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LLC resonant converters have emerged as the preferred topology for an intermediate 48 V to 12 V conversion due to their high efficiency, high power density and good dynamic response. The outstanding performance resulting from the combination of this topology with GaN transistors has been demonstrated in the past. This article presents how the newest generation of GaN devices, such as those from EPC, continues to push the envelope even further.
Bodo’s Power Systems
November, 2023
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The EPC9159 is a 1 kW, 48 V/ 12 V, LLC converter in a tiny 17.5 mm x 22.8 mm footprint for state-of-the-art power density of 5130 W/in3.
EL SEGUNDO, Calif.— September 2023 — EPC announces the availability of the EPC9159, a 48 V / 12 V, LLC converter designed for high-density 48 V server power and DC-DC converters. This reference design can deliver 1 kW of power in a tiny 17.5 mm x 22.8 mm footprint for a power density of 5130 W/cm3. This is achieved by employing gallium nitride (GaN) power switches operating at high switching frequencies in both the primary and secondary circuits.
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Growing computational power and miniaturization of electronics in computing and data centers is increasingly putting pressure on 48-V power delivery and conversion systems. High-efficiency and high-power–density converters enable a reduction in power losses at the system level while allowing smaller form factors. In this context, LLC resonant topologies combined with GaN technology succeed to deliver outstanding performance, as it has been demonstrated with multiple examples. This article will show the key design parameters and components to achieve beyond 4 kW/in3 of power density in a 48-V to 12-V LLC converter using eGaN® FETs.
Power Electronics News
December, 2022
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EPC introduces the 40 V, 1.1 mΩ EPC2066 GaN FET, offering designers a significantly smaller and more efficient device than silicon MOSFETs for high-performance, space-constrained applications.
EL SEGUNDO, Calif. — May 2022 — Efficient Power Conversion Corporation, the world’s leader in enhancement-mode gallium nitride (eGaN®) power FETs and ICs, expands the selection of low voltage, off-the-shelf gallium nitride transistors with the introduction of the EPC2066 (0.8 mΩ typical, 40 V) GaN FET.
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Users of GaN FETs and ICs now have a tool to determine the derating needed in an application and reduce voltage derating factors. EPC has developed a first principle physics-based model to explain RDS(on) rise in GaN transistors under hard switching conditions. This article provides demonstrations for two synchronous rectification application examples.
Electronic Specifier
May, 2022
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The design of an LLC resonant converter illustrates how eGaN FETs can shrink the physical size of modern supply circuitry.
Power Electronic Tips
October, 2021
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With the continuous and fast-paced growth of data processing infrastructures, higher power levels that can be delivered in smallest areas are demanded.
Power Systems Design
September, 2021
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The combination of MPS (Monolithic Power Systems) controllers with ultra-efficient eGaN® FETs from EPC (Efficient Power Conversion) enable best-in-class power density of 1700 W/in3 in high efficiency, low cost LLC DC-DC Conversion
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It is expected that there will be more than 175 zettabytes of data by 2025. Data center construction and deployment, as well as upgrading efforts in existing older ones, is booming with the advent of 5G, starting in earnest at the 2020 Olympics in Japan (6G is already being discussed for future development) and the growth of artificial intelligence (AI) and machine learning (ML).
It makes so much sense to me that GaN should be the power transistor of choice in Data Center power architectures where size, efficiency and speed are critical. In all the topologies with 48 VIN, the highest efficiency was achieved with GaN devices.
EDN
June 2019
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