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RG-S2910-H High Power over Ethernet (HPoE) Switch Series

Ruijie RG-S2910-H High Power over Ethernet (HPoE) Switch Series pushes the frontier with leading IEEE802.3bt standard, delivering 60W power output per port. The HPoE switch guarantees the best security, efficiency, stability and energy-saving experiences.

The HPoE switch is highly adaptive to a breadth of scenarios, eliminating rigid ties to expensive deployment costs, slow implementation cycle, unstable power supply, management complexity, and unsatisfactory security problems that alternative solutions have been struggling to solve. The switch fully addresses high PoE access needs for low power scenario as well as high power Wi-Fi hotspot application in outdoor venue. Industrial-grade Power Box (PBOX) is available to support non-PoE appliance or non-IEEE 802.3bt powered device (PD). The PBOX fully supports remote power supply for high power devices.

Feature highlights of RG-S2910-H HPoE Switch Series:

  • Up to 60 Watts per Port by High-power PoE Technology (IEEE 802.3bt)
  • Industrial-grade PBOX for Flexible Remote Deployment (12VDC/ 24VAC Options)
  • Outstanding Power Supply Stability (Average Error Rate <0.5%)
  • Time & Cost Saving on Construction Works
 

More+

New Option for High Power IP Devices

There used to be only two options available for remote power supply scenarios, namely PoE and PoE+ standards. The PoE standard would fail to meet the needs if more than 30W power is required. Instead, electrical wiring or even high power has to be deployed. Such implementation gives an enormous burden to total investment cost, completion schedule, post-sale maintenance, as well as installation safety. Based on IEEE 802.3bt, Ruijie delivers an innovation approach leveraging the HPoE power supply technology, maximizing user experience from the fundamental level.  

Wide Selection of Power Supply Standards

The HPoE switches support IEEE 802.3af, IEEE 802.3at and IEEE 802.3bt and are also backward compatible with earlier standards.

Outstanding Power Supply Stability

Getting power through electrical wiring come with the following disadvantages: Firstly, the power supply devices and cables are usually proprietary. In other words, there is a lack of standardization among devices and cables from different vendors. Secondly, the cable loss and voltage drop require manual adjustment to fulfill the needs of various endpoints. The average error is more than 10%, making device susceptible to failure and jeopardizing deployment efficiency. Last but not least, getting power from electrical wiring means centralized power supply. However, most endpoints do not share the same power requirement and the average utilization rate is less than 70%. There is also a high risk that if one device is lost and all can be lost. Generally speaking, more than 30% of system failure events are caused by power supply annually.

The HPoE power supply solution takes a different approach. Instead of simply lowering the failure rate, the solution precisely locates the crux of the problem and hence eliminates it. The solution supports the leading IEEE802.3bt to enable sustainable development. Also, the cable loss and voltage drop adjustment are carried out digitally with an average error rate <0.5%. The feature hence enables a stable voltage condition and speeds up deployment efficiency. The HPoE solution implements an independent power supply mode. Each HPoE port carries one endpoint only and automatically allocates the power required. Any failure event of one device is isolated from each other. The power utilization rate reaches up to 100%. In general, the solution usually maintains a power-failure-free period for more than 5 years.

Highly Customizable for Various Needs

The HPoE device supports regular power on/off settings for all HPoE, PoE+ and PoE ports. It can control to switch on/off all endpoints connected. Based on the actual deployment needs, users can set to suspend a certain devices from operation within a designated period. The feature ensures key services to operate in a stable manner during peak traffic periods. By putting some endpoints to rest within an idle period, energy consumption is greatly reduced and endpoint life cycle is therefore extended significantly.

The device also enables consistent power supply by hot startup. During restart or upgrade, stable and continuous power supply is guaranteed to maintain the operation of key services.

Two power supply modes, energy-saving and auto supply, are available for on-demand application.

The device offers an auto PoE switching button, enabling users to change the LED indicator display mode of the port with just one click. PoE output status of all the ports is available at a glance.

Best-in-class Management Easiness

Leveraging Existing Network Cabling

The traditional electrical wiring involves a range of tedious procedures on the wall or the floor. Such include groove opening, pipe laying, voltage and current testing and so on. Everything from the groove diameter and depth to spacing, PVC tube dimensions to curve radius of laying tube, as well as electromagnetic interference among various cables must be taken into consideration. With just one mistake in any aspect, the overall wiring outcome will be largely at stake and the end user experience will be undermined. Ruijie offers you a painless solution and what you need is just network cable. For new buildings, only network cabling needs to be taken care of. For expansion with weak power devices, users can leverage the existing network cabling. No more wall-breaking work incidental to electrical wiring is required.

Painless Management

Since there are numerous subnet systems of low powered devices, it is very difficult to centrally manage all of them. Also, each subsystem demands in-depth technological knowledge, which pose challenges to administrators. This would slow down the troubleshooting process. Also, point location, maintenance and failure logs are all recorded manually, making related data keeping and enquiry much more difficult.

To provide an end-to-end solution for the above, Ruijie has launched an intelligent operation platform RIIL IPDM (IP Devices Management). The software achieves centralized and visible management on IP devices. The RIIL IPDM enables administrators to discover failure point immediately for upgraded work efficiency.

  • Support auto inspection on IP devices in the whole network. Together with figurative alerts, the software cut through problems of individual authentication of each IBMS systems, and management difficulties on IP devices.
  • Intuitively show online status, physical location, uplink device and port of existing devices. Working with the HPoE switch, it can remotely restart any device and speed up troubleshooting.
  • Automatically import point location map, generate and export failure logs. The feature enables zero data loss by reducing tedious manual operation.

The HPoE switches also support SNMP V1/V2/V3, RMON and Syslog for routine diagnosis and maintenance. A diversity of management modes are available and such include web network management, Telnet, CWMP (TR069) zero configuration for easy maintenance.

Cost and Time-efficient Deployment

Time and Cost Savings

Electrical wiring involves a series of construction work and tests, which means requiring more human resources, longer implementation period and higher deployment costs. The wiring work sometimes costs even more than that of device purchase. The HPoE deployment does not only help users to save costs on wiring and labor, the service also turns up faster than any traditional solutions.

Exceptional Energy Efficiency

The HPoE device supports energy-saving and auto supply PoE modes for various deployment needs.

The device features auto-power-down, a function enabling the system to automatically power off any interface which has been down for a certain period of time. The switch is also IEEE802.3az (EEE) compliant. A port will enter the energy-saving mode if it has been idle for an extensive period. When there is an incoming/outgoing packet, the port will resume service as informed by listening stream.

Safety and Security Features

Power Supply Safety

Getting power over electrical wiring features low loss and high efficiency. However, the high power, voltage and current are potential hazards to technicians during installation or maintenance stages. The HPoE technology carries power on cables (twisted pair) with low voltage, which offers improved safety.

Device Safety

High power is also a threat to devices. With thunderstorm or electromagnetic interference, devices are vulnerable under high current. The HPoE device, on the other hand, implements various protection mechanisms. When an IP camera breaks down or short circuit is detected, the device will remain intact under the overcurrent protection.

The device also supports lightning protection up to 8KV, ensuring stable operation under severe weather conditions.

Network Security

The HPoE switch also inherits security features from conventional switches:

  • Support various ACL, port security technologies, etc. Such features fully protect against ARP spoofing attacks.
  • Support Ruijie leading CPP (CPU Protection Policy) and NFPP (Network Foundation Protection Policy). The technologies divide and prioritize incoming traffic to CPU and implement real-time bandwidth speed limit when necessary. The features totally protect CPU from being occupied by unauthorized traffic, malicious attacks and resources consumption. These also restrict the number of outgoing ARP, ICMP and DHCP packets issued by users. Those packets exceeding the threshold will be discarded or recognized as attacks. The relevant users will be isolated to ensure secure operation of the device and the whole network.

Superior Network Stability

Virtualization for Simplified Maintenance

The RG-S2910-24GT4XS-UP-H and RG-S2910-24GT4SFP-UP-H Switches adopt the industry-leading Virtual Switch Unit (VSU) technology to achieve unified network management, reduce network nodes and enhance network reliability. The failover time for link failure is within 50ms to guarantee uninterrupted operation for critical applications. VSU (Virtual Switch Unit) virtualizes multiple physical devices into one logical device, which can be managed using a single IP address, Telnet, CLI, automatic version checking and configuration, etc. The VSU brings along advanced work efficiency and user experience as users are only required to manage one single device.

Simplified Network Topology Enable by VSU

Standard Protocol for Seamless Integration

The ERPS (G.8032) enables loop elimination and link recovery on the master device. Non-master devices directly report link status to the master without passing through others. Hence, the processing time for loop elimination and link recovery are faster than STP. Under ideal conditions, the link recovery of ERPS can be completed within millisecond.

SDN Advancement

The HPoE device fully supports OpenFlow. In collaboration with Ruijie’s proprietary SDN controller, large-scale L2 framework and smooth transition to SDN network can be easily achieved, largely simplifying network management and reducing maintenance costs.

 

HPoE Switches

Model

RG-S2910-24GT4SFP-UP-H

RG-S2910-24GT4XS-UP-H

RG-S2910-10GT2SFP-UP-H

Ports

24 10/100/1000BASE-T ports (HPoE/PoE/PoE+), 4 Gigabit SFP ports (non-combo) uplink, Port 1-4 for HPoE, AC

24 10/100/1000BASE-T ports (HPoE/PoE/PoE+), 4 1G/10G SFP+ ports (non-combo) uplink, Port 1-4 for HPoE, AC

10 10/100/1000BASE-T ports (HPoE/PoE/PoE+), 2 Gigabit SFP ports (non-combo) uplink, Port 1-8 for HPoE, AC

Management Port

1 console port

Switching Capacity

Up to 264Gbps

Up to 264Gbps

Up to 256Gbps

Packet Forwarding Rate

Up to 96Mpps

Up to 96Mpps

Up to 18Mpps

PoE

IEEE 802.3af, IEEE 802.3at and IEEE 802.3bt

Port Buffer

1.5MB

ARP Table

1,000

1,000

500

MAC Address

16K

Routing Table Size (IPv4/IPv6)

500 (IPv4/IPv6)

500 (IPv4/IPv6)

64 (IPv4/IPv6)

ACL Entries

In: 1500
Out: 500

In: 1500
Out: 500

In: 750
Out: N/A

VLAN

Port-based VLAN, MAC-based VLAN, Protocol-based VLAN, Private VLAN, Voice VLAN, IP subnet-based VLAN, GVRP

QinQ

Basic QinQ, Flexible QinQ

Port Mirroring

Support aggregation port as source and destination port of mirroring; Flow-based mirroring; VLAN-based mirroring; Many-to-one mirroring; One-to-many mirroring; Cross-device traffic mirroring; RSPAN; ERSPAN

Support aggregation port as source and destination port of mirroring; Flow-based mirroring; VLAN-based mirroring; Many-to-one mirroring; One-to-many mirroring; Cross-device traffic mirroring; RSPAN; ERSPAN

Support aggregation port as source and destination port of mirroring; Flow-based mirroring; VLAN-based mirroring; Many-to-one mirroring; One-to-many mirroring; RSPAN; ERSPAN

Spanning Tree Protocols

IEEE802.1d STP, IEEE802.1w RSTP, standard 802.1s MSTP, Port fast, BPDU filter, BPDU guard, TC guard, TC protection, ROOT guard

DHCP

DHCP server, DHCP client, DHCP snooping, DHCP relay, IPv6 DHCP snooping, IPv6 DHCP client, IPv6 DHCP relay

Multiple Spanning Tree Protocol (MSTP) Instances

64

SDN

OpenFlow

VSU

VSU Stack Members

Up to 9 stack members(1)

N/A

VSL

4 BASE-X ports can be configured as VSL(2)

N/A

Zero Configuration

CWMP(TR069)

L2 Features

MAC, VLAN, Basic QinQ, Felix QinQ, Mirroring, STP, RSTP, MSTP, Broadcast storm control, IGMP v1/v2 snooping, IGMP filter, IGMP fast leave, Jumbo frame, RLDP, LLDP, REUP, G.8032

Layer 2 Protocols 

IEEE802.1d, IEEE802.1w, IEEE802.1s, IGMP Snooping v1/v2

Layer 3 Features

ARP, IPv4/v6

IPv4 Features

Ping, Traceroute

IPv6 Features

0-64 any length mask, ICMPv6, Neighbor Discovery, Manually configure local address, Automatically create local address, IPv6 Ping, IPv6 Tracert, IPv6 extender option head

Basic IPv6 Protocols

IPv6 addressing, Neighbor Discovery (ND), IPv6 ACL, ICMPv6, IPv6 Ping, IPv6 Tracert

IPv4 Routing Protocols

Static Routing, RIP

IPv6 Routing Protocols

Static Routing, RIPng

G.8032

Support

ACL

Standard IP ACL, Extended IP ACL, Extended MAC ACL, Expert ACL, ACL80, IPv6 ACL, ACL Logging, ACL Counter, ACL Remark, Global ACL, ACL Redirect

QoS

802.1p/DSCP traffic classification; Multiple queue scheduling mechanisms, such as SP, WRR, DRR, SP+WRR, SP+DRR; Input / output port-based speed limit; Each port supports 8 queue priorities

802.1p/DSCP traffic classification; Multiple queue scheduling mechanisms, such as SP, WRR, DRR, SP+WRR, SP+DRR; Input / output port-based speed limit; Each port supports 8 queue priorities

802.1p/DSCP traffic classification; Multiple queue scheduling mechanisms, such as SP, WRR, DRR, SP+WRR, SP+DRR; Input port-based speed limit; Each port supports 8 queue priorities

IPv6 ACL

Support

Reliability

GR for RIP

GR for RIP

GR for RIP

EEE Format

Support IEEE 802.3az standard

Security

Binding of the IPv6 and MAC address; Port-based and MAC-based 802.1x; MAB; Portal and Portal 2.0 authentication; ARP-check; DAI; Gateway anti-ARP spoofing; Hierarchical management by administrators and password protection; RADIUS and TACACS+; SSH V1.5 and SSH V2.0; IP source guard; CPP, NFPP; Port protection

Manageability

SNMPv1/v2c/v3, RMON(1, 2, 3, 9), SSH, Syslog / Debug, NTP / SNTP, FTP, TFTP, Web

Smart Temperature Control

Temperature monitoring and alert

Dimensions (W x D x H) (mm)

440×260×44

440×260×44

340×260×44

Rack Height

1RU

MTBF

>200K hours

Lightning Protection

8KV

8KV

6KV

Power Supply

AC input:
Nominal voltage range: 100V to 240V AC
Maximum voltage range: 90V to 264V AC
Frequency: 50Hz to 60Hz

RG-PBOX-DC12: Support 12VDC output and 10/100/1000M Ethernet signal transmission
RG-PBOX-AC24: Support 24VAC output and 10/100/1000M Ethernet signal transmission
(*For detailed specifications of the adapters, please refer to the below table.)

Power Consumption 

<460W

<460W

<870W

PoE Power Consumption 

Total 370W PoE/PoE+/HPoE budget output power
All 24 BASE-T ports support PoE (up to 24 ports) and PoE+ (up to 12 ports)
All ports from Port 1-4 support HPoE output power of up to 60W per port

Total 370W PoE/PoE+/HPoE budget output power

All 24 BASE-T ports support PoE (up to 24 ports) and PoE+ (up to 12 ports)

All ports from Port 1-4 support HPoE output power of up to 60W per port

Total 760W PoE/PoE+/HPoE budget output power

All ports from Port 1-8 support HPoE output power of up to 60W per port

Temperature

Operating temperature: 0°C to 50°C

Storage temperature: -40°C to 70°C

Humidity

Operating humidity: 10% to 90%RH

Storage humidity: 5% to 95%RH

Operating Altitude

-500m to 5,000m

1.2Industrial Adapters

Model

RG-PBOX-DC12

RG-PBOX-AC24

Product Description

High-power PoE power adapter, supports 12VDC output and 10/100/1000M Ethernet signal transmission, suitable for indoor or semi-open spaces.

High-power PoE power adapter, supports 24VAC output and 10/100/1000M Ethernet signal transmission, suitable for indoor or semi-open spaces.

Ports

2 10M/100M/1000M Ethernet ports, 1 standard power supply terminal block

2 10M/100M/1000M Ethernet ports, 1 standard power supply terminal block

Power Input

Input voltage range: 43-57V DC

Input voltage range: 43-57V DC

Input Interface: RJ45

Input Interface: RJ45

Maximum input power: 80W (PBOX input)

Maximum input power: 80W (PBOX input)

Power Output

Power output port, 12VDC/60W

Power output port, 24VAC/60W

Operating Temperature

-20℃ to 50℃

Storage Temperature

-40℃ to 70℃

Operating Humidity

10% to 90% (non-condensing)

Storage Humidity

10% to 95% (non-condensing)

Operating Altitude

-500m to 5000m

Protection Rating

IP40

Dimensions (W x D x H) (mm)

187x89x35

 



(1) Future release support. Latest models support up to 4 stack members.

(2) Only the 4 SFP/SFP+ ports can be configured as VSL. VSU is not supported between S2910-24GT4SFP-UP-H and S2910-24GT4XS-UP-H, as well as between S2910-24GT4SFP-UP-H V1.XX and S2910-24GT4SFP-UP-H V2.XX.

 

With its powerful and flexible high-power PoE feature, the HPoE Series can fully meet the network requirements of the following scenarios:

  • The PoE remote power supply of the high-power devices in different systems of a smart building, such as surveillance system, access control system, information broadcasting system, digital clock system, parking system, etc.
  • In a variety of outdoor wireless deployment scenarios, the HPoE Series can meet the power supply requirement of the high-power outdoor wireless APs.

Scenario

The HPoE Series provides high-power PoE remote power supply for the infrared dome cameras of the smart building, access control card reader, parking entrance gate, information broadcasting device, etc.

RG-S2910-H Deployment for Smart Building

The HPoE series, as the power supply of the IP devices, supports an immediate power-on of the devices once connected to the network.

RG-S2910-H Powering the End Devices

Values:

  • Compared to the existing power supply method using power cables, the HPoE Series can significantly reduce equipment cost and implementation cost.
  • High-voltage power cables are used in the existing deployment which has a certain risk. On the other side, the low-voltage power supply of HPoE is safe and reliable.
  • All devices can be accessed by the network via IP deployment and can be integrated with the IPDM (IP Devices Management) system for unified remote control.

 

Model

Description

RG-S2910-24GT4SFP-UP-H

24 10/100/1000BASE-T ports (HPoE/PoE/PoE+) and 4 Gigabit SFP ports (non-combo) uplink, Port 1-4 for HPoE, AC

RG-S2910-24GT4XS-UP-H

24 10/100/1000BASE-T ports (HPoE/PoE/PoE+) and 4 1G/10G SFP+ ports (non-combo) uplink, Port 1-4 for HPoE, AC

RG-S2910-10GT2SFP-UP-H

10 10/100/1000BASE-T ports (HPoE/PoE/PoE+) and 2 Gigabit SFP ports (non-combo) uplink, Port 1-8 for HPoE, AC

Optional Industrial Adapters and Accessories

RG-PBOX-DC12

Support 12VDC output and 10/100/1000M Ethernet signal transmission; suitable for indoor or semi-open space

RG-PBOX-AC24

Support 24VAC output and 10/100/1000M Ethernet signal transmission; suitable for indoor or semi-open space

Mini-GBIC-GT

1000BASE-GT mini GBIC Transceiver

Mini-GBIC-SX-MM850

1000BASE-SX mini GBIC Transceiver (850nm)

Mini-GBIC-LX-SM1310

1000BASE-LX mini GBIC Transceiver (1310nm)

Mini-GBIC-LH40-SM1310

1000BASE-LH mini GBIC Transceiver (1310nm, 40km)

Mini-GBIC-ZX50-SM1550

1000BASE-ZX mini GBIC Transceiver (1550nm, 50km)

Mini-GBIC-ZX80-SM1550

1000BASE-ZX mini GBIC Transceiver (1550nm, 80km)

Mini-GBIC-ZX100-SM1550

1000BASE-ZX mini GBIC Transceiver (1550nm, 100km)

 

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