Paragraf Introduces a Graphene Hall Sensor for Cryogenic Applications

By Chad Cox

Production Editor

Embedded Computing Design

June 17, 2021


Image Courtesy of Paragraf

Paragraf introduced the GHS-C Graphene Hall Sensor (GHS), providing the industry with a viable approach to measuring magnetic field strengths of 7 Tesla (T) and above, at temperature extremes below 3 Kelvin (K).

Paragraf has started production on the GHS-C, a Graphene based Hall sensor optimized to provide high field measurements while operating at cryogenic temperatures with no loss of performance. The GHS-C achieves this while dissipating virtually no heat lowering possible instability risks. The cryogenic sensor allows measurements directly in cold bore with quality data and time savings.

The GHS-C uses graphene optimized and tuned for high field applications, including:

  • Super-conduction
  • Quantum computing
  • High-energy physics
  • Low-temperature physics
  • Fusion
  • Space.

For more information about the GHS-C, please visit

Chad Cox. Production Editor, Embedded Computing Design, has responsibilities that include handling the news cycle, newsletters, social media, and advertising. Chad graduated from the University of Cincinnati with a B.A. in Cultural and Analytical Literature.

More from Chad