Worksport Ltd. announced its strategic move to integrate Gallium Nitride (?GaN?) semiconductors in its upcoming product offerings. By choosing GAN semiconductors over more prevalent silicon-based chips that fuel even the AI chip leader, NVIDIA Corporation (?NVIDIA?), Worksport has embarked on an innovative journey to advance its technology to new heights with various partnerships, including a recently announced partnership with Infineon Technologies AG, which is a leading producer of GaN semiconductors. Silicone has been the dominant material for semiconductor manufacturing for decades due to its widespread availability and processing ease.

NVIDIA built its industry dominance on silicon-based semiconductors in its GPUs. The contribution NVIDIA made to the semiconductor and computing industry is undeniable, but the world, however, is approaching the theoretical limit of how much more silicone-based technology can be improved. Recognizing this, Worksport?s goal is to push the boundaries of semiconductor innovation by integrating GaN into future versions of its COR Mobile Battery Generator Systems. This move is motivated by GaN?s potential to provide superior performance, increased efficiency, and reduced size and weight compared to conventional solutions.

Compared to silicon, GaN-based power switches feature lower overall capacitances, especially considering they do not have an anti-parallel body diode. GaN switches, therefore, allow for faster switching speeds and reduced power losses. GaN is also able to withstand higher temperatures than silicon.

Worksport believes that using GaN semiconductors will raise the bar for efficiency, thermal management, and performance. Additionally, GaN semiconductors are wide band gap devices, allowing them to withstand much higher voltages than silicon-based devices while also assuming smaller packages. This feature can result in power converters with a much higher power density than typically found in silicon-based switches.

By leveraging GaN technology, Worksport believes that its future products will be able to deliver unmatched performance while also consuming less energy, resulting in longer battery life due to higher-efficiency power converters. Also, due to GaN semiconductors? enhanced efficiency, GaN-based power converters irradiate less heat and have lower cooling requirements and a reduced need for cooling fans, leading the Company to believe it could make a more compact size of its power electronics.

Moreover, Worksport believes that by using GAN semiconductors, it will be able to create more reliable and longer-lasting devices while reducing the risk of overheating and performance degradation.