 6 technology has been introduced, APs can now deliver uplink rates of 10 Gbps, which poses a growing challenge for GE network devices. The RG-S6100 addresses this issue by offering 100M/1000M/2.5G/5G Base-T and 100M/1000M/2.5G/5G/10G Base-T Ethernet ports in auto-negotiation mode, providing better adaptability to Wi-Fi 6 APs.

High-Power PoE Power Supply

Previously, PoE remote power supply scenarios only have access to PoE (IEEE 802.3af) and PoE+ (IEEE 802.3at) standards. However, if the power exceeds 30 W, users are unable to use PoE for power supply, opting instead for mains-powered cables or even high-voltage power deployment. This presents significant challenges related to deployment costs and timelines, maintenance, and security. By adhering to the IEEE802.3bt standard, the RG-S6100 offers high-power PoE power supply capabilities and achieves a maximum PoE output of 90 W through a single Ethernet port, providing a significantly improved user experience.

IPv4/IPv6 Dual-Stack Multi-Layer Switching

The RG-S6100 hardware supports both IPv4 and IPv6 dual stacks, as well as multi-layer line-rate switching in order to differentiate and process packets of each protocol effectively. With flexible IPv6 network communication solutions, the RG-S6100 can meet various IPv6 network demands such as planning or maintenance. The RG-S6100 supports a wide range of IPv4 routing protocols, covering IPv4 static routing, RIP, OSPFv2, IS-ISv4, and BGP4. Fitting for different network environments, one can select appropriate routing protocols for flexible network building. Additionally, the RG-S6100 also supports abundant IPv6 routing protocols such as IPv6 static routing, RIPng, OSPFv3, IS-ISv6, and BGP4+. These protocols can be flexibly selected to either upgrade an existing network to IPv6 or establish a new one.

VSU

The RG-S6100 supports Virtual Switching Unit (VSU). VSU enables multiple physical devices to be connected through aggregate links and virtualized into one logical device. By using the same IP address, Telnet process, and CLI for management, along with automatic version check and configuration, network administrators can manage just one logical device, thereby enhancing work efficiency.

Simplified management: The network administrator can manage multiple switches uniformly because there is no need to connect separately to each switch for configuring and managing them.

Simplified network topology: A VSU serves as a switch within a network and eliminates Layer 2 loops and MSTP configurations by connecting peripheral devices through aggregate links. Various control protocols can run on the VSU.

Fault rectification within milliseconds: A VSU connects to peripheral devices through aggregate links. If a fault occurs on one device or member link in the VSU, data and services can be switched to another member link within 30 ms.

High scalability: Devices can be added to or removed from a virtualized network, without affecting normal operation of other devices.

Sound Security Protection Policies

The RG-S6100 can effectively defend against virus spread and hacker attacks through multiple inherent mechanisms, such as DoS attack defense, IP scanning attack defense, validity check of ARP packets, and multiple hardware-based ACLs.

The hardware-based IPv6 ACL can easily control the access of IPv6 users at the network edge even if there are IPv6 users on an IPv4 network. The RG-S6100 allows IPv4 and IPv6 users to coexist and can control access permissions of IPv6 users, for example, restricting access to sensitive resources on the network.

The RG-S6100 provides a unique hardware CPU protection mechanism: CPU Protection Policy (CPP). CPP enables the RG-S6100 to classify data traffic sent to the CPU, process the traffic by queue priority, and apply the rate limit to traffic as required. CPP fully protects the CPU from being occupied by unauthorized traffic, malicious attacks, and resource consumption, which ensures the security of the CPU and the switch.

The RG-S6100 and its ports can be flexibly bound to a user’s IP address and MAC address, which strictly restricts the access of users connected to the ports or the switch.

DHCP snooping enables the RG-S6100 to receive DHCP Response messages only from trusted ports, preventing spoofing from unauthorized DHCP servers. With DHCP snooping, the RG-S6100 dynamically monitors ARP packets, checks users’ IP addresses, and discards unauthorized packets that do not match binding entries. This effectively prevents ARP spoofing and source IP address spoofing.

The RG-S6100 also supports access control through source IP address-based Telnet, which can prevent unauthorized users and hackers from maliciously attacking and controlling the switch, and enhance the network management security of the switch.

Through the Secure Shell (SSH) and Simple Network Management Protocol version 3 (SNMPv3), the RG-S6100 can encrypt management information in Telnet and SNMP processes. This ensures information security of management devices and prevents hackers from attacking and controlling the devices.

The RG-S6100 rejects unauthorized network access and enables authorized network access by employing multi-element binding, port security, time-based ACL, and data stream-based rate limiting. It can strictly control user access to enterprise networks and campus networks and restrict the communication of unauthorized users.

The RG-S6100 supports the Network Foundation Protection Policy (NFPP) to enhance its security. By isolating attack sources, NFPP can protect the processor and channel bandwidth resources of the switch. This ensures normal packet forwarding and protocol status.

High Reliability

The RG-S6100 supports built-in redundant power modules and fan modules. The power and fan modules are hot swappable without affecting the normal operation of the switch. The switch also provides fault detection and alarms for power and fan modules. The fan speed can be automatically adjusted based on temperature changes to better adapt to various environments. The RG-S6100 adopts the front-to-rear airflow to enhance the cooling efficiency. By using overcurrent, overvoltage, and overheating protection technologies, the RG-S6100 achieves device-level and link-level reliability protection.

The RG-S6100 supports STP (IEEE 802.1D), RSTP (IEEE 802.1w), and MSTP (IEEE 802.1s) to achieve fast convergence, improve the fault tolerance capability, and ensure stable network operation and link load balancing. The RG-S6100 effectively utilizes network channels to improve the usage of aggregate links.

The Virtual Router Redundancy Protocol (VRRP) ensures network stability for the switch.

With the Rapid Link Detection Protocol (RLDP), the RG-S6100 can quickly detect link connectivity and unidirectional optical links. Through port loop detection, the switch can prevent network failures caused by the loops that occur in the scenario where an unauthorized port is connected to hubs.

When STP is disabled, the Rapid Ethernet Uplink Protection Protocol (REUP) can still provide basic link redundancy and millisecond-level fault rectification faster than STP.

The RG-S6100 supports Bidirectional Forwarding Detection (BFD) for upper-level protocols (such as routing protocols), rapidly detecting connectivity of the forwarding path between two routing devices. BFD greatly shortens the convergence time for upper-level protocols upon link status changes.

Powerful Multi-Service Capability

The RG-S6100 supports IPv4 and IPv6 multicast functions as well as multiple multicast protocols, including IGMP snooping, IGMP, Multicast Listener Discovery (MLD), Protocol Independent Multicast (PIM), PIM for IPv6, and Multicast Source Discovery Protocol (MSDP). It provides multicast service support for IPv4 networks, IPv6 networks, and IPv4 and IPv6 networks.

IGMP source port check and source IP address check supported by the RG-S6100 can effectively eliminate unauthorized multicast sources and enhance network security.

Sound QoS Policies

The RG-S6100 can classify and control various flows, such as MAC flows, IP flows, and application flows, to implement different policies such as fine-grained bandwidth control and forwarding priority. In this way, it provides differentiated services based on applications and characteristics of service quality required by the applications.

It provides QoS guarantee based on the DiffServ model, and can filter traffic based on 802.1p priorities and IP ToS values, and from Layer 2 to Layer 7. It supports SP, WRR, and other QoS policies.

Energy Saving

The RG-S6100 adopts the next-generation hardware architecture, and advanced energy-efficient circuit design and components, to efficiently reduce energy consumption and noise. It is equipped with variable-speed axial fan modules to intelligently control the fan speed based on the ambient temperature. This reduces power consumption and noise while ensuring stable operation of the switch.

In the networking where PoE power supply is adopted, the RG-S6100 provides automatic and energy-saving modes.

Easy Network Maintenance

The RG-S6100 supports routine network diagnosis and maintenance based on SNMP, RMON, Syslog, and USB-based backup log and configuration. A network administrator can use various management and maintenance modes such as command line interface (CLI), web network management, and Telnet to facilitate device management.

A PoE button is available on the panel of the switch. You can press this button to check the communication status and PoE status of all ports on the switch.

Dokumen

Specifications

Hardware Specifications

Hardware Specifications

RG-S6110-24MG4VS-UP

RG-S6110-48MG4VS2QXS-UP

 RG-S6120-24XMG4XS4VS-UP-H

RG-S6120-48XMG4VS2QXS-UP-H

Interface Specifications

Fixed port

24 x 100M/1000M/2.5GE/5GE electrical ports with auto-negotiation

4 x 10GE/25GE SFP28 ports

Ports 1 to 24 support PoE/PoE+ and HPoE power supply (maximum output power of a HPoE-capable port: 90 W)

48 x 100M/1000M/2.5GE/5GE electrical ports with auto-negotiation

4 x 10GE/25GE SFP28 + 2 x 40GE QSFP+ ports

Ports 1 to 48 support PoE/PoE+ power supply (ports 1 to 24 support HPoE power supply, maximum output power of a HPoE-capable port: 90 W)

 

24 x 100M/1000M/2.5GE/5GE/10GE electrical ports with auto-negotiation

4 x 10GE SFP+ ports 4 x 25GE SFP28 ports 

Ports 1 to 24 support PoE/PoE+ and HPoE power supply (maximum output power of a HPoE-capable port: 90 W)

48 x 100M/1000M/2.5GE/5GE/10GE electrical ports with auto-negotiation

4 x 10GE/25GE SFP28 + 2 x 40GE QSFP+ ports

Ports 1 to 48 support PoE/PoE+ power supply (ports 1 to 24 support HPoE power supply, maximum output power of a HPoE-capable port: 90 W)

Fan module

2 x fixed fan modules

Fan speed regulating and fault alarms

3 x fan module slots

Fan speed regulating and fault alarms

 

3 x fan module slots

Fan speed regulating and fault alarms

3 x fan module slots

Fan speed regulating and fault alarms

Power module

1 x built-in power module

2 x power module slots

 

2 x power module slots

2 x power module slots

Fixed management port

1 x MGMT port, 1 x console port, and 1 x USB2.0 port

System Specifications

Packet forwarding rate

327 Mpps

625 Mpps

 

565 Mpps

982 Mpps

System switching capacity

440 Gbps

840 Gbps

 

760 Gbps

1320 Gbps

Number of MAC addresses

Number of global MAC addresses: 32,768

Number of static MAC addresses: 1,000

Number of global MAC addresses: 32,768

Number of static MAC addresses: 1,000

Number of global MAC addresses: 32,768

Number of static MAC addresses: 1,000

Number of global MAC addresses: 32,768

Number of static MAC addresses: 1,000

ARP table size

16,000

16,000

 

16,000

16,000

ND table size

4,000

4,000

 

4,000

4,000

Number of IPv4 unicast routes

16,000

16,000

 

16,000

16,000

Number of IPv4 multicast routes

4,000

4,000

 

4,000

4,000

Number of IPv6 unicast routes

16,000

16,000

 

16,000

16,000

Number of IPv6 multicast routes

2,000

2,000

 

2,000

2,000

Number of IGMP groups

4,000

Number of MLD groups

1,000

Number of ACEs

Ingress: 2,500

Egress: 1,000

Number of VSU members

2

2

 

2

2

Dimensions and Weight

Dimensions (W x D x H)

442 mm x 220 mm x 43.6 mm (17.40 in. x 8.66 in. x 1.72 in.)

442 mm x 420 mm x 43.6 mm (17.40 in. x 16.54 in. x 1.72 in.)

 

442 mm x 420 mm x 43.6 mm (17.40 in. x 16.54 in. x 1.72 in.)

442 mm x 420 mm x 43.6 mm (17.40 in. x 16.54 in. x 1.72 in.)

Weight (chassis and fan modules)

3.65 kg (8.05 lbs)

6.11 kg (13.47 lbs)

 

6.11 kg (13.47 lbs)

6.11 kg (13.47 lbs)

CPU and Storage

CPU

1.2 GHz single-core processor

1.2 GHz single-core processor

 

1.2 GHz single-core processor

1.2 GHz single-core processor

Storage

1 GB DDR4

1 GB flash memory

2 GB DDR4

1 GB flash memory

 

1 GB DDR4

1 GB flash memory

2 GB DDR4

1 GB flash memory

Data packet buffer

4 MB

4 MB

 

4 MB

4 MB

Power and Consumption

Maximum power consumption

Without PoE: < 120 W

Full PoE load: < 370 W

Without PoE: < 240 W

Full PoE load: < 1,600 W

 

Without PoE: < 120 W

Full PoE load: < 1,650 W

Without PoE: < 240 W

Full PoE load: < 1,600 W

Maximum output power

Built-in power: 460 W (370 W for PoE output power supply and 90 W for the chassis)

RG-PA600I-P-F: 600 W (400 W/450 W for PoE output power supply and 150 W/200 W for the chassis)

RG-PA1000I-P-F: 1,000 W (800 W/850 W for PoE output power supply and 150 W/200 W for the chassis)

 

RG-PA600I-P-F: 600 W (400 W/450 W for PoE output power supply and 150 W/200 W for the chassis)

RG-PA1000I-P-F: 1,000 W (800 W/850 W for PoE output power supply and 150 W/200 W for the chassis)

RG-PA600I-P-F: 600 W (400 W/450 W for PoE output power supply and 150 W/200 W for the chassis)

RG-PA1000I-P-F: 1,000 W (800 W/850 W for PoE output power supply and 150 W/200 W for the chassis)

Rated input voltage

AC input: 100 V AC to 240 V AC

Frequency: 50/60 Hz

Rated current per circuit: 6 A

RG-PA600I-P-F:

● AC input: 100 V AC to 240 V AC

● Frequency: 50/60 Hz

● Rated current per circuit: 8 A

RG-PA1000I-P-F:

● AC input: 100 V AC to 240 V AC

● Frequency: 50/60 Hz

● Rated current per circuit: 8 A

 

Maximum input voltage

90 V AC to 264 V AC

Environment and Reliability

MTBF

22.18 years

27.02 years

 

22.18 years

27.02 years

Primary airflow

Front/Left-to-rear airflow

Front/Left-to-rear airflow

 

Front/Left-to-rear airflow

Front/Left-to-rear airflow

Operating temperature

0°C to 45°C (32°F to 113°F)

Storage temperature

–40°C to +70°C (–40°F to +158°F)

Operating humidity

10% to 90% RH (non-condensing)

Storage humidity

5% to 90% RH (non-condensing)

Operating altitude

–500 m to +3000 m (–1640.42 ft. to +9842.52 ft.)

–500 m to +3000 m (–1640.42 ft. to +9842.52 ft.)

 

–500 m to +3000 m (–1640.42 ft. to +9842.52 ft.)

–500 m to +3000 m (–1640.42 ft. to +9842.52 ft.)

Operating noise

Typical value: < 40 dBA@27°C (80.6°F)

Maximum value < 78 dBA

Typical value: < 60 dBA@27°C (80.6°F)

Maximum value < 78 dBA

 

Typical value: < 60 dBA@27°C (80.6°F)

Maximum value < 78 dBA

Typical value: < 60 dBA@27°C (80.6°F)

Maximum value < 78 dBA

Interface surge protection

6 kV

Software Specifications

RG-S6100 Series

Feature

Description

Ethernet switching

Jumbo frame (maximum length: 9,216 bytes)

IEEE 802.1Q (supporting 4K VLANs)

Maximum number of VLANs that can be created: 4,094

Voice VLAN

Super-VLAN and private VLAN

MAC address-based, port-based, protocol-based, and IP subnet-based VLAN assignment

GVRP

Basic QinQ and selective QinQ

STP (IEEE 802.1.d), RSTP (IEEE 802.1w), and MSTP (IEEE 802.1s)

ERPS (G.8032)

LACP (IEEE 802.3ad)

LLDP/LLDP-MED

IP service

Static and dynamic ARP

DHCP server, DHCP client, DHCP relay, and DHCP snooping

DNS

DHCPv6 server, DHCPv6 client, DHCPv6 relay, and DHCPv6 snooping

Neighbor Discovery (ND) and ND snooping

IP routing

Static routing

RIP and RIPng

OSPFv2 and OSPFv3

GR

IS-ISv4 and IS-ISv6

BGP4 and BGP4+

Equal and Weighted Cost Multi-Path (ECMP)

Packet-based and flow-based load balancing

Stateless Auto Configuration

IPv4/IPv6 VRF

IPv4/IPv6 PBR

Multicast

IGMPv1/v2/v3 and IGMP proxy

IGMPv1/v2/v3 snooping

IGMP filtering and IGMP fast leave

PIM-DM, PIM-SM, and PIM-SSM

PIM-SSM for IPv4 and IPv6

MSDP to achieve inter-domain multicast

MLDv1/v2

MLD snooping

MSDP

PIM-SMv6

Multicast source IP address check

Multicast source port check

Multicast querier

ACL and QoS

Standard IP ACLs (hardware ACLs based on IP addresses)

Extended IP ACLs (hardware ACLs based on IP addresses or TCP/UDP port numbers)

Extended MAC ACLs (hardware ACLs based on source MAC addresses, destination MAC addresses, and optional Ethernet type)

Expert-level ACLs (hardware ACLs based on flexible combinations of the VLAN ID, Ethernet type, MAC address, IP address, TCP/UDP port number, protocol type, and time range)

Time-based ACLs

ACL80 and IPv6 ACL

Applying ACLs globally (hardware ACLs based on flexible combinations of the VLAN ID, Ethernet type, MAC address, IP address, TCP/UDP port number, protocol type, and time range)

ACL redirection

Port traffic identification

Port traffic rate limiting

802.1p/DSCP/ToS traffic classification

Traffic classification based on 802.1p priorities, DSCP priorities, and IP precedences

Traffic classification based on ToS values

Congestion management: SP, WRR, DRR, WFQ, SP+WRR, SP+DRR, and SP+WFQ

Congestion avoidance: tail drop, RED, and WRED

Eight queues on each port

Rate limiting in each queue

Security

Multi-AAA

RADIUS and TACAS+

Filtering of invalid MAC addresses

Broadcast storm suppression

Hierarchical management of administrators and password protection

BPDU guard

RADIUS authentication and authorization

Port- and MAC address-based 802.1x authentication

IEEE802.1X authentication, MAC address bypass (MAB) authentication, and interface-based and MAC address-based 802.1X authentication

Web authentication

Hypertext Transfer Protocol Secure (HTTPS)

SSHv1 and SSHv2

Global IP-MAC binding

ICMPv6

Port security

IP source guard

SAVI

ARP spoofing prevention

CPP and NFPP

Various attack defense functions including NFPP, ARP anti-spoofing, DHCP/DHCPv6 attack defense, ICMP attack defense, ND attack defense, IP scanning attack defense, and customizing attack defense packet types

Loose and strict RPF

uRPF ignoring default routes

Reliability

REUP

ERPS (G.8032)

Rapid Link Detection Protocol (RLDP), Layer 2 link connectivity detection, unidirectional link detection, and VLAN-based loop control

Data Link Detection Protocol (DLDP)

IPv4 VRRP v2/v3 and IPv6 VRRP

BFD

GR for RIP, OSPF, and BGP

Power modules in 1+1 redundancy mode

Hot swapping of power modules and fan modules (not supported by the RG-S6110-24MG4VS-UP)

Device virtualization

VSU

NMS and maintenance

SPAN, RSPAN, and ERSPAN

sFlow

NTP and SNTP

FTP and TFTP

SNMP v1/v2/c3

RMON (1, 2, 3, 9)

Various types of RMON groups, including event groups, alarm groups, history groups, and statistics groups, as well as private alarm extension groups

RMON used to implement Ethernet statistics, historical statistics, and alarm functions

NETCONF

Flow-based mirroring, and N:1 and 1:N port mirroring

CWMP

gRPC

OpenFlow Special 1.3

Flow table analysis defined by all protocols

Transmission of specified packets to the controller

Configuring the controller's IP address and port

Notifying port status changes to the controller

CLI (Telnet/console), SSH, Syslog, SNMP over IPv6, Telnet v6, FTP/TFTP v6, DNS v6, and NTP for IPv6

Ruijie Could-based management

Note: The item marked with the asterisk (*) will be available in the future.

Order Information

Follow the steps to order an RG-S6100 multi-GE switch:

  • Select a model of RG-S6100 series switches. The device is fully equipped with fan modules that do not need to be purchased separately.
  • Select power modules based on switch models. At least one power module is required.
  • Select optical modules based on optical interfaces of the switch.

Models marked with asterisks (*) in Ordering Information will be available in the future.

The switch, expansion module, power module, and other components can be ordered as needed. Before ordering an expansion module or power module, contact the online customer service personnel for the latest support information about the module.

Switches and Power Modules

Model

Description

RG-S6110-24MG4VS-UP

24 x 100M/1000M/2.5GE/5GE electrical ports with auto-negotiation

4 x 10GE/25GE SFP28 ports

RG-S6110-48MG4VS2QXS-UP

48 x 100M/1000M/2.5GE/5GE electrical ports with auto-negotiation

4 x 10GE/25GE SFP28 + 2 x 40GE QSFP+ ports

RG-S6120-24XMG4XS4VS-UP-H

24 x 100M/1000M/2.5GE/5GE/10GE electrical ports with auto-negotiation

4 x 10GE SFP+ ports 4 x 25GE SFP28 ports

RG-S6120-48XMG4VS2QXS-UP-H

48 x 100M/1000M/2.5GE/5GE/10GE electrical ports with auto-negotiation

4 x 10GE/25GE SFP28 + 2 x 40GE QSFP+ ports

RG-PA600I-P-F

600 W AC power module

RG-PA1000I-P-F

1000 W AC power module

RG-PA150I-F

150 W AC power module

GE Optical Module

Model

Description

Mini-GBIC-GT

1000BASE-GT mini GBIC module

MINI-GBIC-SX-MM850

1000BASE-SX, SFP transceiver, SM (850 nm, 500 m, LC).

MINI-GBIC-LX-SM1310

1000BASE-LX, SFP transceiver, SM (1310 nm, 10 km, LC)

MINI-GBIC-LH40-SM1310

1000BASE-LH, SFP transceiver, SM (1310 nm, 40 km, LC)

MINI-GBIC-ZX80-SM1550

1000BASE-ZX80, SFP transceiver, SM (1550 nm, 80 km, LC)

GE-SFP-LX20-SM1310-BIDI

SFP BIDI Transceiver-TX1310/RX1550, 20 km, LC

GE-SFP-LX20-SM1550-BIDI

SFP BIDI Transceiver-TX1550/RX1310, 20 km, LC

GE-SFP-LH40-SM1310-BIDI

SFP BIDI Transceiver-TX1310/RX1550, 40 km, LC

GE-SFP-LH40-SM1550-BIDI

SFP BIDI Transceiver-TX1550/RX1310, 40 km, LC

10GE Optical Modules

Model

Description

XG-SFP-SR-MM850

10GE LC connector module, applicable to the SFP+ port

62.5 μm/125 μm: 33 m

50 μm/125 μm: 66 m

Modal bandwidth of 2000 MHz·km for a link length of up to 300 meters

XG-SFP-LR-SM1310

10GE LC connector module with a link length of up to 40 km, 1310-nm wavelength, applicable to the SFP+ port

XG-SFP-ER-SM1550

10GE LC connector module with a link length of up to 40 km, 1550-nm wavelength, applicable to the SFP+ port

XG-SFP-AOC1M

10GE SFP+ port cable, 1 m, including one cable and two interface modules

XG-SFP-AOC3M

10GE SFP+ port cable, 3 m, including one cable and two interface modules

XG-SFP-AOC5M

10GE SFP+ port cable, 5 m, including one cable and two interface modules

25GE Optical Modules

Model

Description

VG-SFP-SR-MM850

25GE SR, SFP28, 850-nm wavelength, 100 m over MMF

VG-SFP-LR-SM1310

25GE LR, SFP28, 1310-nm wavelength, 10 km over SMF

VG-SFP-AOC5M

25GE SFP+ active optical cable, 5 m, including two modules

40GE Optical Modules

Model

Description

40G-QSFP-SR-MM850

40GE SR, QSFP+ transceiver, applicable to QSFP+ ports

OM3 and OM4 MMF, MPO, 8-core, 850-nm wavelength, 100 m over OM3 MMF or 150 m over OM4 MMF

40G-QSFP-LR4 SM1310

40GE LR4, QSFP+ transceiver, LC, 1310-nm wavelength, 2-core, 10 km over SMF, applicable to QSFP+ ports

40G-AOC-5M

40GE QSFP+ active optical cable, 5 m, including one cable and two interface modules

40G-AOC-10M

40GE QSFP+ active optical cable, 10 m, including one cable and two interface modules

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