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January 2, 2013
Within the power electronics industry, GaN technology is growing out of its niche. The first GaN transistors are winning a growing share of the power electronics market. By Steve Soffels, Denis Marcon, and Stefaan Decoutere, IMEC www.bodospower.com
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Although, for the last few years, there has been a lot of talk about gallium nitride(GaN) based power transistors displacing the entrenched silicon MOSFETs, it might take some time before the emerging gallium nitride on silicon (GaN-on-Si) based power FETs enter the mainstream power conversion space. However, in the meantime, a handful of emerging applications are poised to tap the benefits of this promising power technology. Besides commercial availability with high reliability, there are a number of unique GaN characteristics that are fostering these new applications.
Ashok Bindra
How2Power Today
December, 2012
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With eGaN® FETs' high-performance capabilities, we have seen rapid adoption in applications for efficient DC/DC conversion, POL converters, Class D audio amplifier and high frequency circuits. Texas Instruments’ introduction of the industry's first 100V, half-bridge GaN FET driver (LM5113), optimized for use with enhancement-mode GaN (eGaN) field-effect transistors (FETs),has further propelled such an accelerated adoption pace in applications like high-performance telecom power supplies, networking and datacom centers.
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EDN China April 2012 Print Issue
EDN China April 2012
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Written by Peter Clarke - 3/7/2012 2:20 PM EST
LONDON - The market for power devices implemented in gallium nitride was less than $2.5 million in 2011, according to market research firm Yole Developpement (Lyon, France). However, there is a great deal of R&D activity and Yole sees the power GaN market growing to nearly $0 million in 2012 and $500 million in 2016.
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Gallium nitride has long been known to have useful properties when it comes to electronic components. Even so, its application has largely been confined to more exotic areas of the industry, particularly rf transistors.
But GaN is beginning to find application in what could be considered the mainstream, with some of its proponents suggesting its arrival could mark the beginning of the end for the traditional power mosfet.
By: Graham Pitcher
New Electronics
December 13, 2011
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Wide-bandgap materials, such as GaN and SiC, are enabling a new generation of power switching devices that switch faster and with fewer losses than the venerable silicon MOSFET, resulting in smaller, more efficient power supplies.
By Margery Conner
EDN
August 25, 2011
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The EPC9004 has been recognized by Bodo’s Power Systems as the Product of the Month in the September, 2011 issue of the magazine. The EPC9004 facilitates rapid design of high frequency switching power conversion systems based on the 200 V EPC2012 with a ready-made, easy to connect development board.
Bodo's Power Systems
September, 2011
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We know Efficient Power Conversion (EPC) has commercialized enhancement-mode GaN-on-Si FETs, or eGaN FETs as EPC calls them, for more than a year now. Concurrently, it has been working with partners to realize dedicated drivers for its eGaN FETs, which offer lower RDS(ON) at higher voltages, lower gate charge, and no reverse recovery loss (QRR)—all these properties from a smaller die size than silicon. In essence, by comparison to silicon MOSFETs, the eGaN FETs offer a dramatic reduction in figures of merit or FOM.
By Ashok Bindra
How2Power
June, 2011
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GaN (Gallium-Nitride) FETs appear poised to eat into silicon FETs market share as switching devices for high-voltage power conversion circuits.
By Margery Conner
EDN
June 20, 2011
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EPC, the first company to deliver enhancement mode GaN (eGaN™) FETs to the market, has been recognized by EDN for inclusion on their list of "100 Hot Products for 2010."
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The intermediate bus architecture (IBA) is currently the most popular power system architecture in computing and telecommunications equipment. It typically consists of a +48 V system power distribution bus that feeds on-board bus converters, which in turn supply power to nonisolated, dc-dc converters. These nonisolated converters generate the low supply voltages required to power the various logic circuits. Because of their proximity to the circuits they power, these converters are commonly referred to as point-of-load converters (POLs).
By Johan Strydom, EPC, El Segundo, Calif. and Bob White, Embedded Power Labs, Highlands Ranch, Colo.
How2Power
November, 2010
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The latest report from Yole Développement “GaN Technologies for Power Electronics Applications: Industry and Market Status & Forecasts” says the Total Accessible Market is $16.6b and is envisioned to be split into Power ICs, Power Discretes and Power Modules.
Compound Semiconductor
October 28, 2010
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EPC, the first company to deliver enhancement mode GaN (eGaNTM) FETs to the market, has been named in EE Times ‘60 Emerging Startups’ list for the second consecutive year
By Peter Clark
EE Times
November 7, 2010
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The weather was perfect in Chi-town at the Darnell Power Forum but the technologies were hot including a talk by Alex Lidow CEO of Efficient Power Conversion Corp., who discussed why the power industry should consider GaN for improving performance.
By Paul O’Shea
EEBEAT
September 14, 2010
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A startup led by chip veteran Alex Lidow has officially announced its formation, disclosed its supply-chain partners and unveiled its first products in the emerging gallium nitride (GaN) arena.
By Mark LaPedus
EE Times
March 8, 2010
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The enhancement mode -normally OFF- GaN technology was explicitly developed to replace power MOSFETs. Says Alex Lidow, EPC’s co-founder and CEO, enhancement mode - rather than depletion mode - is essential for GaN to become a broad-scale silicon power MOSFET replacement.
By Margery Conner
EDN
March 5, 2010
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A breakthrough in processing gallium nitride (GaN) on a silicon substrate has produced enhancement-mode FETs with high conductivity and hyperfast switching. Its cost structure and fundamental operating mechanism are similar to silicon-only MOSFET alternate.
Article By Sam Davis, Editor in Chief
Power Electronics Technology
March 1, 2010
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