Transphorm giành được hợp đồng ARPA-E cho các công tắc bốn góc dựa trên GaN với khả năng điều khiển dòng điện và điện áp hai chiều

1 September 2022

Transphorm Inc of Goleta, near Santa Barbara, CA, USA — which designs and manufactures JEDEC- and AEC-Q101-qualified gallium nitride (GaN) field-effect transistors (FETs) for high-voltage power conversion — has been awarded a contract by the Advanced Research Projects Agency-Energy (ARPA-E). Part of the ARPA-E CIRCUITS program and through a sub-contract from Illinois Institute of Technology, the project covers the supply of GaN-based four-quadrant switches (FQSes) for use in various power conversion applications including novel ones like current source inverters, cyclo-converters for drives and micro-inverters, matrix switching, and solid-state circuit breakers. Transphorm says that the initiative is the result of its GaN engineering expertise (specifically its bidirectional GaN) along with industry and university interest in further exploring the possibilities of lateral GaN switches.

Transphorm will prototype the FQS platform using its 650V GaN technology that continues to offer what is claimed to be the industry’s highest threshold voltage (4V) in a 4-pin TO-247 package. The project is expected to be completed in less than a year.

True bidirectional GaN switch innovation

Transphorm’s standard lateral GaN FETs inherently provide bidirectional current flow. However, certain applications such as current source inverters for motor drives, cyclo-converters and matrix converters also require bidirectional voltage control to effectively manage power flow. This capability is traditionally achieved by placing two FETs in series using the devices’ body diode to steer and control current flow or via two insulated-gate bipolar transistors (IGBTs) and two diodes, thus requiring four devices.

Also called a true bidirectional switch, the FQS replaces the two-FET or the two-IGBT+two-diode approaches with a single device capable of realizing bidirectional voltage control and bidirectional current flow. The FQS uses two gates to block voltage of either polarity or pass current in either direction. And, as a single device, it reduces the number of parts required to achieve the desired result enabling higher power density, increased reliability, and overall system cost reduction.

“It is exciting to see the day approaching when GaN-based bidirectional switches will be ready for commercial production,” comments emeritus professor Tom Jahns, FIEEE, NAE, at the University of Wisconsin – Madison. “Power electronics engineers have been anxiously anticipating the day when MOS-gated bidirectional switches will become available because they are the key to implementing promising power converter topologies that offer exciting opportunities for improving efficiency, power density and fault tolerance in many applications. They hold the potential to dramatically improve the commercial viability of new products including solid-state circuit breakers and integrated motor drives by making them significantly more compact and efficient than what is achievable using today’s silicon-based switches,” he adds.

“GaN adoption is at a point today when bringing an FQS bidirectional device to market makes sense,” says Dr Rakesh Lal, technical fellow at Transphorm. “Lateral GaN technology enables compact FQS dies to be fabricated because the voltage-blocking region can be shared. This configuration cannot be realized with vertical power device technologies, such as with silicon or silicon carbide (SiC), which gives GaN FQSes a clear edge in performance and cost,” he adds. “With our FQS, one gets true bidirectionality in a fast low-loss switch, which we believe will inspire next-generation power conversion products through the CIRCUITS program driven partnerships.”

Tags: Transphorm GaN-on-Si GaN HEMT

Visit: www.transphormusa.com

source

Facebook Comments Box

Trả lời

Email của bạn sẽ không được hiển thị công khai. Các trường bắt buộc được đánh dấu *