Cisco Systems 1300 manual Signal continuously over a wide frequency band, GL-2

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Glossary

broadcast packet

A single data message (packet) sent to all addresses on the same subnet.

bridge

A wireless LAN transceiver that is used to connect two or more wired Ethernet networks.

C

CCK

cell

Complementary code keying. A modulation technique used by IEEE 802.11b-compliant wireless LANs for transmission at 5.5 and 11 Mbps.

The area of radio range or coverage in which the wireless devices can communicate with the base station. The size of the cell depends upon the speed of the transmission, the type of antenna used, and the physical environment, as well as other factors.

client

A radio device that uses the services of an access point to communicate wirelessly with other

 

devices on a local area network.

CSMA

Carrier sense multiple access. A wireless LAN media access method specified by the IEEE 802.11

 

specification.

D

data rates

dBi

dBm

DHCP

The range of data transmission rates supported by a device. Data rates are measured in megabits per second (Mbps).

A ratio of decibels to an isotropic antenna that is commonly used to measure antenna gain. The greater the dBi value, the higher the gain, and the more acute the angle of coverage.

An absolute power level described in decibels referenced to 1 mW. 0 dBm is equivalent to 1 mW.

Dynamic host configuration protocol. A protocol available with many operating systems that automatically issues IP addresses within a specified range to devices on the network. The device retains the assigned address for a specific administrator-defined period.

dipole

A type of low-gain (2.2-dBi) antenna consisting of two (often internal) elements.

domain name

The text name that refers to a grouping of networks or network resources based on

 

organization-type or geography; for example: name.com—commercial; name.edu—educational;

 

name.gov—government; ISPname.net—network provider (such as an ISP); name.ar—Argentina;

 

name.au—Australia; and so on.

DNS

Domain Name System server. A server that translates text names into IP addresses. The server

 

maintains a database of host alphanumeric names and their corresponding IP addresses.

DSSS

Direct sequence spread spectrum. A type of spread spectrum radio transmission that spreads its

 

signal continuously over a wide frequency band.

Cisco Aironet 1300 Series Wireless Outdoor Access Point/Bridge Hardware Installation Guide

 

GL-2

OL-5048-06

 

 

 

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Contents Corporate Headquarters Page N T E N T S IiiWindow Mounting Ssid Japanese Translation B-6 Load-Dump Protection H-1 ViiViii Preface AudiencePurpose OrganizationConventions Preface Conventions Related Publications Obtaining DocumentationCisco.com XiiDocumentation Feedback Cisco Product Security OverviewProduct Documentation DVD Ordering Documentation XiiiProduct Alerts and Field Notices Reporting Security Problems in Cisco ProductsXiv Obtaining Technical Assistance Cisco Support WebsiteLocating the Product Serial Number XviSubmitting a Service Request XviiObtaining Additional Publications and Information Definitions of Service Request SeverityXviii Xix OL-5048-06 Overview Autonomous Access Point/BridgeProduct Terminology Guidelines for Using a Lightweight Access Point/Bridge Lightweight Access PointKey Features Power 1shows the two outdoor access point/bridge configurationsIntegrated Antenna External AntennaEthernet Ports ConnectorsEnclosure LEDs Operating Roles for the Autonomous Access Point/Bridge Network Examples with Autonomous Access Point/Bridges Repeater Unit that Extends Wireless RangeRoot Access Point on a Wired LAN Access Points as Root Units on a Wired LANCentral Unit in an All-Wireless Network Bridge Network with Wireless ClientsPoint-to-Point Bridge Configuration Workgroup Bridge NetworkNetwork Examples with Lightweight Access Points OL-5048-06 Installation Overview Safety Warnings All InstallationsSafety Information Outdoor and DC Power Source InstallationsDC Power Source Installations FCC Safety Compliance StatementInstallation Overview Safety Information Installation Guidelines Typical Outdoor Installation ComponentsPackage Contents Unpacking the Access Point/BridgeSite Surveys Before Beginning the Installation Access Point/Bridge Layout Installation Summary Installation Overview Installation Summary Mounting the Access Point/Bridge, Mounting Hardware, LEDs, Mounting OverviewMounting the Access Point/Bridge Mounting HardwareWindow Mounting Multi-Function MountAccess Point Bracket LEDs Install LED Status Rssi Level dBm Ethernet LED Status LED Radio LED OL-5048-06 Troubleshooting Autonomous Access Points and Bridges Checking the LEDs on an Autonomous Access Point/Bridge Ethernet Status Radio Install Meaning Blinking Codes First Second Power Injector Checking Power Checking Basic Configuration SettingsDefault IP Address Behavior Default Ssid and Radio BehaviorEnabling the Radio Interface SsidAntenna Alignment Security SettingsRunning the Carrier Busy Test Running the Ping or Link Test Using the Web-Browser Interface Using the CLI on an Autonomous Access Point/Bridge Reloading the Access Point/Bridge ImageWeb-Browser Interface Browser Http Interface Obtaining the Autonomous Access Point/Bridge Image File Connecting to the Console Serial Port Console Serial Port ConnectorObtaining the Tftp Server Software Http//tftpd32.jounin.netOL-5048-06 Troubleshooting Lightweight Access Points Checking the LEDs on Lightweight Access Points LED Indications Troubleshooting Lightweight Access Points Power Injector Using Dhcp Option Console serial port connector RJ-45 connector Configuring Controller Information Clearing Manually Entered Controller InformationReturning the Access Point to Autonomous Mode Manually Resetting the Access Point to DefaultsObtaining the Autonomous Access Point Image File OL-5048-06 Translated Safety Warnings OL-5048-06 Declarations of Conformity and Regulatory Information For Home or Office USE Vcci Statement for Japan Industry Canada Canadian Compliance StatementOL-5048-06 EMC Declaration of Conformity for RF Exposure Japanese TranslationAll Access Points and Bridges English TranslationEnglish Translation Operation of Cisco Aironet Access Points in Brazil Access Point ModelsDeclaration of Conformity Statements Page OL-5048-06 Access Point Specifications Category Access Point Power Injector and Power ModuleOfdm Category Access Point Power Injector and Power Module Category Access Point Power Injector and Power Module Channels and Maximum Power Levels OL-5048-06 Overview, page E-2 Signals and Pinouts, page E-2 Console Serial Cable PinoutsSignals and Pinouts OverviewPriming Lightweight Access Points Prior to Deployment OL-5048-06 Page OL-5048-06 Access Points Access Point Vendor Class Identifier VCI Quotation marks must be included Type + Length + Value Load-Dump Protection for Transportation Vehicles Load-Dump ProtectionAppendix H Load-Dump Protection for Transportation Vehicles Numeric GL-1Signal continuously over a wide frequency band GL-2GL-3 Single data message packet sent to multiple addresses GL-4Power level of radio transmission GL-5GL-6 D E IN-1Site survey Size C-1 SSID, troubleshooting IN-2
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1300 specifications

Cisco Systems 1300 series, commonly referred to as the Cisco Aironet 1300 Series, represents a pivotal advancement in wireless networking solutions designed for outdoor environments. These access points are primarily intended for outdoor wireless applications, including temporary installations, public areas, and enterprises requiring robust outdoor coverage.

One of the standout features of the Cisco 1300 series is its ruggedized design. The access points are built to withstand harsh weather conditions, including extreme temperatures and precipitation. They comply with IP67 ratings, ensuring protection against dust and water intrusion, making them suitable for deployment in various environmental conditions.

The Cisco 1300 series provides comprehensive WLAN coverage through its support for various wireless standards, including 802.11b, 802.11g, and 802.11n. This compatibility ensures interoperability with existing wireless infrastructure while enabling faster data rates and improved connectivity. The technology leveraged in the Cisco 1300 series offers enhanced throughput and capacity, ensuring seamless connectivity for end-users.

Another key characteristic is the integration of advanced security features. The access points support robust encryption protocols, such as WPA2 and 802.1X, safeguarding sensitive data transmitted over the air. The ability to create secure guest access networks also enhances security, allowing organizations to provide internet access without compromising internal network safety.

Cisco's proprietary features, such as Cisco CleanAir technology, further enhance the performance of the 1300 series. This technology effectively detects and mitigates wireless interference, ensuring optimal performance and reliability in congested areas. Additionally, the series supports mesh networking capabilities, allowing for flexible deployment without the necessity of extensive wiring, which is particularly advantageous for temporary or mobile installations.

Management and configuration are simplified through the use of Cisco's Wireless LAN Controller (WLC). This centralized management allows network administrators to streamline firmware upgrades, monitor performance, and enforce policy compliance across multiple access points.

In summary, the Cisco Systems 1300 series access points combine robust outdoor capabilities with advanced wireless technology, security features, and ease of management, making them a valuable asset for organizations looking to extend their networking capabilities into outdoor environments. Through their durable design and innovative technologies, the Cisco 1300 series meets the demanding needs of today’s wireless landscape.
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