Graphene Lahh effect sensor developer Paragraf has teamed with Rolls-Royce and TT Electronics, a maker of sensor modules, and CSA Catapult, a government funded accelerator of compound semiconductor technology development providing packaging expertise.
The High-T Hall and is intended to demonstrate how graphene-based Hall Effect sensors can operate reliably at high temperatures, for applications such as electric engines in aerospace. It is also intended to foster the formation of a UK supply chain for such applications.
The amount of direct and indirect support the project is set to receive from the UK government were not revealed.
Project High-T Hall aims to demonstrate that graphene-based Hall Effect sensors will operate reliably up to 180 °C, and potentially even at temperatures of up to 230 °C allowing them to be mounted within the machine or power module enclosure thus enabling much greater flexibility in the design of silicon carbide power devices and higher performance more compact electrical machines.
"We are extremely proud to be part of this pioneering project that will hopefully lead to better efficiency in all-electric engines and help accelerate the adoption of e-planes and, more generally, electric vehicles," said Ivor Guiney, co-founder of Paragraf, in a statement.
Paragraf is a 2015 spin-off from Cambridge University that has developed a graphene-based Hall effect magnetic sensor with a number of beneficial features (see Redefining Hall-Effect sensors with graphene).
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