Radio connects to sensors

A new radio from Banner Engineering combines wireless transceiver, power supply and I/O circuits in one compact housing. The DX80DR MultiHop Radio connects sensors directly to the network, eliminating need for data loggers, power supplies, PLCs or HMIs at the sensor location. The MultiHop system automatically repeats wireless messages as needed to extend distance capability to 20 km or more. Radios can be powered by 10-30 VDC, battery or solar power supply.
January 31, 2012 Read time: 1 min
A new radio from 3776 Banner Engineering combines wireless transceiver, power supply and I/O circuits in one compact housing.

The DX80DR MultiHop Radio connects sensors directly to the network, eliminating need for data loggers, power supplies, PLCs or HMIs at the sensor location. The MultiHop system automatically repeats wireless messages as needed to extend distance capability to 20 km or more.

Radios can be powered by 10-30 VDC, battery or solar power supply.
Detection, Monitoring & Machine Vision Networking & Communication Systems

For more information on companies in this article

Related Content

  • SESA connects dynamic messaging signs to the cloud
    January 8, 2016
    SES America is showing off two of its latest lines of dynamic messaging signs at ITS America Pittsburgh, highlighting the growing diversity of its product line for customers who are finding more applications for displaying multiple messages on demand.
    Read More
  • Mexico’s Durango-Mazatlan highway sets tunnel safety standard
    September 14, 2016
    Mauro Nogarin looks at the management of the longer tunnels on Mexico’s Durango-Mazatlan highway. In recent years the National Infrastructure Fund of Mexico has increased investment in the installation of ITS systems on selected highways to increase road safety. One such major investment is the 230km long Durango-Mazatlan highway which is 12m in width and has an average speed of 110km/h.
    Read More
  • Historic milestone for EVs claimed
    April 17, 2012
    Utah State University Research Foundation's Energy Dynamics Laboratory has announced that it has operated the first high-power, high-efficiency wireless power transfer system capable of transferring enough energy to quickly charge an electric vehicle. The lightweight, low-profile system demonstrated 90 per cent electrical transfer efficiency of five kilowatts over an air gap of 10 inches. The demonstration at EDL's North Logan, Utah, facility further validates that electric vehicles can efficiently be charg
    Read More
  • Developing a wireless cooperative traffic management system
    March 14, 2012
    The use by MDOT of 90-foot concrete poles on which to mount CCTV equipment reduces the number of poles needed to monitor a given area and incidences of occlusion
    Read More

Highlighted Content