User guide
Table Of Contents
- Introduction
- Installation and Initialization
- System Status
- Advanced Configuration
- System
- Network
- Interfaces
- Management
- Filtering
- Alarms
- Bridge
- QoS
- Radius Profiles
- SSID/VLAN/Security
- Monitoring
- Commands
- Troubleshooting
- Command Line Interface (CLI)
- General Notes
- Command Line Interface (CLI) Variations
- CLI Command Types
- Using Tables and Strings
- Configuring the AP using CLI commands
- Set Basic Configuration Parameters using CLI Commands
- Set System Name, Location and Contact Information
- Set Static IP Address for the AP
- Change Passwords
- Set Network Names for the Wireless Interface
- Enable 802.11d Support and Set the Country Code
- Enable and Configure TX Power Control for the Wireless Interface
- Configure SSIDs (Network Names), VLANs, and Profiles
- Download an AP Configuration File from your TFTP Server
- Backup your AP Configuration File
- Set up Auto Configuration
- Other Network Settings
- Configure the AP as a DHCP Server
- Configure the DNS Client
- Configure DHCP Relay
- Configure DHCP Relay Servers
- Maintain Client Connections using Link Integrity
- Change Wireless Interface Settings
- Set Ethernet Speed and Transmission Mode
- Set Interface Management Services
- Configure Syslog
- Configure Intra BSS
- Configure Wireless Distribution System
- Configure MAC Access Control
- Set RADIUS Parameters
- Set Rogue Scan Parameters
- Set Hardware Configuration Reset Parameters
- Set VLAN/SSID Parameters
- Set Security Profile Parameters
- CLI Monitoring Parameters
- Parameter Tables
- CLI Batch File
- ASCII Character Chart
- Specifications
- Technical Services and Support
- Statement of Warranty
Advanced Configuration AP-700 User Guide
SSID/VLAN/Security
106
Figure 4-45 Components of a Typical VLAN
VLAN Workgroups and Traffic Management
Access Points that are not VLAN-capable typically transmit broadcast and multicast traffic to all wireless Network
Interface Cards (NICs). This process wastes wireless bandwidth and degrades throughput performance. In comparison,
a VLAN-capable AP is designed to efficiently manage delivery of broadcast, multicast, and unicast traffic to wireless
clients.
The AP assigns clients to a VLAN based on a Network Name (SSID). The AP can support up to 16 SSIDs per radio, with
a unique VLAN configurable per SSID.
The AP matches packets transmitted or received to a network name with the associated VLAN. Traffic received by a
VLAN is only sent on the wireless interface associated with that same VLAN. This eliminates unnecessary traffic on the
wireless LAN, conserving bandwidth and maximizing throughput.
In addition to enhancing wireless traffic management, the VLAN-capable AP supports easy assignment of wireless users
to workgroups. In a typical scenario, each user VLAN represents a workgroup; for example, one VLAN could be used for
an EMPLOYEE workgroup and the other for a GUEST workgroup.
In this scenario, the AP would assign every packet it accepted to a VLAN. Each packet would then be identified as
EMPLOYEE or GUEST, depending on which wireless NIC received it. The AP would insert VLAN headers or “tags” with
identifiers into the packets transmitted on the wired backbone to a network switch.
Finally, the switch would be configured to route packets from the EMPLOYEE workgroup to the appropriate corporate
resources such as printers and servers. Packets from the GUEST workgroup could be restricted to a gateway that
allowed access to only the Internet. A member of the GUEST workgroup could send and receive e-mail and access the
Internet, but would be prevented from accessing servers or hosts on the local corporate network.
Typical User VLAN Configurations
VLANs segment network traffic into workgroups, which enable you to limit broadcast and multicast traffic. Workgroups
enable clients from different VLANs to access different resources using the same network infrastructure. Clients using the
same physical network are limited to those resources available to their workgroup.
The AP can segment users into a maximum of 16 different workgroups, based on an SSID/VLAN grouping (also referred
as a VLAN Workgroup or a Sub-network).
The primary scenarios for using VLAN workgroups are as follows: