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EPC introduces monolithic GaN Power Transistor Half Bridge

Integration increases efficiency and power density for complete buck converter systems

EPC has announced the EPC2100, the first commercially available 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.

According to EPC, the new device  offers power systems designers a solution that increases efficiency and power density for complete buck converter systems approaching 93 percent at 10 A, and over 90.5 percent at 25 A when switching at 500 kHz and converting from 12 V to 1.2 V.

Each device within the EPC2100 half-bridge component has a voltage rating of 30V.  The upper FET has a typical RDS(on) of 6 mΩ, and the lower FET has a typical RDS(on) of 1.5 mΩ. The high-side FET is approximately one-fourth the size of the low-side device to optimize efficient DC-DC conversion in buck converters with a high VIN/VOUT ratio. The EPC2100 comes in a chip-scale package for improved switching speed and thermal performance, and is only 6 mm x 2.3 mm for increased power density.

"Now designers have the first example of what's to come with eGaN technology - a family of monolithic eGaN half-bridge devices that save space, improve efficiency, and lower system costs.  As power conversion systems stretch into the multi-megahertz domain, the integration of discrete devices becomes increasingly important for high system efficiency and power density," said Alex Lidow, EPC's co-founder and CEO.

The EPC9036 development board is 2in x 2in and contains one EPC2100 integrated half-bridge component using the Texas Instruments LM5113 gate driver, supply and bypass capacitors.  The board has been laid out for optimal switching performance and there are various probe points to facilitate simple waveform measurement and efficiency calculation.


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