摘要
Abstract
Soft switching is crucial for Boost converters,especially in the trend of high-frequency development.During boundary conduction mode(BCM),zero voltage switching(ZVS)of the main switch of the Boost converter is achieved without auxiliary circuits,which is favored in small and medium power applications.However,when the gain of the converter is greater than 2,ZVS based on BCM cannot be realized because of the positive resonance valley of its drain-source voltage vds in the dead zone.Therefore,a method extending the synchronized switch time is proposed based on time-domain dead zone analysis.A negative current is obtained on the inductor at the start of the dead zone,forcing the resonance valley of vds to get closer to 0.Due to the calculation of the resonance process,the complexity of the calculation process and result expression is greatly increased.However,in practice,the realization of soft switching only focuses on the start and end moment of the dead zone.Complex analysis of the resonance process is optional.Besides,nonlinear characteristics of the output capacitor Coss on power switches are ignored in the time-domain model,causing inaccurate inductor current at the start of the dead zone and is harmful to reducing switch losses.Thus,this paper proposes a ZVS method based on the energy model.
Firstly,the energy model of passive power components is established during the dead zone.Instead of considering the entire dead zone,only energy change at the start and end of the dead zone is focused.Secondly,conditions with power variations are analyzed,and the requirement for ZVS realization is given from the energy balance perspective.Then,considering the nonlinear characteristics of Coss,an accurate expression of the negative inductance current needed is obtained.The ZVS realization method based on the power model avoids complex resonant processes of time-domain modeling.Accordingly,less calculation is needed,and the accuracy of soft switching implementation is improved.Finally,a 500 W experimental prototype is built to verify the proposed method.
Experiments are conducted when the input voltage is 200 V and 250 V,respectively,and the output voltage is 300 V.With an input voltage of 200 V,the proposed method reduces the actual switching voltage by 86%compared with the critical conduction mode and 60%with the time-domain model.Under 250 V,the proposed method reduces the actual turn-on voltage by 70%and 47%compared with the critical conduction mode and the time-domain model,respectively.Since the switching current between different methods is almost the same,switching loss is proportional to the switching voltage.Therefore,the proposed method can effectively decrease switching loss.
Conclusions below can be drawn from experimental results.
(1)The proposed method is based on energy balancing the start and end of the dead zone,simplifying the analysis and calculation process of soft switching implementation.
(2)The proposed model considers the dynamic characteristics of the output capacitor Coss accurately,which improves the accuracy of the negative inductance current.
(3)Compared with the traditional time-domain model,the proposed model and ZVS implementation method can effectively reduce the actual switching loss and improve peak efficiency by 0.4%,which verifies the ZVS implementation method based on the energy model.关键词
Boost变换器/临界导通模式/能量模型/软开关/开关管输出电容Key words
Boost converter/boundary conduction mode/energy model/soft switching/switch output capa-citance分类
信息技术与安全科学
