EPC proudly announces the induction of Dr. Alex Lidow, CEO and co-founder into the ISPSD Hall of Fame 2019 El Segundo, Calif. – May 2019 – Efficient Power Conversion (EPC) Corporation proudly announces that Dr. Alex Lidow, CEO and co-founder, is inducted into the ISPSD Hall of Fame 2019. This prestigious honor is bestowed upon an honored contributor to advancing power semiconductor technology and sustaining the success of ISPSD. This Hall of Fame award was announced on May 20th, 2019 at 31st IEEE International Symposium on Power Semiconductor Devices and ICs (ISPSD) 2019 at ... 阅读全文

EPC's chief executive, Alex Lidow, believes his GaN devices now beat silicon on performance and price, reports Rebecca Pool.

For EPC chief executive, Alex Lidow, this year's PCIM Europe 2019 has been all about applications. Presenting myriad enhanced-mode GaN FETs and ICs in end-products, the company is making a big play for 48 V DC-DC power conversion in advanced computing and automotives.

Compound Semiconductor
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宜普电源转换公司的基于氮化镓的器件乃前沿技术。在本视频，宜普公司的首席执行官Alex Lidow于APEC展会现场与 Alix Paultre分享多个design in项目，从而展示基于氮化镓的器件的各种优势。

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宜普电源转换公司首席执行官兼共同创办人Alex Lidow于APEC 2019展览会的Ridley Engineering展览摊位进行演讲，题目是“硅已经死亡”。

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In this episode of PSDtv Alex Lidow, Chief Executive Officer and Co-Founder of Efficient Power Conversion (EPC) is at APEC 2019 in Anaheim and discusses why their GaN on Silicon devices make Silicon now dead.

PSDtv
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New converter topologies and power transistors promise to reduce the size and boost the efficiency of supplies that will run next-generation Artificial Intelligence (AI) platforms. In all the topologies with 48 VIN, the highest efficiency comes with using GaN devices. This is due to their lower capacitance and smaller size. With recent pricing declines in GaN power transistors, the cost comparison with silicon-based converters now strongly favors GaN in all the leading-edge solutions. Power Electronic Tips March, 2019 Read article 阅读全文

氮化镓技术已经成熟至可以挑战传统的硅技术。从2010年起，商用的低压硅基氮化镓功率器件实现了很多全新应用。具备高速开关性能的氮化镓器件也推动了全新市场的出现，例如激光雷达、包络跟踪及无线电源市场。这些全新应用有助供应链的开发、实现低制造成本及良好的器件可靠性记录。这一切对于比较保守的DC/DC转换器、AC/DC转换器及车载应用的设计工程师来说，是很好的理据，是时候开始对氮化镓器件进行评了。本文探讨加快采纳氮化镓器件的各项因素。

Electronics Weekly
2019年1月
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在此播客，我们跟宜普电源转换公司（EPC）的Alex Lidow谈论关于应用于车联网的氮化镓（GaN）技术。

Power Systems Design

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专为高效电源转换而设的氮化镓功率晶体管已经投产7年多了。全新的市场例如激光雷达、包络跟踪及无线电源，都成为氮化镓的新兴市场，因为氮化镓具备超高速的的开关速度。这些市场使得氮化镓产品得以量产、成本更低及具备优越的可靠性。这些优势为比较保守的设计工程师提供更大的利好条件，因此，DC/DC转换器工程师、AC/DC转换器及车载应用工程师都开始对氮化镓器件进行评估。要把120亿美元的硅基MOSFET市场转为氮化镓市场，还有什么壁垒呢？就是信心的问题。设计工程师、制造工程师、采购经理及管理层都必需对氮化镓技术的优势有足够的信心、相信氮化镓技术可以解决设计师对采用全新技术的风险的疑问。让我们看看3个主要构成风险的因素：供应链、成本及产品的可靠性。

IEEE Spectrum
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Spirit公司的Marti McCurdy及EPC公司首席执行官Alex Lidow分享氮化镓器件如何在性能及成本方面比硅器件优越，以及分享全球领导厂商如何与EPC公司合作，利用氮化镓器件的优势，开发出他们新一代的技术。

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Alex Lidow与他的团队队员Michael de Rooij、David Reusch及John Glaser于今天早上的专业研讨会上，与专业工程师（PE）分享实用的议题 -- “发挥氮化镓场效应晶体管及集成电路的最高性能，不仅仅替代MOSFET器件”，使得整个教室被挤得水泄不通。

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 Read article 阅读全文

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 ... 阅读全文

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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宜普电源转换公司首席执行官兼共同创办人Alex Lidow展示大面积无线充电技术如何传送电源。

Digital Journal
2017年9月18日
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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访问了EPC公司的首席执行官Alex Lidow。 EPC公司是制造氮化镓晶体管的领导厂商，目前带领业界开启无线充电新时代。在5至10年内，我们将有可能看到全屋或写字楼从采用昂贵的电源线改为在广泛地方采用无线充电解决方案供电。

NextBigFuture
2017年9月9日
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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. ... 阅读全文

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 ... 阅读全文

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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