The impact of parallel GaN HEMTs on efficiency of a 12-to-1 V buck converter

The 1st IEEE Workshop on Wide Bandgap Power Devices and Applications Pub Date : 2013-10-01 DOI:10.1109/WIPDA.2013.6695596

Luke L. Jenkins, C. Wilson, J. Moses, Jeffrey M. Aggas, Benjamin K. Rhea, R. Dean

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引用次数: 15

Abstract

The impact of parallel GaN HEMTs on efficiency of a non-isolated point of load (POL) converter is investigated. The test results indicate how many parallel GaN HEMTs should be used to achieve maximum efficiency based on load current. Loss calculations and simulations provided initial direction, and ten POL converters were tested-only varying the number of paralleled GaN HEMTs. Each design was tested between 2.5 and 30 A output. Depending on application load and frequency, the optimal combination of GaN HEMTs can be derived from this data. Results indicate that above 19.5 A load, two EPC2015 switches and four EPC2015 synchronous rectifiers (referred to as 2×2015/4×2015) minimizes loss. Below 19.5 A load, a 1×2015/2×2015 HEMT combination minimizes loss. Results presented here should expedite the design process for future engineers seeking greater power supply efficiency with GaN transistors, and it provides novel test data over a large load spectrum, variety of frequencies, and ten combinations of GaN HEMTs in a non-isolated POL converter.

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并联GaN hemt对12 ~ 1v降压变换器效率的影响

研究了并联GaN hemt对非隔离负载点(POL)转换器效率的影响。测试结果表明，基于负载电流，应该使用多少并联GaN hemt来实现最大效率。损耗计算和模拟提供了初始方向，并测试了10个POL转换器-仅改变并联GaN hemt的数量。每个设计在2.5和30a输出之间进行测试。根据应用负载和频率，可以从这些数据中得出GaN hemt的最佳组合。结果表明，在19.5 A负载以上，2个EPC2015开关和4个EPC2015同步整流器(简称2×2015/4×2015)使损耗最小化。当负载低于19.5 A时，1×2015/2×2015 HEMT组合可将损耗降至最低。本文提出的结果将加快未来工程师利用GaN晶体管寻求更高电源效率的设计过程，并在非隔离POL转换器中提供大负载谱、各种频率和十种GaN hemt组合的新测试数据。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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The 1st IEEE Workshop on Wide Bandgap Power Devices and Applications

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