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具有未建模动态及输入输出约束的单相全桥逆变器动态面事件触发控制
引用本文:夏晓南,张天平,方宇,戴明生. 具有未建模动态及输入输出约束的单相全桥逆变器动态面事件触发控制[J]. 控制与决策, 2022, 37(11): 2907-2916
作者姓名:夏晓南  张天平  方宇  戴明生
作者单位:扬州大学信息工程学院,江苏扬州225127;扬州博尔特电气技术有限公司,江苏扬州225125
基金项目:国家自然科学基金项目(62073283);扬州市科技计划项目(YZ2021022).
摘    要:全桥逆变器是一类典型的开关型非线性系统,系统中存在很多非线性和不确定因素,易导致系统性能下降,甚至造成不稳定.对于具有未建模动态和时变输出约束的单相全桥逆变器系统,利用动态信号处理未建模动态,设计辅助动态系统补偿控制信号,提出一种事件触发的自适应动态面跟踪控制策略;引入跟踪误差变换,解决输出约束问题;对控制输入进行约束,使用模糊系统调节参数向量的欧氏范数作为自适应参数,设计事件触发控制,这些技术的采用可有效降低控制器计算量,保证实际系统的可实现性,完善了具有输入约束条件下动态面控制方法的稳定性分析和证明.逆变器精确模型无需已知,实际控制系统具有较好的稳定性和鲁棒性.理论分析表明,闭环系统的所有信号半全局一致终结有界,所提出方案的有效性通过仿真实验得到进一步验证.

关 键 词:输出约束  输入约束  动态面控制  事件触发  未建模动态  单相全桥逆变器

Dynamic surface event-triggered control for single-phase full-bridge inverter with unmodeled dynamics and input output constraints
XIA Xiao-nan,ZHANG Tian-ping,FANG Yu,DAI Ming-sheng. Dynamic surface event-triggered control for single-phase full-bridge inverter with unmodeled dynamics and input output constraints[J]. Control and Decision, 2022, 37(11): 2907-2916
Authors:XIA Xiao-nan  ZHANG Tian-ping  FANG Yu  DAI Ming-sheng
Affiliation:College of Information Engineering,Yangzhou University,Yangzhou 225127,China; Yangzhou Boert Electric Technology Co.,Ltd,Yangzhou 225125,China
Abstract:Full bridge inverter is a kind of typical switched nonlinear system. There are many nonlinear and uncertain factors in the system, which easily lead to the performance of the system to be bad or make the system unstable. An event-triggered adaptive dynamic surface control scheme is proposed for the single-phase full-bridge inverter system with unmodeled dynamics and time-varying output constraint. The dynamic signal is utilized to handle unmodeled dynamics, and the auxiliary dynamic system is designed to compensate the control signal. The tracking error transformation is introduced to solve the problem of output constraint. The control input is constrained, and the Euclidean norm of the fuzzy system adjusting the parameter vector is used as the adaptive parameter, and the event triggered control is designed. These techniques effectively reduce the calculation of the controller and ensure the realizability of the actual system. The stability analysis and proof of the dynamic surface control method with input constraints are improved. The exact model of the inverter does not need to be known, and the actual control system has good stability and robustness. The analysis shows that all signals of the closed-loop system are semi-globally uniformly ultimately bounded, and the effectiveness of the proposed approach is verified through the simulation results.
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