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User’s Manual of FGSW-2620VM / FGSW-2620PVM
137
6.5 VLAN Configuration
6.5.1 Virtual LANs
A Virtual LAN (VLAN) is a logical network group that limits the broadcast domain. It allows you to isolate network traffic so
only members of the VLAN receive traffic from the same VLAN members. Basically, creating a VLAN within a switch is
logically equivalent of reconnecting a group of network devices to another Layer 2 switch. However, all the network devices
are still plugged into the same switch physically. A station can belong to more than one VLAN group. VLAN prevents users
from accessing network resources of another on the same LAN, thus the users can not see the hard disks and printers of
another user in the same building. VLAN can also increase the network performance by reducing the broadcast traffic and
enhance the security of the network by isolating groups.
The FGSW-2620VM / FGSW-2620PVM support two types of VLANs:
Port-based
IEEE 802.1Q (tag) –based
Only one of the two VLAN types can be enabled at one time.
Port-based VLANs are VLANs where the packet forwarding decision is made based on the destination MAC address and
its associated port. You must define the outgoing ports allowed for each port when you use port-based VLANs. In
port-based VLANs, the packets received from one port can only be sent to the ports which are configured to the same
VLAN. As shown in the following figure, the switch administrator configured port 1~2 as VLAN 1 and port 3~4 as VLAN 2.
The packets received from port 1 can only be forwarded to port 2. The packets received from port 2 can only be forwarded
to port 1. That means the computer A can send packets to computer B, and vice versa. The same situation also occurred in
VLAN 2. The computer C and D can communicate with each other. However, the computers in VLAN 1 can not see the
computers in VLAN 2 since they belonged to different VLANs.
IEEE 802.1Q (tag) -based VLANs enable the Ethernet functionality to propagate tagged packets across the bridges and
provides a uniform way for creating VLAN within a network then span across the network. For egress packet, you can
choose to tag it or not with the associated VLAN ID of this port. For ingress packet, you can forward this packet to a specific
port as long as it is also in the same VLAN group.
The 802.1Q VLAN works by using a tag added to the Ethernet packets. The tag contains a VLAN Identifier (VID) which
belongs to a specific VLAN group. And ports can belong to more than one VLAN.
The difference between a port-based VLAN and a tag-based VLAN is that the tag-based VLAN truly divided the network
into several logically connected LANs. Packets rambling around the switches can be forwarded more intelligently. In the
figure shown below, by identifying the tag, broadcast packets coming from computer A in VLAN1 at sw1 can be forwarded
directly to VLAN1.
However, the switch could not be so smart in the port-based VLAN mechanism. Broadcast packets will also be forwarded to
port 4 of sw2. It means the port-based VLAN can not operate a logical VLAN group among switches.
The FGSW-2620VM / FGSW-2620PVM support both Port-based VLAN and Tag-based (802.1Q) VLAN modes. The default