ESW1L3: Layer 3 Managed Access Switch
Produkt Highlights
- Various interface types and 10GE uplinks
- L3 access switch with RIP/BGP/OSPF, VRFs and QoS
- PoE/PoE+ models
- Enterprise-class high reliability for corporations
- High-bandwidth, low-latency and flexibility
- Rectifies faults with non-stop services
- Energy Efficiency
Einführung
The ESW1L3 series are next-generation gigabit Ethernet switches launched by Teldat according to its design philosophy of security, high efficiency, energy saving, and independent innovation. This series can provide full gigabit access and flexibly extensible 10G uplink data exchanges. With a new hardware architecture and the latest modular OS, the ESW1L3 series are capable of providing more resource entries, faster hardware processing, and a better user experience
Wettbewerbsvorteile
Full gigabit access to LANs
Ready for large enterprises, institutions, and campuses, such as the LANs in government buildings,
universities, and big manufacturing/energy/other organizations
10Gbps interfaces for uplink
The interconnection between switches/routers cannot be a bottleneck, high-speed interfaces avoid this problem, satisfying high-bandwidth requirements.
Low requirements for the installation
Multiple configuration methods make these switches the optimal LAN solution for offices, offering IT managers an agile and fast installation.
High scalability and simplified topology
User devices can be added to or removed from a virtualized network in a "hot swap" manner, without affecting the normal operation of other devices
Beschreibung
The ESW1L3 series are next-generation gigabit Ethernet switches launched by Teldat according to its design philosophy of security, high efficiency, energy saving, and independent innovation. This series can provide full gigabit access and flexibly extensible 10G uplink data exchanges. With a new hardware architecture and the latest modular OS, the ESW1L3 series are capable of providing more resource entries, faster hardware processing, and a better user experience
They can be used in smart classrooms, multimedia classrooms, offices, clinic wards, mini branches, and other wiring-limited environments of the education, medical, enterprise-class, and commercial customers. They provide nearby access and ultrahigh bandwidth for mass Internet of things (IoT) terminals and other IP information points such as wireless cameras, ultra HD digital video cameras, and intelligent electronic bedside screens.
The ESW1L3 series are next-generation gigabit Ethernet switches launched by Teldat according to its design philosophy of security, high efficiency, energy saving, and independent innovation. This series can provide full gigabit access and flexibly extensible 10G uplink data exchanges. With a new hardware architecture and the latest modular OS, the ESW1L3 series are capable of providing more resource entries, faster hardware processing, and a better user experience
They can be used in smart classrooms, multimedia classrooms, offices, clinic wards, mini branches, and other wiring-limited environments of the education, medical, enterprise-class, and commercial customers. They provide nearby access and ultrahigh bandwidth for mass Internet of things (IoT) terminals and other IP information points such as wireless cameras, ultra HD digital video cameras, and intelligent electronic bedside screens.
Hauptmerkmale
The ESW1L3 adopts the Network Foundation Protection Policy (NFPP) technology to rate-limit ARP packets, ICMP request packets, DHCP Request messages, etc ensuring network stability.
The ESW1L3 supports STP, RSTP, and MSTP to achieve fast convergence, improve the fault tolerance capability, ensure stable network operation(with RLDP), and link load balancing.
VSU enables multiple physical devices to be connected through aggregate links and virtualized into one logical device, using the same IP address and enhancing network management.
The ESW1L3 includes a wide range of IPv4 protocols: IPv4 static routing, RIP, OSPFv2, IS-ISv4, and BGP4. Additionally, it also supports IPv6 protocols such as IPv6 static routing, RIPng, OSPFv3, IS-ISv6, and BGP4+.