Superior characteristics of eGaN^® FETs, such as low output capacitance, low input capacitance, low parasitic inductances, and small size make them ideal for increasing efficiency in highly resonant, AirFuel^™ wireless power transfer systems.

EL SEGUNDO, Calif.—August 2017 — Efficient Power Conversion Corporation (EPC) today announces the availability of a complete class 4 wireless power charging kit, the EPC9120. The system can transmit up to 33 W while operating at 6.78 MHz (the lowest ISM band).  The purpose of this demonstration kit is to simplify the evaluation process of using eGaN FETs for highly efficient wireless power transfer.  The EPC9120 utilizes the high frequency switching capability of EPC gallium nitride transistors to facilitate wireless power systems with full power efficiency between 80% and 90% under various operating conditions.

This scientist got his Ph.D 40 years ago who saved the world's 15% energy consumption at one time. He is continuing his journey of innovations now in discovering silicon's replacement material for humankind.

My father always taught me that the true worth of an individual is measured based on their contribution to society. As I entered graduate school in 1975 I knew my passion was in the field of semiconductors, and I felt my best contribution to society would come from finding a successor to silicon. I did my graduate work in Gallium Arsenide, but realized by the time I received my PhD in 1977 that Gallium Arsenide’s prospects were limited as a semiconductor due to the basic materials properties, I went to work applying everything I learned to making better devices in silicon.

Fortune China
June 15, 2017
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EL SEGUNDO, Calif. — June 21st, 2017 -- Efficient Power Conversion Corporation, the world’s leader in enhancement-mode gallium nitride on silicon (eGaN^®) power FETs and ICs, enables a lower-cost, single transmit amplifier solution that can wirelessly charge devices, regardless of the standard used in the receiving device.

Meet EPC experts on power management at PCIM Asia Exhibition and Conference on June 28th, 2017 at 11 a.m. at Meeting Room 2, B2 of Shanghai World Expo Exhibition and Convention Center in China. Dr. Michael de Rooij, Vice President of Application Engineering, EPC, will share with engineers about a choice among topologies to achieve customer-oriented designs for high power, highly resonant wireless charging applications.

EPC2111 GaN half bridge offers power systems designers a solution that increases efficiency for complete overall point-of-load system applications over 85% at 14 A when switching at 5 MHz and over 80% when switching at 10 MHz and converting from 12 V to 1.8 V.

EL SEGUNDO, Calif. — June2017 — EPC announces the EPC2111, 30 V enhancement-mode monolithic GaN transistor half bridge. By integrating two eGaN^® power FETs into a single device, interconnect inductances and the interstitial space needed on the PCB are eliminated.  This increases both efficiency (especially at higher frequencies) and power density, while reducing assembly costs to the end user’s power conversion system. The EPC2111 is ideal for high frequency 12 V to point-of-load DC-DC conversion.

During last week's PCIM Europe event in Nuremberg, Germany, direct 48V-to-1V power conversion architectures were a significant topic. “The use of GaN switches in 48V-to-1V direct dc-dc converters can improve system performance by 30%, compared with today’s best silicon-based designs,” commented Alex Lidow, CEO of Efficient Power Conversion.

PowerPulse
May 31, 2017
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Produced by industry experts, Efficient Power Conversion has posted six videos showing active end-use applications such as a wireless power tabletop, high performance LiDAR, single-stage 48 V – 1.8 V DC-DC conversion, and precision motor drive control using gallium nitride transistors and integrated circuits.

EL SEGUNDO, Calif. – April 2017 – Efficient Power Conversion Corporation (www.epc-co.com) has created and posted to its website six short videos presenting end-customer applications using eGaN^® FETs and ICs. These videos show how GaN technology is changing the way we live and challenging power systems design engineers to incorporate the high performance of gallium nitride FETs and ICs into their next generation power system designs.

EPC’s Phase Nine Reliability Report documents a combined total of over 9 million GaN stress device-hours with zero failures. This report focuses on thermo-mechanical board level reliability, describing for the first time, a predictive model for solder joint integrity and showing the superior reliability of wafer level chip-scale packaging (WLCSP) GaN technology over comparable packaged devices.

EL SEGUNDO, Calif.— April 2017 — EPC announces its Phase Nine Reliability Report showing the results of a rigorous set of thermo-mechanical board level reliability testing. The Phase Nine Reliability Report adds to the growing knowledge base previously published in EPC’s first eight reports and represents an ongoing commitment to study, learn, and share information on the reliability of GaN technology.

The number one barrier to improving every electronic product – from smart wearables and laptops to handheld tools and electric cars – is battery technology. The current state-of-the-art in rechargeable batteries, Lithium Ion, has been around for 25 years. As tech goes, that’s pretty old. It’s time for something new, don’t you think?

Fortune
Steve Tobak
May 13, 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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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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Power transistors with faster switching speeds will enable power supplies with smaller form factors and higher energy transfer efficiencies. Indeed, the elimination of heat sinks will give designers the ability to visualize entirely new form factors for power bricks and modules, including those enabling wireless power transfers. Gallium-nitride (GaN) transistors fabricated on silicon substrates can boost efficiencies and help shrink the footprint of power supplies.

Electronic Design
March, 2016
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Produced by industry experts, EPC has posted a nine-part educational video series on design basics, DC-DC conversion, wireless charging, reliability, and other applications for gallium nitride FETs and integrated circuits.

EL SEGUNDO, Calif. – January 2016 – Efficient Power Conversion Corporation (www.epc-co.com) has expanded its video library on GaN technology with the addition of a nine-part educational video series designed to provide power system design engineers advanced technical information and application examples on how to design more efficient power conversion systems using gallium nitride-based transistors and integrated circuits.

Efficient Power Conversion (EPC) CEO Alex Lidow tells Light Reading he might be within two years of a breakthrough that would upend the entire semiconductor market: CMOS logic implemented in gallium nitride (GaN).

Light Reading
By: Brian Santo
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Alex Lidow, scion of an engineering dynasty, thinks the essential material at the heart of the tech industry needs to change. Lidow, 60, is currently head of a company called Efficient Power Conversion, and is one of the tech world’s loudest advocates for making transistors and semiconductors from gallium nitride. Silicon is traditionally used for the transistors and semiconductors on which the technology industry relies. This is an amazingly lucrative business: according to the Semiconductor Industry Association, which represents U.S.-based firms, the worldwide semiconductor industry was responsible for approximately $335.8 billion of sales last year alone.

Fast Company
September, 2015
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The cost of electrical power is a key driver of socioeconomic vitality, as it enables us to improve our quality of life and advance new applications and industries. GaN (gallium nitride) has emerged as a displacement technology to the venerable, but aged, silicon solutions that will allow us to stay ahead of our demand for more and more efficient power.

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If expanding industries typically indicate vibrancy, a race to acquire and consolidate is generally reflective of the opposite – a period of slowed growth in mature, often once high-flying categories. And while many industries experience a period of stardom, followed by a sharp and steady decline, we should be extremely worried when they occur in industries that are fundamentally central to our socio-economic vitality.

Forbes
June 26, 2015
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The effort to take advantage of gallium nitride is partly a response to technical and economic factors that have slowed improvement in silicon-based chips.  While companies are still finding ways to fabricate smaller transistors in silicon, reductions in cost and power consumption have been more difficult to achieve. But gallium-nitride circuits can switch on and off much more quickly than silicon and handle higher voltages, said Alex Lidow, EPC’s chief executive. That makes the material particularly good for chores that involve power conversion.

Wall Street Journal
June 22, 2015
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Power conversion involves creating tiny devices that convert electricity from one form to another, enabling all manner of electrical gadgets to function. Till now, silicon had been the preferred medium for power conversion processors, but as that element reaches the limits of its efficiency, attention has focused on new materials.

Los Angeles Business Journal
June 21, 2015
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