Medicine Industry: News and Marketplace

 

 

 
  Home News White Papers Buyers Guide  
      WiMAX News
      WiMAX Equipment
      WiMAX Billing Solutions
      VoIP over WiMAX
      WiMAX Vendors
      WiMAX Test Tools
      WiMAX Development
      WiMAX RSS Feeds
 

 

WiMAX Buyers Guide

WiMAX Hardware

WiMAX Base Station

WiMAX CPE

WiMAX Antenna

TeleMedicine Equipment

WiMAX Cooling Systems

WiMAX Chips, Chipsets,
Boards & Components

Turnkey TeleMedicine

WiMAX PtP - Point-to-Point

WiMAX PtMP - Point-to-Multipoint

WiMAX Test Equipment

WiMAX Equipment Distributors

WiMAX Towers

WiMAX Shelters and Cabinets

TeleMedicine Software

Telemedicine Billing Software

WiMAX Test Software

WiMAX Mesh Networks

WiMAX Network Monitoring

WiMAX QoS Solutions -
Quality of Service

WiMAX Provisioning
Software

TeleMedicine Monitoring Software

WiMAX Software Distributors

WiMAX Services

WiMAX Test Certification

WiMAX Installation

WiMAX Business Case

WiMAX Network Design

WiMAX Hosted Billing

WiMAX Networking

WiMAX WISPs ISPs

TeleMedicine Integrators

TeleMedicine Training

WiMAX Consulting

TeleMedicine Solutions

WiMAX Metro Area Networks (MANs)

WiMAX Campus Area
Networks

Military WiMAX Systems

WiMAX VoIP

WiMAX Backhaul

 

 

Submit your Site

Subscribe

 

 

WiMAX LoS Service

 

 
Technology Overview

Best-in-Class Radio


Signal attenuation occurs when natural or man-made obstacles in the path reduce the signal. Typical NLoS environments reduce the signal to 1/1000th of a normal LoS signal, because the signals are forced to arrive by diffraction around an object, reflection off objects that surround the obstruction, or by penetrating the obstruction – all of which substantially weaken the signal.

Orthogon System’s best-in-class radios effectively overcome attenuation by maximizing the system gain. By pairing a high-output transmitter, capable of pre-shaping signals, with an ultra-sensitive receiver, Orthogon radios can achieve a system gain of up to 168dB using 23dBi integrated antennas, resulting in a transmitted signal that is 25 times better than the nearest competitor.