Paragraf Introduces a Graphene Hall Sensor for Cryogenic Applications

By Chad Cox

Production Editor

Embedded Computing Design

June 17, 2021

News

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 paragraf.com.

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.

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