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钱洪途,朱永生,邓光敏,刘雯,陈敦军,裴轶.级联结构氮化镓功率器件及其在无线电能传输系统中的应用[J].电源学报,2019,17(3):38-43
级联结构氮化镓功率器件及其在无线电能传输系统中的应用
Cascode GaN Power Device and Its Application in Wireless Power Transmission System
投稿时间:2019-02-28  修订日期:2019-05-01
DOI:10.13234/j.issn.2095-2805.2019.3.38
中文关键词:  氮化镓  高电子迁移率晶体管  级联结构  无线电能传输
英文关键词:gallium nitride(GaN)  high electron mobility transistor(HEMT)  cascode structure  wireless power transmission
基金项目:国家重点研发计划资助项目(2017YFB0402900)
作者单位E-mail
钱洪途 南京大学电子科学与工程学院, 南京 210093
苏州能讯高能半导体有限公司, 苏州 215300 
 
朱永生 苏州捷芯威半导体有限公司, 苏州 215123  
邓光敏 苏州捷芯威半导体有限公司, 苏州 215123  
刘雯 西交利物浦大学电气与电子工程系, 苏州 215123  
陈敦军 南京大学电子科学与工程学院, 南京 210093  
裴轶 苏州捷芯威半导体有限公司, 苏州 215123 Yi.pei@gpower-semi.com 
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中文摘要:
      为了进一步提升电能转换效率,介绍了一款基于650 V氮化镓高电子迁移率晶体管GaN HEMT(galliumnitride high electron mobility transistor)的共栅共源级联(cascode)结构开关管及其在无线电能传输方面的应用。在GaN HEMT器件设计方面,通过仿真讨论了器件的场板设计对电容和电场的影响。所制造的cascode器件在650 V时漏电约为2 μA,在源漏电压400 V时输入电容Ciss、输出电容Coss和反向传输电容Crss分别为1 500 pF、32 pF和12 pF,动态导通电阻升高约16%。基于该款cascode器件设计并展示了一款240~320 kHz、满载功率1 kW的无线充电样机,在200~1 000 W负载范围内效率明显高于Si器件,最高效率超过95%。
英文摘要:
      To achieve a higher power conversion efficiency, a cascode structure based on 650 V gallium nitride high electron mobility transistor(GaN HEMT) was introduced, together with its applications in wireless power transmission. From the aspect of GaN HEMT design, the effects of field plate design on capacitance and electric field were discussed through simulations. The fabricated cascode device had a leakage current of 2 μA at drain-source voltage of 650 V. At 400 V, the input capacitance Ciss, the output capacitance Coss and the reverse transfer capacitance Crss were 1 500 pF, 32 pF and 12 pF, respectively, and the dynamic on-resistance increased by about 16%. Based on the design of this cascode device, a wireless charging prototype with operation frequency of 240~320 kHz and full-load power of 1 kW was designed and presented. Compared with the equivalent Si device, its efficiency was obviously higher within the load range of 200~1 000 W, with the peak efficiency higher than 95%.
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