3Com 3CRWDR300A-73 Router Manual PDF (Setup & Configuration Guide)

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104

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VLAN

A VLAN is a flexible group of devices that can be located anywhere in a

network, but they communicate as if they are on the same physical

segment. With VLANs, you can segment your network without being

restricted by physical connections - a drawback of traditional network

design. As an example, with VLANs you can segment your network

according to:

■

Departmental groups - For example, you can have one VLAN for the

Marketing department, another for the Finance department, and

another for the Development department.

■

Hierarchical groups - For example, you can have one VLAN for

directors, another for managers, and another for general staff.

■

Usage groups - For example, you can have one VLAN for users of

e-mail, and another for users of multimedia.

The main benefit of VLANs is that they provide a network segmentation

system that is far more flexible than any traditional network. Using VLANs

also provides you with three other benefits:

■

It eases the change and movement of devices on IP networks: With

traditional IP networks, network administrators spend much of their

time dealing with moves and changes. If users move to a different IP

subnet, the IP addresses of each end-station must be updated

manually.

With a VLAN setup, if an end-station in VLAN 1 is moved to a port in

another part of the network, you only need to specify that the new

port forwards VLAN 1 traffic.

■

It provides extra security: Devices within each VLAN can only

communicate directly with devices in the same VLAN. If a device in

VLAN 1 needs to communicate with devices in VLAN 2, the traffic

needs to pass through a routing device or Layer 3 switch.

■

It helps to control broadcast traffic: With traditional networks,

congestion can be caused by broadcast traffic that is directed to all

network devices whether they require it or not. 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.

The VLAN screen allows you to setup VLAN groups. Note that Wireless

LAN is permanently assigned to Default VLAN.

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Advanced

105

Figure 80

VLAN Screen

Click

Add VLAN

to create a new entry (see

Figure 81

).

Figure 81

VLAN Profile Screen

■

Enter a description for your VLAN in the Description field.

■

Enter the IP Address and subnet mask in the corresponding fields.

■

Select to set the NAT Domain as public or private.

■

IGMP Snooping: enabling it will turn on the feature that allows an

Ethernet switch to “listen in” on the IGMP conversation between

hosts and routers.

■

IGMP Querier: enabling this function will send out periodic IGMP

queries.

Click

Apply

.

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Static Routes

You can configure static routes in this screen. You can setup a static route

that will get all traffic with destination to business network to go through

VPN tunnel and the rest outside of the VPN tunnel.

Figure 82

Static Routes Screen

To add a static route entry to the table, click

Add

(see

Figure 83

).

To change an existing entry, click

Edit

. To delete an entry, click

Delete

.

Figure 83

Add Static Route Screen

Enter the following information:

■

Network Address

— the network address of the static route.

■

Subnet Mask

— the subnet mask of the route.

A network address of 0.0.0.0 and a subnet mask of 0.0.0.0 indicates the

default route.

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Advanced

107

■

Gateway

— the Router used to route data to the network specified by

the network address.

■

Interface — select the interface.

Note that you should only configure either the Gateway information or

select the Interface. After you have finished making changes to the table,

click

Apply

.

Here is an example of setting up a static route.

■

IP address of your PC: 10.1.4.52

■

Subnet mask: 255.255.252.0

■

Default Gateway: 10.1.4.254

■

Network Address: 10.1.4.0

Figure 84

Add Static Route Example Screen

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RIP

RIP (Routing Information Protocol) - RIP allows the network administrator

to set up routing information on one RIP-enabled device (this Router),

and send that information to all RIP-enabled devices on the network.

Figure 85

RIP Parameter Screen

You can set up RIP independently on both LAN and WAN interfaces.

1

Check the

Enable RIP

checkbox.

2

Check the

Enable Auto summary

checkbox. Auto summarization sends

simplified routing data to other RIP-enabled devices rather than full

routing data.

3

Select the

Operation Mode

:

■

Disable

— RIP is not enabled for the WAN or LAN interface.

■

Enable

— RIP is enabled for the WAN or LAN interface. The router will

transmit RIP update information to other RIP-enabled devices.

■

Silent

— RIP is enabled, however the Router only receives RIP update

messages, it will not transmit any messages itself.

4

In the

Version

field, select

1

or

2

.

3Com recommends that you only use RIPv1 if there is an existing

RIP-enabled device on your network that does not support RIPv2. In all

other cases, you should use RIPv2.

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