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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Designers using state-of-the-art GaN transistors and IC’s for power conversion now have the use of an interactive web-based parametric selection tool to search for the best possible GaN solution for their given power conversion system.

EL SEGUNDO, Calif.—April 2016— Efficient Power Conversion Corporation (EPC) announces the implementation of a user-controlled GaN product selector search tool on the EPC website, epc-co.com. Based upon years of EPC customer interactions, this web-based product selector guide provides power system design engineers the following:

Claude Shannon started it all when he wrote “A Mathematical Theory of Communication” in 1948 in which he reduced the communication of information to 1s and 0s, essentially binary digits. That theory led to the ability to transmit data without error in the noise-filled environment of the real world. Shannon would have been 100 years old on April 30, 2016.

EDN Network
Steve Taranovich
April 16, 2016
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Freebird Semiconductor and Efficient Power Conversion (EPC) have entered into an agreement whereby Freebird will develop products for use in high reliability space and harsh environment applications based upon eGaN^® power transistors and integrated circuits.

NORTH ANDOVER, MA. — April 2016 — Freebird Semiconductor Corporation, North Andover, Massachusetts announces the signing of an agreement with Efficient Power Conversion Corporation (EPC), the leading provider of enhancement-mode gallium nitride power transistors to develop products for use in high reliability, space, and harsh environment applications based upon EPC’s eGaN^® technology.

In this installment of WiGaN, a differential-mode class-E amplifier for 6.78 MHz loosely coupled resonant wireless power applications is presented. It uses the EPC2037 eGaN^® FET which has a small (0.9 mm x 0.9 mm) footprint and can be driven directly with a logic gate. The amplifier is AirFuel™ Class 2 compatible, capable of delivery up to 6.5 W load power over an impedance range of 70j Ω.

EEWeb - Wireless & RF Magazine
Yuanzhe Zhang, Ph.D., Director of Applications Engineering
Michael de Rooij, Ph.D., Vice President of Applications Engineering
April 12, 2016
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In this short video, EPC's Alex Lidow explains why GaN FETs may make it possible to wirelessly charge a variety of vehicles, including flying drones. Wireless charging circuits employing GaN FETs work at 13.56 MHz, a switching frequency difficult to reach with ordinary silicon FETs. The GaN transistors used are also five to ten times smaller than silicon devices able to handle the same power levels.

Design World
April 11, 2016
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In this short video, EPC's Alex Lidow explains why GaN FETs can comprise circuits able to deliver Lidar resolutions down to a couple inches. Conventional silicon FETs performing the same tasks would be able to resolve images only down to a few feet. The secret is in the super-fast rise and fall times made possible by the GaN FETs.

Design World
April 11, 2016
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Silicon -- the core ingredient in semiconductors and the driving force behind the electronics industry -- is reaching its limit, says Alex Lidow, CEO of Efficient Power Conversion Corporation. His Los Angeles-based company is investigating the capacity of gallium nitride (GaN) to disrupt the $400 billion (£277bn) silicon industry with its improved powers of semiconducting. "This is the first 
time that there is a semiconductor that is both lower cost and has a higher performance than silicon," Lidow says.

Wired Magazine
Emma Bryce
March 31, 2016
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Emerging applications such as 48V-to-point-of-load (POL), wireless power and USB Type-C had a lot of interest. Google joined the Open Compute Project a few weeks ago and proposed a computer server-rack architecture based on a 48V power-distribution bus to improve overall system efficiency. While the 48V bus has been around for a long time, the push (and challenge) is for high-efficiency 48V-to-POL voltage regulators. EPC showcased TI’s 48V-to-1V EVM which uses the LMG5200 GaN module (driver and FETs), announced at APEC last year, and a new TI analog controller (TPS53632G).

TI E2E Community
Pradeep Shenoy
Mar 28, 2016
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You might have seen some behind-the-scenes tweets from the life of the ECN editor (and News Director) and while a picture is worth a thousand words, sometimes an engineer's perspective on a conference is worth a little more.

With that in mind, I reached out to some APEC engineers and attendees to get the lowdown on this year's Applied Power Electronics Conference in Long Beach, CA. We talked about how the show compared to last year, the biggest trends, and how APEC went for their companies.

ECNMag.com
Kasey Panetta
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At this year’s APEC 2016, news about GaN power technology was probably more dominant than at any time in the past. Real product demos using GaN, new product and technology announcements, attention to GaN in the plenary, and other discussions all reinforced the impression that GaN power devices have arrived and the technology is making inroads in the marketplace. One of the tell-tale signs is a slight shift in the discussions, away from what the devices can do to what else is needed to support the design-in of GaN power transistors.

How2Power Today
David Morrison
April 1, 2016
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EPC’s new development boards can be configured as either a buck converter or a ZVS class-D amplifier, demonstrating reduced losses at high frequency using an eGaN FET synchronous bootstrap augmented gate drive.

EL SEGUNDO, Calif.— March 2016 — Efficient Power Conversion Corporation (EPC) Introduces the EPC9066, EPC9067, and EPC9068 development boards, which are configurable to a buck converter or as a ZVS class-D amplifier. These boards provide an easy-to-use way for power systems designers to evaluate the exceptional performance of gallium nitride transistors, enabling the designers to get their products into volume production quickly. All three boards feature a zero reverse recovery (Q_RR) synchronous bootstrap rectifier augmented gate driver to increase efficiency at high frequency operation, up to 15 MHz. The boards can produce a maximum output of 2.7 A in the buck and ZVS class-D amplifier configurations. Loss reduction is realized across the entire current range.

Though there are two standards for charging appliances wirelessly, a single circuit can be devised to serve as a charging node for both of them.

Design World
Michael de Rooij, Ph.D., Vice President, Applications Engineering
March, 2016
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Alex Lidow talks about advanced envelope tracking for power management. The ability of an amplifying system to follow the signal and only output the power needed to express it can save significant amounts of energy and improve performance.

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Alex Lidow is a man on a mission. His Southern California company, Efficient Power Conversion or EPC, is using Gallium Nitride (GaN) chips instead of silicon for exciting applications, from wireless power charging and 4G LTE to augmented reality and autonomous vehicles.

But can this hot new technology ultimately displace the ubiquitous silicon chip in a $300 billion semiconductor market?

Fox Business
By Steve Tobak
March 18, 2016
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Glamour items like energy harvesting and wireless power transfer are likely to make "guest appearances" at next week's APEC Conference. GaN transistor deployments will be carefully monitored. But on-going efforts to promote data-center energy transfer efficiency retain their "bread-and-butter" utility.

EE Times
By: Stephan Ohr, Consultant, Semiconductor Industry Analyst
March 16, 2016
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After getting his PhD in applied physics at Stanford, Alex Lidow spent 30 years at International Rectifier (IR), a publicly traded chip company founded by his father Eric Lidow back in the 1940s.

Alex pioneered IR’s power management technology, co-authored the core-patents on which its business was built, became co-CEO with his brother, Derek, in 1995, and ran the company solo after Derek left to found market research firm iSupply in 1999.

Entrepreneur
By: Steve Tobak
March, 2016
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EPC Phase Seven Reliability Report shows that eGaN^® FETs have solid reliability and are dependable replacement solutions to traditional silicon devices.

EL SEGUNDO, Calif.— March 2016 — EPC announces its Phase Seven Reliability Report showing the distribution of over 17 billion accumulated field-device hours and detailing test data from more than 7 million equivalent device-hours under stress. The stress tests included intermittent operating life (IOL), early life failure rate (ELFR), humidity with bias, temperature cycling, and electrostatic discharge. The study reports a composite 0.24 FIT rate for products in the field, which is consistent with all of EPC’s in situ evaluations to date and validates the readiness of eGaN FETs to supplant their aging silicon cousins for commercial power switching applications.

The demand for information in our society is growing at an unprecedented rate. With emerging technologies, such as cloud computing and the Internet of Things, this trend for more and faster access to information is showing no signs of slowing. What makes the transfer of information at high rates of speed possible are racks and racks of servers, mostly located in centralized data.

EEWeb
Alex Lidow, Ph.D., David Reusch, Ph.D., and John Glaser, Ph.D.
March, 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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