Ruijie RG-S5300-48GT4XS-E - Manageable 10 GB Layer 3 Switch with 48 RJ45 gigabit and 4 SFP+
Ruijie RG-S5300-48GT4XS-E - Manageable 10 GB Layer 3 Switch with 48 RJ45 gigabit and 4 SFP+
Ruijie - RG-S5300-48GT4XS-E /shop/product/rg-s5300-48gt4xs-e-ruijie-rg-s5300-48gt4xs-e-manageable-10-gb-layer-3-switch-with-48-rj45-gigabit-and-4-sfp-18109Switch de 48 puertos Gigabit 10/100/1000M y 4 puertos 1G/10G SFP+
Ruijie RG-S5300-48GT4XS-E – Switch 48 puertos 10/100/1000M / 4 puertos 1G/10G SFP+
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.
Políticas de protección de seguridad de sonido
Viruses or Address Resolution Protocol (ARP) attacks are a common and influential type of network attack. These switches support ARP spoofing prevention in multiple modes. Regardless of whether clients obtain addresses automatically from the DHCP server or use static IP addresses, these 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.
They are able to actively defend against various distributed denial of service (DDoS) attacks on networks. Switches 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 switches.
In addition, they 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.
La indagación DHCP permite que los switches de la serie RG-S5300-E reciban respuestas DHCP solo de puertos confiables y evitan la suplantación de identidad de servidores DHCP no autorizados. Con la indagación de DHCP, los switches monitorean dinámicamente los paquetes ARP, verifican las direcciones IP de los usuarios y descartan los paquetes ilegítimos que no coinciden con las entradas vinculadas, lo que previene de manera efectiva la suplantación de ARP y la dirección IP de origen.
Unidad de conmutación virtual
These switches support Virtual Switching Unit (VSU), where 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.
Gestión simplificada: los administradores pueden gestionar varios switches de forma unificada, sin necesidad de conectarse a cada switch para la configuración y la gestión.
Topología de red simplificada: una VSU sirve como switch en una red y se conecta a dispositivos periféricos a través de enlaces agregados. Por lo tanto, no existe un bucle de capa 2 y no es necesario configurar el protocolo de árbol de expansión múltiple (MSTP). Varios protocolos de control se ejecutan en la VSU.
Recuperación de fallas en milisegundos: una VSU se conecta a dispositivos periféricos a través de enlaces agregados. Si un dispositivo o enlace de miembro en la VSU no funciona correctamente, los datos y servicios se pueden cambiar a otro enlace de miembro en solo 50 a 200 milisegundos.
Alta escalabilidad: los dispositivos de usuario se pueden agregar o eliminar de una red virtualizada en forma de "intercambio en caliente", sin afectar el funcionamiento normal de otros dispositivos.
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
El protocolo de árbol de expansión (STP), el protocolo de árbol de expansión rápido (RSTP) y el MSTP ayudan a los switches de la serie RG-S5300-E a lograr una convergencia rápida, mejorar la capacidad de tolerancia a fallas y garantizar una operación de red estable y equilibrio de carga de los enlaces. Los switches utilizan los canales de red de manera adecuada parafredun aumentar la utilización de enlaces redundantes.
El Protocolo de redundancia de router virtual (VRRP) ayuda a los switches a garantizar de manera efectiva la estabilidad de la red.
Con el Protocolo de detección de enlace rápido (RLDP), los switches pueden detectar rápidamente la conectividad del enlace y los enlaces de fibra óptica unidireccionales. La función de detección de bucle de puerto ayuda a los switches a evitar fallas en la red causadas por bucles resultantes de una conexión de puerto no autorizada a los concentradores.
These 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 controlling device, and non-controlling devices report their link status directly to the controlling 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.
Cuando STP está deshabilitado, el Protocolo de protección de enlace rápido (RLDP) aún puede proporcionar redundancia de enlace básica y recuperación de fallas de nivel de milisegundos más rápido que STP.
Con la Detección de reenvío bidireccional (BFD), los switches pueden detectar enlaces en milisegundos y converger rápidamente el enrutamiento y otros servicios a través de la correlación con protocolos de enrutamiento de capa superior, lo que garantiza la continuidad de los servicios.
Redes definidas por software (SDN)
La serie RG-S5300-E es compatible con OpenFlow 1.3 según lo requieran los tiempos y colaborará con el controlador SDN de Ruijie para construir fácilmente redes L2/L3 a gran escala. Los switches le permiten actualizar sin problemas toda la red a una red SDN y proporcionar control de acceso, operación y mantenimiento visualizados y otras funciones de SDN. Los productos reducen en gran medida los costos de operación y mantenimiento de la red al tiempo que simplifican significativamente la administración de la red.
Eficiencia energética
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.
Fácil mantenimiento de la red
Los switches de la serie RG-S5300-E son compatibles con el Protocolo simple de administración de redes (SNMP), el Monitoreo remoto de redes (RMON), Syslog, Sampled Flow (sFlow), registro y copia de seguridad de configuración mediante unidades flash USB para el diagnóstico y mantenimiento de red de rutina. Los administradores también pueden usar CLI, administración basada en web, telnet, configuración cero basada en el protocolo de administración WAN CPE (CWMP(TR069) y otros métodos para administrar y mantener los dispositivos de manera conveniente.
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 switches.
Conmutación multicapa de doble pila IPv4/IPv6
El hardware de estos switches es compatible con la conmutación multicapa de doble pila IPv4/IPv6 de velocidad de línea, distingue y procesa los paquetes de protocolo IPv4 e IPv6. En ese caso, los switches pueden planificar redes o mantener el estado de la red según los requisitos de la red IPv6 y crear soluciones de comunicación de red IPv6 de manera flexible. Admiten una amplia gama de protocolos de enrutamiento IPv4, incluido el enrutamiento estático, RIP, OSPFv2, IS-ISv4 y BGP4. Los usuarios pueden seleccionar los protocolos de enrutamiento apropiados en función de los entornos de red para construir redes de manera flexible. También admiten numerosos protocolos de enrutamiento IPv6, incluido el enrutamiento estático, el Protocolo de información de enrutamiento de próxima generación (RIPng), OSPFv3, IS-ISv6 y BGP4+.
Model | RG-S5300-48GT4XS-E |
Basic Features | |
Fixed Ports | 48 x 10/100/1000M adaptive electrical ports, 4 x 1G/10G SFP+ ports |
Switching Capacity | 432 G/4.32 Tbps |
Packet Forwarding Rate | 144 Mpps/166 Mpps |
MAC Address | 32K |
ARP Table | 4K |
Routing Table Size (IPv4/IPv6) | 8K (IPv4/IPv6) |
ACL Entries | In: 3,500 Out: 1,500 |
Software Features | |
802.1Q VLAN | The following are supported: 4K 802.1Q VLAN Port-based VLAN MAC-based VLAN Private VLAN Voice VLAN GVRP |
QinQ | Basic QinQ Flexible QinQ |
ACL | The following are supported: Standard IP ACLs (IP-based hardware ACLs) Extended IP ACLs (hardware ACLs based on IP addresses or TCP/UDP port IDs) MAC-based extended ACLs (hardware ACLs based on source MAC addresses, destination MAC addresses, and optional Ethernet type) Time-based ACLs Expert-level ACLs (hardware ACLs based on flexible combinations of the VLAN ID, Ethernet type, MAC address, IP address, TCP/UDP port ID, protocol type, and time) ACL 80 IPv6 ACLs Global ACLs ACL redirection |
QoS | The following are supported: Port traffic identification Port traffic rate limiting 802.1p/DSCP/ToS traffic classification Eight priority queues per port SP, WRR, SP+WRR, RED/WRED queue scheduling mechanisms |
Mirror | One-to-one mirroring, many-to-one mirroring, and one-to-many mirroring RSPAN Flow-based local and remote mirroring |
DHCP | The following are supported: DHCP server DHCP client DHCP snooping DHCP relay IPv6 DHCP snooping IPv6 DHCP client IPv6 DHCP relay |
Multiple Spanning Tree Protocol (MSTP) Instances | 65 |
Maximum Aggregation Port (AP) | 128 |
Security Features | The following are supported: 3-tuple binding (IP address, MAC address, and port) 3-tuple binding (IPv6 address, MAC address, and port) Filtering of invalid MAC addresses Port- and MAC-based 802.1x authentication MAB authentication Portal authentication and Portal 2.0 authentication ARP-check DAI ARP packet rate limiting Gateway ARP spoofing prevention Broadcast storm suppression Hierarchical management of administrators and password protection RADIUS and TACACS+ AAA (IPv4/IPv6) for device login management SSH and SSH V2.0 BPDU guard IP source guard CPP, and NFPP Port protection |
ERPS | G.8032 v1/v2, Sing-ring, Tangent-ring, Intersecting-ring, Load balancing, compatible with products of this protocol. |
PoE | The following are supported: IEEE 802.3af and 802.3at power supply standards Automatic and energy saving power supply management mode Uninterrupted power supply in hot start mode Scheduled powering on /off PoE ports on the basis of time policy Port priority Note: Only RG-S5300-24GT2SFP2XS-P-E and RG-S5300-24GT4XS-P-E support the PoE function. |
IP Routing | The following are supported: IPv4/IPv6 static routing RIP, RIPng, OSPFv2, OSPFv3, BGP, and ISIS Routing policy |
IPv6 Basic Protocol | IPv6 addressing, Neighbor Discovery (ND), ICMPv6, IPv6 ping, IPv6 Tracert, and IPv6 multicast |
VSU Features | The following are supported: VSU technology Local stacking and remote stacking Inter-chassis link binding in a stack Virtualization via standard service interfaces |
Zero Configuration | CPE WAN Management Protocol (CWMP(TR069)) |
Management Features | SNMPv1/v2c/v3, CLI(Telnet/Console), RMON(1, 2, 3, 9), SSH, Syslog, NTP/SNTP, Web, CLI(Telnet/Console), RMON, SSH, Syslog/Debug, NTP/SNTP, FTP, TFTP, Web, and sFLOW |
Physical Features | |
Dimensions (W × D × H) | 442 mm × 220 mm × 43.6 mm |
Rack Height | 1RU |
MTBF (hours) | >200K |
Power Supply | AC input: Rated voltage range: 100 V to 240 V Maximum voltage range: 90 V to 264 V Frequency: 50/60 Hz |
Fan | Fan speed regulating and alarm function |
Power Consumption | Non PoE: ≤40 W PoE: <410 W (PoE full load) |
Temperature | Operating temperature: 0oC to 45oC Storage temperature: -40oC to 70oC |
Relative Humidity | Operating humidity: 10% to 90%RH Storage humidity: 5% to 95%RH |
Operating Altitude | 0m to 5,000m |
Lightening Protection on Communication Port | 10kV (Common Mode) |
Lightning Protection on Power Port | Common Mode 6KV/Differential Mode 6KV |
Una vez que el usuario haya visto al menos un producto, este fragmento será visible.