Configuring Vlans; Vlan Overview; Vlan Fundamentals - HP 1910 User Manual

Configuring VLANs

VLAN overview

Ethernet is a network technology based on the Carrier Sense Multiple Access/Collision Detect
(CSMA/CD) mechanism. As the medium is shared, collisions and excessive broadcasts are common on
an Ethernet. To address the issue, virtual LAN (VLAN) was introduced to break a LAN down into separate
VLANs. VLANs are isolated from each other at Layer 2. A VLAN is a bridging domain, and all broadcast
traffic is contained within it, as shown in
Figure 134 A VLAN diagram
A VLAN is logically divided on an organizational basis rather than on a physical basis. For example, all
workstations and servers used by a particular workgroup can be assigned to the same VLAN, regardless
of their physical locations.
VLAN technology delivers the following benefits:
Confining broadcast traffic within individual VLANs. This reduces bandwidth waste and improves
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network performance.
Improving LAN security. By assigning user groups to different VLANs, you can isolate them at Layer
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2. To enable communication between VLANs, routers or Layer 3 switches are required.
Flexible virtual workgroup creation. As users from the same workgroup can be assigned to the same
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VLAN regardless of their physical locations, network construction and maintenance is much easier
and more flexible.

VLAN fundamentals

To enable a network device to identify frames of different VLANs, a VLAN tag field is inserted into the
data link layer encapsulation. The format of VLAN-tagged frames is defined in Institute of Electrical and
Electronics Engineers (IEEE) 802.1Q- 1 999.
In the header of a traditional Ethernet data frame, the field after the destination MAC address and the
source MAC address is the Type field indicating the upper layer protocol type, as shown in
Figure 134.
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Figure 135.