Teledyne e2v HiRel Unveils Two High Power GaN HEMTs to its 650 V Family
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Teledyne HiRel's two new GaN HEMTs added to its 650 V Family. (Photo: Business Wire)
These 650 V GaN HEMTs are the highest voltage GaN power devices available on the market for demanding high-reliability military, avionics, and space applications. They are an ideal fit for applications like power supply, motor control, and half bridge topologies.
They come with a bottom-side cooled configuration and feature ultra-low FOM Island Technology® die, low inductance GaNPX® packaging, very high frequency switching of >100 MHz, fast and controllable fall and rise times, reverse current capability, and more.
"We are pleased to continue the build-out of our 650 V family of high power GaN HEMTs for applications requiring the highest reliability such as space," said Mont Taylor, VP of Business Development for Teledyne e2v HiRel. "We believe the smaller sized packaging of these new devices will really benefit customers designing for the highest power density projects."
The TDG650E15B and TDG650E30B are both enhancement mode GaN-on-Silicon power transistors that allow for high current, high voltage breakdown and high switching frequency while offering very low junction-to-case thermal resistance for high-power applications.
Gallium nitride devices have revolutionized power conversion in other industries and are now available in radiation tolerant, plastic encapsulated packaging that has undergone stringent reliability and electrical testing to ensure mission critical success. The release of these new GaN HEMTs delivers to customers the efficiency, size, and power-density benefits required in critical aerospace and defense power applications.
For all product lines, Teledyne e2v HiRel performs the most demanding qualification and testing tailored to the highest reliability applications. For power devices, this regime includes sulfuric test, high altitude simulation, dynamic burn-in, step stress up to 175°C ambient, 9-volt gate voltage, and full temperature testing. Unlike silicon on carbide (SiC) devices, these two devices can easily be implemented in parallel to increase the load current or lower the effective RDSon.
Both of these new devices are now available for ordering and immediate purchase.
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