User's Manual
Table Of Contents
- Table of Contents
- List of Figures
- Introduction
- Installing the Wireless Array
- Installation Prerequisites
- Planning Your Installation
- Installation Workflow
- Installing Your Wireless Array
- Powering Up the Wireless Array
- Establishing Communication with the Array
- Entering the License
- Performing the Express Setup Procedure
- The Web Management Interface
- Viewing Status on the Wireless Array
- Configuring the Wireless Array
- Express Setup
- Network
- Services
- VLANs
- Tunnels
- Security
- SSIDs
- Groups
- IAPs
- WDS
- Filters
- Clusters
- Using Tools on the Wireless Array
Wireless Array
Introduction 3
used (for example, XR-4830). The Wireless Array’s operating system is referred to
as the ArrayOS. The Web Management Interface for browser-based management
of the Array is referred to as WMI.
The XR Series Arrays have very flexible radio capabilities — each of the radios
may be independently configured to support IEEE802.11a, 11b, 11g, or 11n clients
or a combination of client types. One radio is typically assigned as the RF monitor
radio, supporting intrusion detection and prevention, self-monitoring, and other
services. Radios support both 2.4GHz and 5 GHz, and are named iap1, iap2, ...
iapn.
The XN series of Arrays have two types of radios — the 5 GHz 802.11a/n radios
are named an1 through an12 (for 16-port models). The 802.11a/b/g/n radios are
named abgn1 to abgn4, and they also support both 2.4GHz and 5 GHz.
The Xirrus Management System is referred to as XMS. The Power over Gigabit
Ethernet system may be referred to as PoGE.
Why Choose the Xirrus Wireless Array?
The deployment of wireless is a necessity as businesses strive for greater
flexibility in the workplace and the need for employee mobility rises. The user
community is placing spiraling and often unanticipated demands on the wireless
network, with the rapid proliferation of devices such as iPads and wireless
enabled phones. Xirrus Wireless Arrays have the capability to support the large
number of user devices present in today’s environments, with superior range and
coverage. Wireless is compatible with standard Ethernet protocols, so
connectivity with existing wired infrastructure is transparent to users — they can
still access and use the same applications and network services that they use
when plugged into the company’s wired LAN (it’s only the plug that no longer
exists).
Wireless has come a long way in the past few years and now offers the
performance, reliability and security that Enterprise customers have come to
expect from their networks. The technology is being driven by four major IEEE
standards: