User's Manual
Table Of Contents
- Your Feedback Please
- How to Contact Us
- ProSoft Technology® Product Documentation
- Important Safety Information
- Recommended Antennas
- Antenna spacing requirements for user safety
- 1 Start Here
- 2 RLX2 Quick Setup
- 3 Planning the Network
- 4 Installing the Radios
- 5 Diagnostics and Troubleshooting
- 6 Detailed Radio Configuration / Diagnostics
- 7 RadioLinx Industrial Hotspot Browser
- 8 Reference
- 8.1 Product Overview
- 8.2 Compatibility with ProSoft RLXIB Series Radios
- 8.3 Dimensional Drawings
- Master Channel-Frequency Table
- 8.4 FCC Emission Regulations
- 8.5 Radio hardware
- 8.6 RLX2-IHA Detailed Specifications
- 8.7 RLX2-IHG Detailed Specifications
- 8.8 RLX2-IHNF Detailed Specifications
- 8.9 RLX2-IHW Detailed Specifications
- 9 Antenna Configuration
- 10 Support, Service & Warranty
- Glossary of Terms
- 802.11
- 802.11a
- 802.11b
- 802.11g
- 802.11i
- 802.11n
- Access Point
- Ad hoc Mode
- AES
- Amplifier
- Antenna
- ASCII
- Association
- Authenticate
- Authentication Server
- Band
- Bandwidth
- Base Station
- Baud Rate
- bps
- CACT
- Channel
- Channel Move Time
- Client, Radio Mode
- Client, Software
- Configuration PC
- dBi
- dBm
- DCE
- Decibel (dB)
- Default Gateway
- Device-to-Device Network (Peer-to-Peer Network)
- DFS
- DHCP
- Direct Sequence Spread Spectrum
- Directional Antenna
- Diversity Antenna
- DTE
- Dual Band
- EAP
- EIRP
- Encryption
- ESD
- ESSID
- Firmware
- Frequency Hopping
- Frequency Hopping Spread Spectrum
- Fresnel Zone
- Full-Duplex
- Gain
- Gateway
- Guard Interval (GI)
- Half-Duplex
- Hz
- IEEE
- IP Address
- Key
- LAN
- LED
- Line of Sight (LoS)
- Link point
- MAC ID
- Master device
- Mbps
- Megahertz
- MIC
- MIMO
- Modbus
- Modem
- Network
- Node
- Non-Occupancy Period
- Null Modem Cable
- Panel Antenna
- Parabolic Antenna
- Peer-to-Peer Network
- Point-Multipoint (Broadcast) Network
- Point-Multipoint (Modbus) Network
- Point-to-Multipoint
- Point-to-Point Network
- Poll
- Power Supply
- Protocol
- QoS
- Range
- Remote Access Point
- Remote device
- Repeater
- Repeater, Radio Mode
- RS-232
- RTU (Remote Terminal Unit)
- Sector Antenna
- Signal Diversity
- Signal Loss
- Signal Strength
- Simplex
- Site Survey
- Spectrum
- Spread Spectrum
- SSI
- Subnet Mask
- TKIP
- UART
- WAP
- WDS
- WEP
- Wi-Fi
- Wi-Fi CERTIFIED™
- Wi-Fi Interoperability Certificate
- Wi-Fi Protected Setup
- Wireless Gateway
- Wireless Network
- WLAN
- WPA
- WPA2
- Yagi Antenna
- Index
RLX2 Series ♦ 802.11a, b, g, n Support, Service & Warranty
Industrial Hotspots User Manual
EIRP
Equivalent isotropically radiated power (EIRP) is the amount of power that would
have to be emitted by an isotropic antenna (that evenly distributes power in all
directions and is a theoretical construct) to produce the peak power density
observed in the direction of maximum antenna gain.
Encryption
Method of scrambling data so that only the intended viewers can decipher and
understand it.
ESD
Electrostatic Discharge. Can cause internal circuit damage to the coprocessor.
ESSID
Extended Service Set Identifier. A name used to identify a wireless network.
F
Firmware
Firmware is the embedded software code that that runs in the module to direct
module function (similar to the BIOS in a personal computer). This is
distinguished from the Setup/Diagnostic Application software that is installed on
the Configuration PC.
Frequency Hopping
A radio that rapidly changes its operating frequency several times per second
following a pre-determined sequence of frequencies. The transmitting and
receiving radios are programmed to follow the same frequency hopping
sequence.
Frequency Hopping Spread Spectrum
Changes or hops frequencies in pattern known to both sender and receiver.
FHSS is little influenced by radio stations, reflections, or other environmental
factors. However, it is much slower than DSSS.
Fresnel Zone
An elliptical area on either side of the straight line of sight that must also be clear
for a long-range wireless network to work.
Full-Duplex
A communications circuit or system designed to simultaneously transmit and
receive two different streams of data. Telephones are an example of a full-duplex
communication system. Both parties on a telephone conversation can talk and
listen at the same time. If both talk at the same time, their two signals are not
corrupted.
ProSoft Technology, Inc. Page 149 of 161
November 29, 2012