GaN technology has matured to a point where it can challenge traditional silicon technology.  Gallium nitride(GaN)-on-silicon low voltage power devices have enabled many new applications since commercial availability began in 2010. New markets, such as light detection and ranging (LiDAR), envelope tracking, and wireless power, emerged due to the superior switching speed of GaN. These new applications have helped develop a strong supply chain, low production costs, and an enviable reliability record. All of this provides adequate incentive for the more conservative design engineers in applications, such as DC/DC converters, AC/DC converters, and automotive to start their evaluation process. In this article, the factors leading to the rapid acceleration of the adoption rate are explored.

Electronics Weekly
January 2019
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In this episode of the PSDcast, we’re talking to Alex Lidow from Efficient Power Conversion about gallium nitride’s (GaN) application in connected automobiles.

Power Systems Design
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Gallium nitride (GaN) power transistors designed for efficient power conversion have been in production for seven years. New markets, such as light detection and ranging, envelope tracking, and wireless charging, have emerged due to the superior switching speed of GaN. These markets have enabled GaN products to achieve significant volumes, low production costs, and an enviable reliability reputation. All of this provides adequate incentive for the more conservative design engineers in applications such as dc-dc converters, ac-dc converters, and automotive to start their evaluation process. So what are the remaining barriers to the conversion of the US$12 billion silicon power metal-oxide-semiconductor field-effect transistor (MOSFET) market? In a word: confidence. Design engineers, manufacturing engineers, purchasing managers, and senior management all need to be confident that GaN will provide benefits that more than offset the risk of adopting a new technology. Let's look at three key risk factors: supply chain risk, cost risk, and reliability risk.

IEEE Spectrum
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Spirit's Marti McCurdy and EPC's CEO Alex Lidow discuss the performance and cost benefits of gallium nitride over silicon and how leading companies the world over work with EPC to develop their next gen technologies with the power of GaN.

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Alex Lidow and his team of Michael de Rooij, David Reusch, and John Glaser gave an excellent technical tutorial this morning to a packed audience of Professional Engineers (PEs). The topic was a very timely ‘Maximizing GaN FET and IC performance: Not just a drop-in replacement of MOSFETs’.

Planet Analog
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Developers are hard at work on the machine learning necessary for safer and more-autonomous vehicles. But all the AI in the world won’t be enough if the car relies on inadequate sensors. That was clearly demonstrated in one fatal Tesla crash that occurred in part because the car’s camera didn’t correctly identify an oncoming truck. To ensure smart vehicles have a reliable model of surrounding objects — particularly the ones the cars identify as “threats” — most rely on one or more lidars, or laser-based remote sensors.

Extreme Tech
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Wireless power, the ability to deliver electricity to gadgets without plugging those gadgets into a cable, is a hotbed of innovation at the moment. The dominant standard, called “Qi,” is ever under attack from other efforts.

This week saw interesting developments from Energous (WATT), which aims to transfer power via radio frequency transceivers, with limited results so far, and some controversy about its business.

There are other contenders. On Wednesday in Las Vegas, during the Consumer Electronics Show, I met with Alex Lidow, who is founder of a privately held chip company EPC of El Segundo, California.

Barron's
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Alex Lidow, CEO of Efficient Power Conversion, talks to Leo Laporte about Gallium Nitride, and how it is being used to create the next generation of microchips and wirelessly power the world.

This Week in Technology
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Alex Lidow, CEO and co-founder of Efficient Power Conversion Corporation, has demonstrated the ability to transmit power from large surfaces.

Digital Journal
September 18, 2017
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EPC CEO & Co-Founder, Alex Lidow was a featured guest on Cheddar TV sharing how GaN technology is enabling new and disruptive technologies, such as LiDAR for self-driving cars and power conversion transistors and ICs for wide-area wireless power and medtech.

Cheddar
September 11, 2017
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Nextbigfuture interviewed Alex Lidow, CEO of EPC. EPC is a leader in Gallium Nitride electronics and now is leading the charge to a new age of wireless power. In 5 to 10 years, we could begin to see entire houses or office buildings switching from costly wiring of buildings to a complete large area wireless solution.

NextBigFuture
September 9, 2017
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The year is 2022. You sit down at your office desk, back from Ikea with your new lamp. You take it out of the box, place it on the table, and it illuminates the workspace immediately. You then take your MacBook out of your backpack, place it to the right of the lamp, and it starts charging instantly. It sounds unreasonable to think that all this could become reality in just a few years. But behind closed doors, this technology already exists.

“A couple of months ago, we demonstrated an entire table top where everything on it was powered wirelessly,” Alex Lidow, CEO of EPC, tells Inverse. “A lamp, computer monitor, computer, cell phones being charged… all sorts of stuff.”

Inverse Innovation
August, 2017
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Since Nikola Tesla first experimented with wireless power during the early 1900s, there has been a quest to “cut the cord” – and go wireless. Today’s applications for wireless power undoubtedly extend far beyond Tesla’s wildest imagination, as we now have the ability to wirelessly charge cell phones, power tools, and even buses while at their scheduled stops, not to mention airborne drones while flying. However, despite strong consumer and business demand for wireless charging, power cords still reign. What explains the lag in our ability to power all of our electronic devices and appliances wirelessly?

ITProPortal
August 2, 2017
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During our lifetime furniture design has been primarily dictated by style. However, as we become gradually more entangled in the internet of things, function is going to become increasingly important.

Future of Everything
July 20, 2017
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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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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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Gallium nitride (GaN) power transistors designed for efficient power conversion have been in production for seven years. New markets, such as light detection and ranging, envelope tracking, and wireless charging, have emerged due to the superior switching speed of GaN. These markets have enabled GaN products to achieve significant volumes, low production costs, and an enviable reliability reputation. All of this provides adequate incentive for the more conservative design engineers in applications such as dc–dc converters, ac–dc converters, and automotive to start their evaluation process. So what are the remaining barriers to the conversion of the US$12 billion silicon power metal–oxide–semiconductor field-effect transistor (MOSFET) market? In a word: confidence.

Alex Lidow
March, 2017
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Max Smolaks welcomes gallium nitride, a new material which will replace silicon in the power chain

For the past 35 years, most power supplies have relied on power MOSFETs (metal oxide semiconductor field effect transistors) – voltage-controlled devices made of silicon that are used to switch and condition electricity.

Data Center Dynamics
April 19, 2017
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I was led to believe we were heading for a wireless world but a look behind my TV tells a very different story when I see all those wires everywhere. Not to mention the increasing number of BRIDGES for IoT devices. We were hoping to talk about the wireless powered home and how GaN (gallium nitride) is making that possible! When it comes to gallium nitride, there is only one man to speak with, and he's truly changing the world at EPC. He first appeared on EP180 talking about Why Gallium Nitride Is About To Disrupt Silicon then returned on 203 The LIDAR Technology Behind An X-Ray Pill. But he has returned to today to talk about how it can wireless charge anything, and it will blow your mind. Dr. Alex Lidow, is the CEO and co-founder of Efficient Power Conversion and he is going to talk about how tech will make power cords disappear and how EPC is leading the charge in the wireless space.

The Tech Blog Writer Podcast
April 14, 2017
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Alex Lidow, CEO of Efficient Power Conversion (EPC), assesses where the driverless vehicle sector is headed and the technologies which will help it realize its potential…

The Stack
March 17, 2017
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