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Moxa

Ethernet Switch EDS 510E-3GTXSFP

Advanced Managed Gigabit Ethernet switch with 7 + 3G SFP ports

Datasheet
$1,698.22
9% Tax included Shipping calculated at checkout.

- 2 Gigabit Ethernet ports for redundant ring and 1 Gigabit Ethernet port for uplink solution
- Turbo Ring and Turbo Chain (recovery time; 20 ms @ 250 switches), RSTP/STP, and MSTP for network redundancy
- EtherNet/IP, PROFINET, and Modbus/TCP protocols supported for device management and monitoring
- Command Line Interface (CLI) for fast configuration of major management functions
- RADIUS, TACACS+, SNMPv3, IEEE 802.1X, HTTPS, and SSH to enhance network security
- IPv6 certified
- IEEE 1588 PTP V2 (Precision Time Protocol) for precise time synchronisation of networks
- DHCP Option 82 for IP address assignment with different policies
- Supports EtherNet/IP, PROFINET, and Modbus/TCP protocols for device management and monitoring
- IGMP snooping and GMRP for filtering multicast traffic
- Port-based VLAN, IEEE 802.1Q VLAN, and GVRP to ease network planning
- QoS (IEEE 802.1p/1Q) and TOS/DiffServ to increase determinism
- Port Trunking for optimum bandwidth utilization
- SNMPv1/v2c/v3 for different levels of network management
- RMON for efficient network monitoring and proactive capability
- Bandwidth management prevents unpredictable network status
- Lock port function for blocking unauthorized access based on MAC address
- Automatic warning by exception through e-mail, relay output
- Configurable by web browser, Telnet/USB console, CLI, MXconfig, and ABC-02 automatic backup configurator.

Moxa EDS-510E series are plug-and-play managed redundant Ethernet switches. The proprietary Turbo Ring protocol was developed by Moxa to provide better network reliability and faster recovery time. 

Moxa EDS-510E Gigabit managed Ethernet switches are designed to meet rigorous mission-critical applications, such as factory automation, ITS, and process control. The 3 Gigabit Ethernet ports allow great flexibility to build up a Gigabit redundant Turbo Ring and a Gigabit uplink. The switches have USB interfaces for switch configuration, system file backup, and firmware upgrade, making them easier to manage.

10/100BaseT(X) Ethernet Port Connection 

The 10/100BaseT(X) ports located on Moxa EDS-510E’s front panel are used to connect to Ethernet-enabled devices. Most users configure these ports for Auto MDI/MDI-X mode, in which case the port’s pinouts are adjusted automatically depending on the type of Ethernet cable used (straight-through or cross-over), and the type of device (NIC-type or HUB/Switch-type) connected to the port. 

100/1000BaseSFP (mini-GBIC) Fiber Port

The gigabit Ethernet ports on the EDS-510E are 100/1000BaseSFP Fiber ports, which require using the 100M or 1G mini-GBIC fiber transceivers to work properly. Moxa provides completed transceiver models for different distance requirement. The concept behind the LC port and cable is quite straightforward. Suppose that you are connecting devices I and II; contrary to electrical signals, optical signals do not require a circuit in order to transmit data. Consequently, one of the optical lines is used to transmit data from device I to device II, and the other optical line is used transmit data from device II to device I, for full-duplex transmission.

 

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Moxa

Ethernet Switch EDS 510E-3GTXSFP

$1,698.22

- 2 Gigabit Ethernet ports for redundant ring and 1 Gigabit Ethernet port for uplink solution
- Turbo Ring and Turbo Chain (recovery time; 20 ms @ 250 switches), RSTP/STP, and MSTP for network redundancy
- EtherNet/IP, PROFINET, and Modbus/TCP protocols supported for device management and monitoring
- Command Line Interface (CLI) for fast configuration of major management functions
- RADIUS, TACACS+, SNMPv3, IEEE 802.1X, HTTPS, and SSH to enhance network security
- IPv6 certified
- IEEE 1588 PTP V2 (Precision Time Protocol) for precise time synchronisation of networks
- DHCP Option 82 for IP address assignment with different policies
- Supports EtherNet/IP, PROFINET, and Modbus/TCP protocols for device management and monitoring
- IGMP snooping and GMRP for filtering multicast traffic
- Port-based VLAN, IEEE 802.1Q VLAN, and GVRP to ease network planning
- QoS (IEEE 802.1p/1Q) and TOS/DiffServ to increase determinism
- Port Trunking for optimum bandwidth utilization
- SNMPv1/v2c/v3 for different levels of network management
- RMON for efficient network monitoring and proactive capability
- Bandwidth management prevents unpredictable network status
- Lock port function for blocking unauthorized access based on MAC address
- Automatic warning by exception through e-mail, relay output
- Configurable by web browser, Telnet/USB console, CLI, MXconfig, and ABC-02 automatic backup configurator.

Moxa EDS-510E series are plug-and-play managed redundant Ethernet switches. The proprietary Turbo Ring protocol was developed by Moxa to provide better network reliability and faster recovery time. 

Moxa EDS-510E Gigabit managed Ethernet switches are designed to meet rigorous mission-critical applications, such as factory automation, ITS, and process control. The 3 Gigabit Ethernet ports allow great flexibility to build up a Gigabit redundant Turbo Ring and a Gigabit uplink. The switches have USB interfaces for switch configuration, system file backup, and firmware upgrade, making them easier to manage.

10/100BaseT(X) Ethernet Port Connection 

The 10/100BaseT(X) ports located on Moxa EDS-510E’s front panel are used to connect to Ethernet-enabled devices. Most users configure these ports for Auto MDI/MDI-X mode, in which case the port’s pinouts are adjusted automatically depending on the type of Ethernet cable used (straight-through or cross-over), and the type of device (NIC-type or HUB/Switch-type) connected to the port. 

100/1000BaseSFP (mini-GBIC) Fiber Port

The gigabit Ethernet ports on the EDS-510E are 100/1000BaseSFP Fiber ports, which require using the 100M or 1G mini-GBIC fiber transceivers to work properly. Moxa provides completed transceiver models for different distance requirement. The concept behind the LC port and cable is quite straightforward. Suppose that you are connecting devices I and II; contrary to electrical signals, optical signals do not require a circuit in order to transmit data. Consequently, one of the optical lines is used to transmit data from device I to device II, and the other optical line is used transmit data from device II to device I, for full-duplex transmission.

 

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