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- Ruijie RG-S5300-24GT2SFP2XS-PE - Switch 10 GB Manageable Layer 3, 24 RJ45 gigabit PoE+ 370w, 2 SFP+ and 2 SFPs
Ruijie RG-S5300-24GT2SFP2XS-PE - Switch 10 GB Manageable Layer 3, 24 RJ45 gigabit PoE+ 370w, 2 SFP+ and 2 SFPs
Ruijie RG-S5300-24GT2SFP2XS-PE - Switch 10 GB Manageable Layer 3, 24 RJ45 gigabit PoE+ 370w, 2 SFP+ and 2 SFPs
Ruijie - RG-S5300-24GT2SFP2XS-P-E /shop/product/rg-s5300-24gt2sfp2xs-p-e-ruijie-rg-s5300-24gt2sfp2xs-pe-switch-10-gb-manageable-layer-3-24-rj45-gigabit-poe-370w-2-sfp-and-2-sfps-14934**24-port 10/100/1000BASE-T L2 manageable switch and 4 GE SFP ports (unbundled), Including Ruijie Cloud Service lifetime license.**
Ruijie RG-S5300-24GT2SFP2XS-P-E - 24 Port SFP 1G Switch
Switch gestionable L2 de 24 puertos 10/100/1000BASE-T y 4 puertos GE SFP (no combinados),
Incluida licencia de por vida de Ruijie Cloud Service.
The RG-S5300-E series are next-generation Gigabit Ethernet switches launched by Ruijie in accordance with its design philosophy of security, high efficiency, energy saving and independent innovation. This series can provide full gigabit access and extensible 10G uplink data exchanges flexibly. With a new hardware architecture and Ruijie's latest RGOS12.X modular operating system, the RG-S5300-E series is able to provide more resource inputs, faster hardware processing and better user experience.
Main features:
- Network virtualization support (VSU).
- Dynamic network protection (CPP and NFPP technologies)
- SDN-ready (OpenFlow v1.3)
- Layer 3 routing support (RIP, OSPF)
- Advanced resiliency features
- Support: ERPS (G.8032), VRRP
- Lightning protection (up to 6KV)
Sound security protection policies
Viruses or Address Resolution Protocol (ARP) attacks are a common and influential type of network attack. RG-S5300-E series switches support ARP spoofing prevention in multiple modes. Regardless of whether clients obtain addresses automatically from the DHCP server or use static IP addresses, the RG-S5300-E series switches record the authentic IP+MAC addresses of clients and compare the addresses in ARP packets with the recorded IP+MAC addresses when the switch ports receive ARP packets from hosts. The switches forward only ARP packets whose addresses match the registered IP+MAC addresses and discard bogus ARP packets. In this way, ARP spoofing is protected outside the network and network users are protected against ARP virus attacks.
The RG-S5300-E series switches are capable of actively defending against various distributed denial-of-service (DDoS) attacks on networks. Computers can become infected with viruses due to network openness or attackers can launch attacks on network devices and servers for various purposes, resulting in network unavailability. Common ARP flood attacks can cause the gateway to fail to respond to requests. ICMP flood attacks can paralyze network devices due to high CPU load. DHCP request flood attacks exhaust DHCP server addresses and users cannot obtain IP addresses to access the network.
The RG-S5300-E series switches provide an efficient hardware CPU protection mechanism: CPU protection policy (CPP). It classifies data traffic sent to the CPU, processes traffic by queue priority, and limits the bandwidth rate as needed. This protection mechanism largely protects the CPU against illegitimate traffic occupation, malicious attacks and resource consumption, ensuring CPU security and protecting the switches.
The RG-S5300-E series switches adopt the innovative Network Foundation Protection Policy (NFPP) technology to limit the rate of ARP packets, ICMP requests, DHCP requests and other packets sent to networks. The switches discard packets whose rate exceeds the threshold, identify attack behavior and isolate users who launch attacks. In this way, core networks are protected from network attacks and, therefore, network stability is guaranteed.
DHCP probing enables the RG-S5300-E series switches to receive DHCP responses only from trusted ports and prevents spoofing from unauthorized DHCP servers. With DHCP probing, the switches dynamically monitor ARP packets, verify user IP addresses, and discard illegitimate packets that do not match the bound entries, effectively preventing ARP spoofing and source IP address spoofing.
Unidad de conmutación virtual
The RG-S5300-E series switches support Virtual Switching Unit (VSU), in which multiple physical devices are connected and virtualized into one logical device. The devices use the same IP address, Telnet process and command line interface (CLI) for management and support automatic version checking and automatic configuration. Users must manage only this one logical device to enjoy the work efficiency and user experience of multiple devices.
Simplified management: Administrators can manage multiple switches in a unified manner, without the need to connect to each switch for configuration and management.
Simplified network topology: A VSU serves as a switch in a network and connects to peripheral devices through aggregated links. Therefore, there is no Layer 2 loop and no need to configure the Multiple Spanning Tree Protocol (MSTP). Several control protocols run on the VSU.
Millisecond failover: A VSU connects to peripheral devices through aggregated links. If a device or member link in the VSU malfunctions, data and services can be switched to another member link in only 50 to 200 milliseconds.
High scalability: User devices can be added to or removed from a virtualized network in a "hot-swap" fashion, without affecting the normal operation of other devices.
Increased ROI: the aggregated links used to connect the VSU to peripheral devices not only provide redundancy links but also implement load balancing. All network devices and bandwidth resources are properly utilized. Any 10G port can be used to build a VSU virtual network over data transmission cables. No additional cables or expansion cards are required, and the types of ports and cables are not limited. Therefore, the return on investment is better protected.
Alta fiabilidad
Spanning Tree Protocol (STP), Rapid Spanning Tree Protocol (RSTP), and MSTP help the RG-S5300-E series switches achieve fast convergence, improve fault-tolerance capability, and ensure stable network operation and link load balancing. The switches use network channels appropriately to increase the utilization of redundant links.
El Protocolo de redundancia de enrutador virtual (VRRP) ayuda a los conmutadores a garantizar de manera efectiva la estabilidad de la red.
With the Rapid Link Detection Protocol (RLDP), switches can quickly detect link connectivity and unidirectional fiber optic links. The port loop detection feature helps switches avoid network failures caused by loops resulting from unauthorized port connection to hubs.
The RG-S5300-E series switches support Ethernet Ring Protection Switching (ERPS) technology, which is an international Layer 2 link redundancy backup protocol designed for the Ethernet core. The ERPS loop block and link recovery are implemented at the control device, and non-controlling devices directly report their link status to the control device, without processing from other non-controlling devices. Therefore, the loop interruption and recovery time of ERPS are faster than those of STP. Based on the above differences, ERPS supports link recovery in milliseconds in the ideal environment.
When STP is disabled, Rapid Link Protection Protocol (RLDP) can still provide basic link redundancy and millisecond-level failover faster than STP.
With Bidirectional Forwarding Detection (BFD), switches can detect links in milliseconds and quickly converge routing and other services through correlation with higher-layer routing protocols, ensuring continuity of services.
Software-defined networking (SDN)
The RG-S5300-E series supports OpenFlow 1.3 as the times demand and will collaborate with Ruijie's SDN controller to easily build large-scale L2/L3 networks. The switches enable you to seamlessly upgrade the entire network to an SDN network and provide access control, visualized operation and maintenance, and other SDN functions. The products greatly reduce network operation and maintenance costs while significantly simplifying network management.
Energy Efficiency
In response to China's call for energy efficiency, Ruijie deeply studies the problems of noise and power consumption of conventional switches and integrates multiple energy-saving design ideas into the RG-S5300-E series switches. The switches reduce the loud noises caused by office deployment and solve the excessive power consumption resulting from large-scale deployment of access devices.
In addition, the RG-S5300-E series adopts next-generation hardware architecture, as well as advanced energy-efficient components and circuit design, to significantly save power and reduce noise. The entire series is equipped with variable-speed axial fans to intelligently control the fan speed according to the ambient temperature, which reduces power consumption and noise while ensuring stable operation of the devices.
En el entorno de red PoE, la serie RG-S5300-E proporciona un modo PoE automático y un modo PoE de ahorro de energía para satisfacer las necesidades de los usuarios.
Easy network maintenance
The RG-S5300-E series switches support Simple Network Management Protocol (SNMP), Remote Network Monitoring (RMON), Syslog, Sampled Flow (sFlow), logging and configuration backup via USB flash drives for routine network diagnostics and maintenance. Administrators can also use CLI, web-based management, telnet, zero configuration based on WAN CPE management protocol (CWMP(TR069) and other methods to conveniently manage and maintain devices.
Un botón de Modo LED está disponible en el panel de los interruptores. Puede presionar este botón para verificar el estado de comunicación actual y el estado de PoE de todos los puertos en los conmutadores.
IPv4/IPv6 dual-stack multilayer switching
The hardware of the RG-S5300-E series switches supports line-rate IPv4/IPv6 dual-stack multilayer switching, distinguishes and processes IPv4 and IPv6 protocol packets. In that case, the switches can plan networks or maintain network status according to IPv6 network requirements and create IPv6 network communication solutions flexibly. The RG-S5300-E series switches support a wide range of IPv4 routing protocols, including static routing, RIP, OSPFv2, IS-ISv4 and BGP4. Users can select appropriate routing protocols based on network environments to build networks flexibly. The RG-S5300-E series switches also support numerous IPv6 routing protocols, including static routing, Next Generation Routing Information Protocol (RIPng), OSPFv3, IS-ISv6 and BGP4+.
Sound security protection policies
Viruses or Address Resolution Protocol (ARP) attacks are a common and influential type of network attack. RG-S5300-E series switches support ARP spoofing prevention in multiple modes. Regardless of whether clients obtain addresses automatically from the DHCP server or use static IP addresses, the RG-S5300-E series switches record the authentic IP+MAC addresses of clients and compare the addresses in ARP packets with the recorded IP+MAC addresses when the switch ports receive ARP packets from hosts. The switches forward only ARP packets whose addresses match the registered IP+MAC addresses and discard bogus ARP packets. In this way, ARP spoofing is protected outside the network and network users are protected against ARP virus attacks.
The RG-S5300-E series switches are capable of actively defending against various distributed denial-of-service (DDoS) attacks on networks. Computers can become infected with viruses due to network openness or attackers can launch attacks on network devices and servers for various purposes, resulting in network unavailability. Common ARP flood attacks can cause the gateway to fail to respond to requests. ICMP flood attacks can paralyze network devices due to high CPU load. DHCP request flood attacks exhaust DHCP server addresses and users cannot obtain IP addresses to access the network.
The RG-S5300-E series switches provide an efficient hardware CPU protection mechanism: CPU protection policy (CPP). It classifies data traffic sent to the CPU, processes traffic by queue priority, and limits the bandwidth rate as needed. This protection mechanism largely protects the CPU against illegitimate traffic occupation, malicious attacks and resource consumption, ensuring CPU security and protecting the switches.
The RG-S5300-E series switches adopt the innovative Network Foundation Protection Policy (NFPP) technology to limit the rate of ARP packets, ICMP requests, DHCP requests and other packets sent to networks. The switches discard packets whose rate exceeds the threshold, identify attack behavior and isolate users who launch attacks. In this way, core networks are protected from network attacks and, therefore, network stability is guaranteed.
DHCP probing enables the RG-S5300-E series switches to receive DHCP responses only from trusted ports and prevents spoofing from unauthorized DHCP servers. With DHCP probing, the switches dynamically monitor ARP packets, verify user IP addresses, and discard illegitimate packets that do not match the bound entries, effectively preventing ARP spoofing and source IP address spoofing.
Unidad de conmutación virtual
The RG-S5300-E series switches support Virtual Switching Unit (VSU), in which multiple physical devices are connected and virtualized into one logical device. The devices use the same IP address, Telnet process and command line interface (CLI) for management and support automatic version checking and automatic configuration. Users must manage only this one logical device to enjoy the work efficiency and user experience of multiple devices.
Simplified management: Administrators can manage multiple switches in a unified manner, without the need to connect to each switch for configuration and management.
Simplified network topology: A VSU serves as a switch in a network and connects to peripheral devices through aggregated links. Therefore, there is no Layer 2 loop and no need to configure the Multiple Spanning Tree Protocol (MSTP). Several control protocols run on the VSU.
Millisecond failover: A VSU connects to peripheral devices through aggregated links. If a device or member link in the VSU malfunctions, data and services can be switched to another member link in only 50 to 200 milliseconds.
High scalability: User devices can be added to or removed from a virtualized network in a "hot-swap" fashion, without affecting the normal operation of other devices.
Increased ROI: the aggregated links used to connect the VSU to peripheral devices not only provide redundancy links but also implement load balancing. All network devices and bandwidth resources are properly utilized. Any 10G port can be used to build a VSU virtual network over data transmission cables. No additional cables or expansion cards are required, and the types of ports and cables are not limited. Therefore, the return on investment is better protected.
Alta fiabilidad
Spanning Tree Protocol (STP), Rapid Spanning Tree Protocol (RSTP), and MSTP help the RG-S5300-E series switches achieve fast convergence, improve fault-tolerance capability, and ensure stable network operation and link load balancing. The switches use network channels appropriately to increase the utilization of redundant links.
El Protocolo de redundancia de enrutador virtual (VRRP) ayuda a los conmutadores a garantizar de manera efectiva la estabilidad de la red.
With the Rapid Link Detection Protocol (RLDP), switches can quickly detect link connectivity and unidirectional fiber optic links. The port loop detection feature helps switches avoid network failures caused by loops resulting from unauthorized port connection to hubs.
The RG-S5300-E series switches support Ethernet Ring Protection Switching (ERPS) technology, which is an international Layer 2 link redundancy backup protocol designed for the Ethernet core. The ERPS loop block and link recovery are implemented at the control device, and non-controlling devices directly report their link status to the control device, without processing from other non-controlling devices. Therefore, the loop interruption and recovery time of ERPS are faster than those of STP. Based on the above differences, ERPS supports link recovery in milliseconds in the ideal environment.
When STP is disabled, Rapid Link Protection Protocol (RLDP) can still provide basic link redundancy and millisecond-level failover faster than STP.
With Bidirectional Forwarding Detection (BFD), switches can detect links in milliseconds and quickly converge routing and other services through correlation with higher-layer routing protocols, ensuring continuity of services.
Software-defined networking (SDN)
The RG-S5300-E series supports OpenFlow 1.3 as the times demand and will collaborate with Ruijie's SDN controller to easily build large-scale L2/L3 networks. The switches enable you to seamlessly upgrade the entire network to an SDN network and provide access control, visualized operation and maintenance, and other SDN functions. The products greatly reduce network operation and maintenance costs while significantly simplifying network management.
Energy Efficiency
In response to China's call for energy efficiency, Ruijie deeply studies the problems of noise and power consumption of conventional switches and integrates multiple energy-saving design ideas into the RG-S5300-E series switches. The switches reduce the loud noises caused by office deployment and solve the excessive power consumption resulting from large-scale deployment of access devices.
In addition, the RG-S5300-E series adopts next-generation hardware architecture, as well as advanced energy-efficient components and circuit design, to significantly save power and reduce noise. The entire series is equipped with variable-speed axial fans to intelligently control the fan speed according to the ambient temperature, which reduces power consumption and noise while ensuring stable operation of the devices.
En el entorno de red PoE, la serie RG-S5300-E proporciona un modo PoE automático y un modo PoE de ahorro de energía para satisfacer las necesidades de los usuarios.
Easy network maintenance
The RG-S5300-E series switches support Simple Network Management Protocol (SNMP), Remote Network Monitoring (RMON), Syslog, Sampled Flow (sFlow), logging and configuration backup via USB flash drives for routine network diagnostics and maintenance. Administrators can also use CLI, web-based management, telnet, zero configuration based on WAN CPE management protocol (CWMP(TR069) and other methods to conveniently manage and maintain devices.
Un botón de Modo LED está disponible en el panel de los interruptores. Puede presionar este botón para verificar el estado de comunicación actual y el estado de PoE de todos los puertos en los conmutadores.
IPv4/IPv6 dual-stack multilayer switching
The hardware of the RG-S5300-E series switches supports line-rate IPv4/IPv6 dual-stack multilayer switching, distinguishes and processes IPv4 and IPv6 protocol packets. In that case, the switches can plan networks or maintain network status according to IPv6 network requirements and create IPv6 network communication solutions flexibly. The RG-S5300-E series switches support a wide range of IPv4 routing protocols, including static routing, RIP, OSPFv2, IS-ISv4 and BGP4. Users can select appropriate routing protocols based on network environments to build networks flexibly. The RG-S5300-E series switches also support numerous IPv6 routing protocols, including static routing, Next Generation Routing Information Protocol (RIPng), OSPFv3, IS-ISv6 and BGP4+.
Model | RG-S5300-24GT2SFP2XS-P-E |
Características básicas | |
Puertos fijos | 24 puertos eléctricos adaptables de 10/100/1000 M, 2 puertos SFP de 1 G, 2 puertos SFP+ de 1 G/10 G (la velocidad predeterminada es de 1 Gbps) (Nota: la licencia de software de activación del puerto de enlace ascendente 10G debe adquirirse por separado) |
Capacidad de conmutación | 336 Gb/s/3,36 Tb/s |
Tasa de reenvío de paquetes | 69 Mpps/126 Mpps |
Dirección MAC | 32K |
Tabla ARP | 4K |
Tamaño de la tabla de enrutamiento (IPv4/IPv6) | 8K (IPv4/IPv6) |
Entradas de LCA | In: 3.500 Out: 1,500 |
Funciones de software | |
802.1Q VLAN | Se admiten los siguientes: VLAN 4K 802.1Q VLAN basada en puerto VLAN basada en MAC VLAN privada VLAN de voz GVRP |
QinQ | QinQ basico QinQ flexible |
ACL | Se admiten los siguientes: ACL de IP estándar (ACL de hardware basadas en IP) ACL IP extendidas (ACL de hardware basadas en direcciones IP o ID de puerto TCP/UDP) ACL extendidas basadas en MAC (ACL de hardware basadas en direcciones MAC de origen, direcciones MAC de destino y tipo de Ethernet opcional) ACL basadas en el tiempo ACL de nivel experto (ACL de hardware basadas en combinaciones flexibles de ID de VLAN, tipo de Ethernet, dirección MAC, dirección IP, ID de puerto TCP/UDP, tipo de protocolo y hora) LCA 80 ACL de IPv6 ACL globales Redirección de LCA |
QoS | Se admiten los siguientes: Identificación del tráfico portuario Limitación de la tasa de tráfico portuario Clasificación de tráfico 802.1p/DSCP/ToS Ocho colas de prioridad por puerto Mecanismos de programación de colas SP, WRR, SP+WRR, RED/WRED |
Espejo | Duplicación de uno a uno, duplicación de muchos a uno y duplicación de uno a muchos RSPAN Duplicación local y remota basada en flujo |
DHCP | Se admiten los siguientes: Servidor DHCP cliente DHCP Espionaje de DHCP relé DHCP Indagación DHCP IPv6 Cliente DHCP IPv6 Retransmisión DHCP IPv6 |
Instancias de protocolo de árbol de expansión múltiple (MSTP) | 65 |
Puerto de agregación máximo (AP) | 128 |
Características de seguridad | Se admiten los siguientes: Enlace de 3 tuplas (dirección IP, dirección MAC y puerto) Enlace de 3 tuplas (dirección IPv6, dirección MAC y puerto) Filtrado de direcciones MAC no válidas Autenticación 802.1x basada en puerto y MAC autenticación MAB Autenticación del portal y autenticación del Portal 2.0 Comprobación de ARP DAI Limitación de la tasa de paquetes ARP Prevención de suplantación de ARP de puerta de enlace Supresión de tormentas de difusión Gestión jerárquica de administradores y protección con contraseña RADIO y TACACS+ AAA (IPv4/IPv6) para la gestión de inicio de sesión del dispositivo SSH y SSH V2.0 guardia BPDU Protección de fuente de IP CPP y NFPP Protección portuaria |
ERP | G.8032 v1/v2, Sing-ring, Tangent-ring, Intersecting-ring, Equilibrio de carga, compatible con productos de este protocolo. |
PoE | Se admiten los siguientes: Estándares de fuente de alimentación IEEE 802.3af y 802.3at Modo de gestión de suministro de energía automático y de ahorro de energía Fuente de alimentación ininterrumpida en modo de arranque en caliente Encendido/apagado programado de los puertos PoE según la política de tiempo Prioridad de puerto Nota: Solo RG-S5300-24GT2SFP2XS-PE y RG-S5300-24GT4XS-PE admiten la función PoE. |
Enrutamiento IP | Se admiten los siguientes: Enrutamiento estático IPv4/IPv6 RIP, RIPng, OSPFv2, OSPFv3, BGP e ISIS política de enrutamiento |
IPv6 Protocolo básico | Direccionamiento IPv6, descubrimiento de vecinos (ND), ICMPv6, ping IPv6, Tracert IPv6 y multidifusión IPv6 |
Características de la VSU | Se admiten los siguientes: tecnología VSU Apilamiento local y apilamiento remoto Enlace de enlace entre chasis en una pila Virtualización a través de interfaces de servicio estándar |
Configuración cero | Protocolo de gestión WAN CPE (CWMP(TR069)) |
Funciones de gestión | SNMPv1/v2c/v3, CLI (Telnet/Consola), RMON (1, 2, 3, 9), SSH, Syslog, NTP/SNTP, Web, CLI (Telnet/Consola), RMON, SSH, Syslog/Depuración, NTP /SNTP, FTP, TFTP, Web y sFLOW |
Características físicas | |
Dimensiones (An. × Pr. × Al.) | 442 mm × 220 mm × 43,6 mm |
Altura del estante | 1RU |
MTBF (horas) | >200K |
Fuente de alimentación | Entrada de CA: Rango de voltaje nominal: 100 V a 240 V Rango de voltaje máximo: 90 V a 264 V Frecuencia: 50/60 Hz |
Ventilador | Función de alarma y regulación de la velocidad del ventilador |
El consumo de energía | PoE: <410 W (PoE a plena carga) |
Temperatura | Temperatura de funcionamiento: 0 o C a 45 o C Temperatura de almacenamiento: -40 o C a 70 o C |
Humedad relativa | Humedad de funcionamiento: 10 % a 90 % HR Humedad de almacenamiento: 5% a 95% HR |
Altitud de funcionamiento | 0m a 5,000m |
Protección contra rayos en el puerto de comunicación | 10kV (modo común) |
Protección contra rayos en el puerto de alimentación | Modo común 6KV/Modo diferencial 6KV |
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