论文成果
Global continuous robust finite-time control design for unified power flow controller
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关键字:finite-time stability control; global continuous robust control; PCDH system; transient stability; UPFC
摘要:This article proposes a global continuous robust finite-time control (GCRFTC) for a unified power flow controller (UPFC) to improve the transient stability and oscillation damping of power system. First, by using an appropriate coordinate transformation, the nonlinear system of the UPFC is transformed into a nonlinear port-controlled dissipative Hamiltonian (PCDH) system. Second, based on the PCDH system, by utilizing the Hamiltonian structural properties and the energy shaping plus damping injection technique, a proper form of a Hamiltonian function is obtained for the PCDH system. Third, using the Hamiltonian function method, finite-time stability criterion and robust control technique, the GCRFTC is designed and theoretically proved, and the chattering phenomena and the high-order frequencies of the power system are avoided effectively. Lastly, a six-bus and two power plants power system with a UPFC is used to test the effectiveness and robustness of the GCRFTC. Simulation results show that the speed, overshoot, and settling time of the response and the transient conditions of the GCRFTC are further improved in comparison with that of the robust finite-time power flow control.
卷号:28
期号:14
是否译文:

张涛

教师拼音名称:zhangtao

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所在单位:自动化教研室

学历:博士研究生

学位:博士

毕业院校:东南大学

所属院系:自动化与电子工程学院

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