关键词: 增量式 PID；推挽拓扑；稳压控制；开关变换器

Abstract: In order to solve the problems of large volume and large fluctuation of output voltage in traditional power supply, the switching converter control scheme based on incremental proportional-integral-differential (PID) correction is given. Because the push-pull topology does not need to consider magnetic saturation problem in small and medium power situations, the push-pull topology is used as the main power conversion unit in the scheme. Firstly, the working principle of push-pull topology is described. Based on this, the power conversion circuit of push-pull topology and the cyclic protection circuit are designed, and the control flow of each switch current overload and over current circuit is given in the middle period to realize the fast protection under the conditions of overload and short circuit. Then, in order to reduce the loss during the operation of the transformer, the design is carried out from the angle of magnetic electromotive force, and the design method of the main key parameters of the converter is given. In the control scheme, the output voltage of the converter is taken as the control output, and the incremental PID output equation is derived based on the position PID, and the workflow of the system software is designed. Finally, the prototype is designed and the experimental data are obtained to verify the accuracy of the theoretical design.

Key words: incremental PID; push-pull converter; voltage control; switch converter