Transient Performance Analysis and Frequency Domain Design of Switched DC-DC Converters with Right Half Plane Zero
Huang Jinfeng1,2, Li Linhong1, Xie Feng1, Zhang Pengchao2, Liu Shulin3
1. School of Electrical Engineering Shaanxi University of Technology Hanzhong 723001 China; 2. Shaanxi Key Laboratory of Industrial Automation Hanzhong 723001 China; 3. School of Electrical and Control Engineering Xi’an University of Science & Technology Xi’an 710054 China;
Abstract:When the duty cycle of switched DC-DC converter with right half-plane zero (RHPZ) changes abruptly, negative tuning will occur in the transient process. This phenomenon will lead to the deterioration of the transient performance of the system. The negative tuning duration period system is prone to form positive feedback and instability. The traditional frequency domain method cannot directly design the controller, so it is necessary to improve the performance of the system. Row control is more difficult than minimum phase system. Taking Buck-Boost converter with RHPZ as an example, this paper establishes a transient mathematical model of negative voltage, derives an expression to measure the performance of negative voltage, and gives a parameter design method to suppress negative voltage based on the relationship between the expression and the parameters of the converter. According to the characteristics of system transient performance after negative voltage regulation suppression and the characteristics of circuit topology of DC-DC converter with RHPZ switch, a control strategy combining limited duty cycle and frequency domain method is proposed. The experimental results show that the control strategy has good transient and steady-state performance.
皇金锋, 李林鸿, 谢锋, 张鹏超, 刘树林. 含有右半平面零点的开关DC-DC变换器暂态性能分析及频域法设计[J]. 电工技术学报, 2020, 35(10): 2170-2180.
Huang Jinfeng, Li Linhong, Xie Feng, Zhang Pengchao, Liu Shulin. Transient Performance Analysis and Frequency Domain Design of Switched DC-DC Converters with Right Half Plane Zero. Transactions of China Electrotechnical Society, 2020, 35(10): 2170-2180.
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2020, Vol. 35 
