A practical analytical model to calculate the switching loss of cascode gallium nitride high electron mobility transistors(GaN HEMTs)is proposed.To facilitate analysis and application,the transmission delays introduce...A practical analytical model to calculate the switching loss of cascode gallium nitride high electron mobility transistors(GaN HEMTs)is proposed.To facilitate analysis and application,the transmission delays introduced by Si MOSFET and interconnection inductances are ignored in modeling.Meanwhile,the nonlinear junction capacitances of the device and circuit stray inductances are also incorporated to increase the accuracy of the model.The turn-on and turn-off switching processes are described in detail and the simplified equations can be easily solved by using mathematical tools.Based on the analytical model,loss evaluation of totem-pole PFC converter is introduced briefly.Finally,the accuracy of the model is validated by comparing the calculated loss and converter’s efficiency with experiment results.Peak efficiency of 99.26%is achieved for a 3.6 kW single phase CCM Totem-Pole PFC AC/DC converter switching at 50 kHz based on 650 V cascode GaN HEMTs.展开更多
传统单相三电平整流器的开关器件较多;两电平整流器开关器件相对少,但其交流侧输入滤波电感体积大,开关频率相对较高导致功率器件损耗增大,工作效率有所降低。针对上述问题,文中提出级联、电平等效、镜像、去冗余等三电平电路拓扑方案,...传统单相三电平整流器的开关器件较多;两电平整流器开关器件相对少,但其交流侧输入滤波电感体积大,开关频率相对较高导致功率器件损耗增大,工作效率有所降低。针对上述问题,文中提出级联、电平等效、镜像、去冗余等三电平电路拓扑方案,并以两电平伪图腾柱式功率因数校正电路(pseudo totem-pole power factor correction,PTP-PFC)为例进行上述拓扑方案的推导过程分析,提出一类三电平PTP-PFC电路。首先,对所提新型单相三电平PTP-PFC变换器进行工作原理分析,并提出一种适合此类拓扑的调制方法;其次,对所提拓扑进行功率器件数量、电压应力、损耗等方面分析和对比,总结出各电路特性;最后,设计输出电压400V、功率1kW的3种三电平PTP-PFC实验样机,实验结果证明级联、电平等效、镜像、去冗余等三电平电路拓扑方案的有效性,同时验证所提三电平PTP-PFC电路理论分析的正确性和工程应用的可行性。展开更多
基金Supported by National Key Research and Development Program of China(2016YFB0900400)National Natural Science Foundation of China(51777084),and Lite-On Research Program(HUST201501).
文摘A practical analytical model to calculate the switching loss of cascode gallium nitride high electron mobility transistors(GaN HEMTs)is proposed.To facilitate analysis and application,the transmission delays introduced by Si MOSFET and interconnection inductances are ignored in modeling.Meanwhile,the nonlinear junction capacitances of the device and circuit stray inductances are also incorporated to increase the accuracy of the model.The turn-on and turn-off switching processes are described in detail and the simplified equations can be easily solved by using mathematical tools.Based on the analytical model,loss evaluation of totem-pole PFC converter is introduced briefly.Finally,the accuracy of the model is validated by comparing the calculated loss and converter’s efficiency with experiment results.Peak efficiency of 99.26%is achieved for a 3.6 kW single phase CCM Totem-Pole PFC AC/DC converter switching at 50 kHz based on 650 V cascode GaN HEMTs.
文摘传统单相三电平整流器的开关器件较多;两电平整流器开关器件相对少,但其交流侧输入滤波电感体积大,开关频率相对较高导致功率器件损耗增大,工作效率有所降低。针对上述问题,文中提出级联、电平等效、镜像、去冗余等三电平电路拓扑方案,并以两电平伪图腾柱式功率因数校正电路(pseudo totem-pole power factor correction,PTP-PFC)为例进行上述拓扑方案的推导过程分析,提出一类三电平PTP-PFC电路。首先,对所提新型单相三电平PTP-PFC变换器进行工作原理分析,并提出一种适合此类拓扑的调制方法;其次,对所提拓扑进行功率器件数量、电压应力、损耗等方面分析和对比,总结出各电路特性;最后,设计输出电压400V、功率1kW的3种三电平PTP-PFC实验样机,实验结果证明级联、电平等效、镜像、去冗余等三电平电路拓扑方案的有效性,同时验证所提三电平PTP-PFC电路理论分析的正确性和工程应用的可行性。