EPC Phase Eight Reliability Report documents a combined total of over 8 million GaN device-hours with zero failures. The report examines, in detail, the stress tests that EPC devices are subjected to prior to release as qualified products and analyzes the physics of failure.

Bodo’s Power Systems
September 1, 2016
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Efficient Power Conversion (EPC) Corporation’s enhancement-mode gallium nitride (eGaN^®) FETs and integrated circuits (ICs) are finding their way into many end user applications such as LIDAR, wireless charging, DC-DC conversion, RF base station transmission, satellite systems, and audio amplifiers.

Field reliability is the ultimate metric that corroborates the quality level of eGaN^® FETs and ICs that have been deployed in customer applications. In our first installment we provided an overview of eGaN FET field reliability which included 6 years of volume production shipment, and greater than 17 billion total device hours recorded. A subsequent calculated Failure In Time (FIT – failures in 109 hours) of approximately 0.24 FITs shows excellent field reliability performance to date.

Plant Analog
Chris Jakubiec
May 1, 2016
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In this series we will look at the various ways the reliability of eGaN^® technology has been validated, and how we are developing models from our understanding of the physics of failures that can help predict failure rates under almost any operating condition. In this first installment and the next, we will look at the field experience from the past six years of GaN transistors use in a variety of applications from vehicle headlamps to medical systems to 4G/LTE telecom systems. Diving into the failure of each and every part leads to some valuable lessons learned.

Planet Analog
Chris Jakubiec, Robert Strittmatter, Ph.D., and Alex Lidow, Ph.D.
March 1, 2016
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In this article, we show that high electron densities and very low temperature coefficients give the eGaN FET major advantages over the power MOSFET needed for today’s high performance applications. High electron density yields superior RDS(ON), while positive temperature coefficients inhibit hot spot generation within the die, resulting in superior Safe Operating Area capabilities.

By Yanping Ma, Ph.D., Director of Quality, EPC
Bodo's Power Systems

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Efficient Power Conversion’s (EPC) enhancement-mode gallium-nitride (eGaN) power transistors, although similar to standard power MOSFETs, deliver performance unattainable by silicon-based devices.

Yanping Ma, PhD, Efficient Power Conversion, El Segundo, Calif.
How2Power
October, 2010

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