Moxa EDS-518E-4GTXSFP-T [52/116] Benefits of vlans
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Moxa EDS-518E-4GTXSFP-T [52/116] Benefits of vlans

Moxa EDS-518E-4GTXSFP-T [52/116] Benefits of vlans
Managed Ethernet Switch (UI_2.0_FW_5.x) Featured Functions
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Benefits of VLANs
The main benefit of VLANs is that they provide a network segmentation system that is far more flexible than
traditional networks. Using VLANs also provides you with three other benefits:
VLANs ease the relocation of devices on networks: With traditional networks, network administrators
spend much of their time dealing with moves and changes. If users move to a different subnetwork, the
addresses of each host must be updated manually. With a VLAN setup, if a host originally on the Marketing
VLAN, is moved to a port on another part of the network, and retains its original subnet membership, you
only need to specify that the new port is on the Marketing VLAN. You do not need to do any re-cabling.
VLANs provide extra security: Devices within each VLAN can only communicate with other devices on
the same VLAN. If a device on the Marketing VLAN needs to communicate with devices on the Finance VLAN,
the traffic must pass through a routing device or Layer 3 switch.
VLANs help control traffic: With traditional networks, congestion can be caused by broadcast traffic that
is directed to all network devices, regardless of whether or not they need it. VLANs increase the efficiency
of your network because each VLAN can be set up to contain only those devices that need to communicate
with each other.
VLANs and the Rackmount switch
Your Moxa switch provides support for VLANs using IEEE Std 802.1Q-1998. This standard allows traffic from
multiple VLANs to be carried across one physical link. The IEEE Std 802.1Q-1998 standard allows each port on
your Moxa switch to be placed as follows:
On a single VLAN defined in the Moxa switch
On several VLANs simultaneously using 802.1Q tagging
The standard requires that you define the 802.1Q VLAN ID for each VLAN on your Moxa switch before the switch
can use it to forward traffic:
Managing a VLAN
A new or initialized Moxa switch contains a single VLANthe Default VLAN. This VLAN has the following
definition:
VLAN NameManagement VLAN
802.1Q VLAN ID1 (if tagging is required)
All the ports are initially placed on this VLAN, and it is the only VLAN that allows you to access the management
software of the Moxa switch over the network.
Communication Between VLANs
If devices connected to a VLAN need to communicate with devices on a different VLAN, a router or Layer 3
switching device with connections to both VLANs needs to be installed. Communication between VLANs can
only take place if they are all connected to a routing or Layer 3 switching device.
VLANs: Tagged and Untagged Membership
The Moxa switch supports 802.1Q VLAN tagging, a system that allows traffic for multiple VLANs to be carried
on a single physical link (backbone, trunk). When setting up VLANs you need to understand when to use
untagged or tagged membership of VLANs. Simply put, if a port is on a single VLAN it can be an untagged
member, but if the port needs to be a member of multiple VLANs, a tagged membership must be defined.
A typical host (e.g., clients) will be an untagged member of one VLAN, defined as an Access Port in a Moxa
switch, while an inter-switch connection will be a tagged member of all VLANs, defined as a Trunk Port in a
Moxa switch.
The IEEE Std 802.1Q-1998 defines how VLANs operate within an open packet-switched network. An 802.1Q
compliant packet carries additional information that allows a switch to determine which VLAN the port belongs
to. If a frame is carrying the additional information, it is known as a tagged frame.
To carry multiple VLANs across a single physical link (backbone, trunk), each packet must be tagged with a
VLAN identifier so that the switches can identify which packets belong in which VLAN. To communicate between
VLANs, a router must be used.

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