CGD Signs Global Distribution Deal With DIGIKEY

Significant step in building GaN ecosystem for the benefit of engineers worldwide

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Cambridge, UK – Cambridge GaN Devices (CGD), the fabless, clean-tech semiconductor company that develops a range of energy-efficient GaN-based power devices to make greener electronics possible, has announced the signing of a distribution deal with high-service leader, DigiKey. Under the terms of the global agreement, DigiKey will hold substantial stocks of CGD’s easy-to-use, rugged and highly-efficient ICeGaN HEMTs and related products.

ANDREA BRICCONI | CHIEF COMMERCIAL OFFICER, CGD “This agreement is a significant step for CGD as we are scaling-up the business and building a GaN ecosystem that will help engineers explore and utilise the benefits of ICeGaN for high voltage power conversion. DigiKey is very well respected and a trusted brand, and we are sure that this deal will enable CGD to penetrate and support new markets worldwide.”

MISSY HALL | VICE-PRESIDENT, NEW MARKET DEVELOPMENT, DIGIKEY “We are pleased to add Cambridge GaN Devices (CGD) to our Fulfilled by DigiKey program. By including CGD’s ICeGaN series transistors in our portfolio, DigiKey is delivering even more energy-efficient options for our customers to choose from. DigiKey is always looking to fill the gaps for our customer base, and the addition of CGD to our supplier community is one more gap filled and one more step towards great innovation.” 

Recently, CGD launched its 650 V H2 series ICeGaN gallium nitride HEMT family. The new parts reduce design complexity as they can be driven using commercially-available industry gate drivers. In terms of efficiency, ICeGaN HEMTs feature a Qthat is 10x lower than silicon parts and a QOSS that is 5x less. This greatly reduces switching losses, enabling industry-leading efficiency figures that result in reductions in system size, weight and cost. H2 Series ICeGaN HEMTs also address reliability and ruggedness concerns by employing CGD’s smart gate interface that virtually eliminates typical e-mode GaN weaknesses. Devices feature improved over-voltage robustness, higher noise-immune threshold, dV/dt suppression and ESD protection.