Ruby Tech ES-2310Q manual

Fast

ES-2310Q

ES-2310Q:

10-Port L2 Managed Fast Ethernet Switch with 2 100Base-FX Ports

Switch Ethernet

Key Features

Standard compliance

---IEEE 802.3 10Base-T

---IEEE 802.3u 100Base-TX

---IEEE 802.3x Flow Control Capability

---ANSI/IEEE 802.3 Auto-negotiation

---IEEE 802.1q VLAN

RoHS Compliance

Subscriber Interface

---1-8 10/100Mbps Fast Ethernet ports.

---9,10 are Fast Ethernet Fiber ports with SEP module

---Auto-Negotiation and Auto-MDIX

---Back pressure flow control for half duplex.

---IEEE 802.3x flow control for full duplex

---Connector: 8 ports RJ-45 and 2 ports Fiber (SEP)

Performance

Switching capacity:

---Non-blocking switch fabric supports up to 8 FE+2 SEP ports

---8 K MAC addresses

---256K packet buffer and 128K control memory

VSM(Virtual Stacking Management)

---Supports 16 devices stacking

---Multiple switches can be managed via one IP address, just like software stacking

---Low cost and easily to establish network environment, not extra hardware require

---Not center on the physical location of wiring closets

---In tag-base VLAN, supports egress/ ingress packet filter

---Q-in-Q is an efficient method for enabling Subscriber Aggregation

QoS

---Port Based (VIP Port), 802.1p , TOS and Diffserv(IPv4/IPv6) based QoS packet classification

---Supports four level priority queues to prioritize in-bound and out-bound traffic

Benefits

QoS with four priority queues

The QoS(Quality Of Service) feature provides four internal queues to support four different classifications of traffic. High priority packet streams experience less delay inside the switch, which supports lower latency for certain delay-sensitive traffic. The ES-2310Q can classify the packet as one of the four priorities according to vip port, 802.1p priority tag, DiffServ and/or IP TOS. The QoS operate at full wire speed. The actual scheduling at each egress port can be based upon a strict priority, weighted round robin or a mix of both.

Port Mirroring

This mechanism helps track network errors or abnormal packet transmission without interrupting the flow of data. Allow ingress traffic to be monitored by a single port that is defined as mirror capture port. The mirror capture port can be any 10/100 port, 10/100/1000 port. Mirroring multiple ports is possible but can create congestion at the mirror capture port.

Q-in-Q VLAN for performance & security

The VLAN feature in the switch offers the benefits of both security and performance. VLAN is used to isolate traffic between different users and thus provides better security. Limiting the broadcast traffic to within the same VLAN broadcast domain also enhances performance. Q-in-Q, the use of double VLAN tags is an efficient method for enabling Subscriber Aggregation. This is very useful in the MAN.

Isolated Group, provides protection for certain ports

The isolated group feature allows certain ports to be designated as protected. All other ports are non-isolated. Traffic between isolated group members is blocked.

Traffic can only be sent from isolated group to non-isolated group.

Mac-based 802.ad LACP with automatic link fail-over

Dynamic fail-over means packets will not get assigned to any trunk member port that has failed. If one of the ports were to fail, traffic will automatically get distributed to the remaining active ports.

802.1x Access Control improves network security

802.1x features enable user authentication for each network access attempt. Port security features allow you to limit the number of MAC addresses per port in order to control the number of stations for each port. Static MAC addresses can be defined for each port to ensure only registered machines are allowed to access. By enabling both of these features, you can establish an access mechanism based on user and machine identities, as well as control the number of access stations.

802.1d Compatible & 802.1w Rapid Spanning Tree

For mission critical environments with multiple switches supporting STP, you can configure the switches with a redundant backup bridge path, so transmission and reception of packets can be guaranteed in event of any fail- over switch on the network.