摘要
在宽范围输出电压及负载变化范围较大的应用场合,LLC谐振变换拓扑的高频区不单调现象及考虑过高开关频率的限制,单纯的调频控制难以满足要求,业界常用的解决方案是在PFM基础上引入PWM控制。这种混合控制模式的LLC电路在PWM工作模态特定条件下桥式电路出现的"上管MOSFET体二极管反向恢复、下管开通"的瞬时直通现象将引起MOSFET电压电流应力超标而失效。分析了失效模式机理、提出了解决方案并进行了实验验证。
In wide output voltage and load range applications,since the non-monotonic phenomenon in high frequency region of the LLC resonant converter and considering of limiting the too high switching frequency,a simple frequency control is difficult to satisfy need and the usual approach is to introduce PWM control on the basis of PFM. The LLC resonant converter exists such a operating state under certain conditions of PWM control mode,that is,during body diode reverse recovery of the upper MOSFET of bridge circuit,the lower MOSFET is turned on simultaneously,the instantaneous pass-through phenomenon will cause excessive voltage and current stress and lead to MOSFET failure.The mechanism failure is analyzed,the solution is proposed and makes experimental tests are made and get real results.
作者
包尔恒
邓桂芳
何玲
周小义
BAO Erheng;DENG Guifang;HE Ling;ZHOU Xiaoyi(Automation Engineering Department, Guangdong Technical College of Water Resources and Electric Engineering, Guangzhou 510925, China;Zhuhai Enpower Electric Co., Ltd., Zhuhai Guangdong 519085, China)
出处
《电子器件》
CAS
北大核心
2018年第3期621-624,共4页
Chinese Journal of Electron Devices
基金
广东水利电力职业技术学院"一流高职"科学研究和社会服务能力建设项目(cy06040301)