Wireless Control Systems

PowerbyProxi’s resonant wireless power solutions can provide the most efficient, reliable power connections to your mission critical control systems. Even in hostile environments – liquids, contaminants and moving parts will not compromise our ability to deliver power and data wirelessly.

We specialise in delivering safe, reliable wireless slip ring and resonant power transfer solutions for control systems in mission critical applications.  Even in hostile operating environments, PowerbyProxi patented contactless technology delivers high efficiency, low maintenance solutions to overcome limitations of traditional connector-based systems .

Benefits

  • Improved reliability of power supply
  • Reduce downtime as a result of a failure in the mechanical connections
  • Better operating efficiencies and lower maintenance costs

Applications

The function and performance of control systems can be compared to the brain or the intelligence of the device/equipment. Failure of the control systems power and data supply compromise its ability to operate. A key application in PowerbyProxi’s work with control systems has involved the delivery of resonant wireless power and data to hydraulic systems using either our Proxi-Ring or Proxi-Point platforms to replace mechanical slip rings, mechanical connectors and, in some cases, batteries.


Evaluation Kits & Licensing Options

In order to meet growing customer demand to trial and evaluate our resonant  solutions,  we are now able to offer a range of evaluation kits and licensing options which will enable you to see the benefits of wireless power, and integrated wireless power and data systems in your own products.

From the Ideations Blog

Related Articles

November 2, 2014

Design Considerations in Modern Wireless Power Transfer Systems: Frequency of Operation

Blog first published and contributed to Planet Analog For anyone contemplating a wireless solution to their powering needs, the question is no longer “When will the technology be sufficiently robust?” Recent […]

Read More