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宜普电源转换公司(EPC)于半导体展与工程师会面、释放创新力量

宜普电源转换公司(EPC)于半导体展与工程师会面、释放创新力量

针对DC/DC、激光雷达(LiDAR)、无线电源及其它很多应用的客户群正在不断地扩大,宜普电源转换公司(EPC)继续其创新之路,在2019年3月及4月里,于全球著名展览会与设计工程师会面并答疑解难,旨在帮助工程师发挥氮化镓技术的优势,携手打造共创共赢的局面。

宜普电源转换公司(EPC)的专家于全球展览会与设计工程师会面,希望加深与氮化镓技术相关的知识交流,使得工程师可以利用基于氮化镓器件的解决方案,创新新一代的设计。

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Efficient Power Conversion (EPC) to Sponsor Inaugural ‘GaN Con’ with Yole Développement (Yole) and SEMI Covering the Entire Power GaN Industry from Manufacturers to End Users

Efficient Power Conversion (EPC) to Sponsor Inaugural ‘GaN Con’ with Yole Développement (Yole) and SEMI Covering the Entire Power GaN Industry from Manufacturers to End Users
In this conference GaN market and technology status will be addressed and its future evolution will be debated by mixing visions from designers, manufacturers, and end users. EL SEGUNDO, Calif. — January 2019 — Efficient Power Conversion (EPC) is joining forces with Yole Développement (Yole) and SEMI to sponsor the first ever ‘GaN Con,’ an industry networking event covering the entire power GaN industry from manufacturers to end users. The theme of GaN Con is “Power GaN: From promises to possible market explosion” and is focused on the emerging GaN ... 阅读全文
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为什么采用氮化镓器件?

为什么采用氮化镓器件?

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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氮化镓的雷霆威力及演变

氮化镓的雷霆威力及演变

从2010年开始,自硅基氮化镓(GaN)晶体管商用化后,低压氮化镓晶体管推动了很多全新应用的发展。氮化镓器件具备超快速开关,推动全新市场诸如激光雷达、包络跟踪及无线电源市场的出现。这些全新应用进一步实现更强大的供应链、低制造成本及器件前所未有的高可靠性。这些优势使得比较保守的设计工程师在DC/DC转换器、AC/DC转换器及车载等各种应用开始对氮化镓器件进行评估。在本文章系列,我们将讨论多种发挥氮化镓器件优势的应用,实现最终产品差异化的竞争优势。首先,我们会探讨是什么因素加快了氮化镓器件的普及。

Power Systems Design
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The Race to Cut the Power Cord is Already Happening

The Race to Cut the Power Cord is Already Happening
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
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Why a world without power cords is now within reach

Why a world without power cords is now within reach
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
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GaN FETs Drive Fidelity and Efficiency in Class-D Audio Amplifiers

GaN FETs Drive Fidelity and Efficiency in Class-D Audio Amplifiers
With the current maturity of Class-D audio amplifier architectures, amplifier fidelity and efficiency limitations are primarily at the device level. Silicon MOSFETs have been evolving for almost forty years, and their progress towards a perfect switch has slowed dramatically. There are some fundamental characteristics of MOSFETs that degrade sound quality and efficiency. In 2010, the enhancement mode Gallium nitride (GaN) power FET was introduced by Efficient Power Conversion (EPC), providing a large step towards the perfect switch. Audio Engineering Society May 11, 2017 Read ... 阅读全文
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This Wireless Desktop Could Foreshadow Our Future Without Cords

This Wireless Desktop Could Foreshadow Our Future Without Cords
Wireless charging promises a cord-free future, one that offers freedom from being tethered to the end of a charging cable. One company might have its finger on the pulse for this wirelessly powered future. Alexander Lidow is the CEO and founder of Efficient Power Conversion, a company looking to expand upon its namesake. EPC most notably displays how it wants to revolutionize wireless charging with a seemingly simple desktop. Interesting Engineering May 23, 2017 Read article 阅读全文
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如何剪断电源线 -- 这是无线充电发展的重要时刻

如何剪断电源线 -- 这是无线充电发展的重要时刻

我们讨论无线充电的发展已经有相当的一段时间,无线充电不是一个全新的议题。可惜的是,该技术一直以来仍然未被消费者广泛地采纳。可是,传输线圈的设计最近采用了创新的方法,使得无线充电技术做好准备,可以被广泛应用于不同的领域。

How2Power
2017年5月
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硅基氮化镓功率器件如何把硅基功率MOSFET逐出市场

硅基氮化镓功率器件如何把硅基功率MOSFET逐出市场

氮化镓(GaN)功率晶体管专为高效电源转换而设计,投产已经有7年了。由于氮化镓器件具备优越的开关速度,因此它推动了新兴市场的发展,例如激光雷达、包络跟踪及无线充电市场。 这些市场使得氮化镓产品得以大量投产、实现低生产成本及高可靠性。 这些优势对于就算是比较保守的设计工程师来说,都是十分吸引的,使得他们在诸如DC/DC转换器、AC/DC转换器及汽车应用中,开始了对氮化镓器件进行评估。那么,目前120亿美元的硅基功率MOSFET市场在转为氮化镓晶体管市场的过程中,还有什么阻力吗?信心。

Alex Lidow
2017年3月
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宜普电源转换公司(EPC)宣布位于美国弗吉尼亚州Blacksburg的eGaN FET及 IC应用中心落成启用并聘任Suvankar Biswas博士为高级应用工程师

宜普电源转换公司(EPC)宣布位于美国弗吉尼亚州Blacksburg的eGaN FET及 IC应用中心落成启用并聘任Suvankar Biswas博士为高级应用工程师

宜普电源转换公司(EPC)宣布位于美国弗吉尼亚州Blacksburg的eGaN® FET及 IC应用中心落成启用并聘任Suvankar Biswas博士为高级应用工程师

宜普电源转换公司(EPC)宣布位于美国弗吉尼亚州(Virginia)的Blacksburg应用中心落成。该中心进一步支持增强型氮化镓晶体管及集成电路的研发及应用,从而扩大潜在市场的覆盖率。除了基于传统的场效应晶体管及集成电路的功率转换应用外,氮化镓技术推动新兴应用的出现,包括无线电源传输、应用于全自动驾驶车辆的激光雷达技术及 支持4G和5G通信标准的包络跟踪应用。

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针对伺服器应用的新兴技术 - 六大热门趋势

针对伺服器应用的新兴技术 - 六大热门趋势

氮化镓集成电路:提高伺服器的功效 --不论是大、小规模的数据中心都要面对减低功耗、冷却及占用空间等问题,而这些问题也是在伺服器内所面临及需要解决的问题。有的时候,细微的改变也可带来重大的效益。

TechBeacon
2016年8月2日
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