LI Lian-qiang, GAO Jun-wei. Coordinated Control of Sliding Mode and Hamiltonian for PWM Rectifier[J]. International Journal of Plant Engineering and Management, 2018, 23(1): 44-52

Coordinated Control of Sliding Mode and Hamiltonian for PWM Rectifier
LI Lian-qiang, GAO Jun-wei
Qingdao University, Shandong Qingdao 266071, China
Aiming at the PWM rectifier control strategy of sliding mode control, steady state performance weak Hamiltonian control dynamic tracking performance is poor, the coordinated compound control is proposed, the feedback linearization controller and sliding mode controller Hamiltonian system is obtained, and the design of a coordinated control strategy. In order to verify the accuracy of this method, MATLAB/Simulink is used for simulation analysis. The simulation results show that the composite control can achieve the coordinated dynamic rapid tracking and constant DC output and unit power factor operation, and satisfy the control requirements of the rectifier, effectively reducing the disturbance effect on the system.Compared with Hamiltonian control, the proposed method combines the advantages of the two methods, which have the fast tracking performance and excellent steady-state characteristics, and the research prospect is broad.
Key words:    PWM rectifier    Hamiltonian control    sliding mode variable structure    feedback linearization    coordinated control   
Received: 2017-08-28     Revised:
DOI: 10.13434/j.cnki.1007-4546.2018.0107
Corresponding author:     Email:
Author description:
PDF(251KB) Free
LI Lian-qiang
GAO Jun-wei

[1] Zhang L, Zheng G, Li J. Direct power control strategy of ttthree-phase PWM rectifier[J]. Journal of Information & Computational Science, 2013,10(9):2807-2813
[2] Bao X, Zhuo F, Tian Y, et al. Simplified feedback linearization control of three-phase photovoltaic inverter with an LCL filter[J]. IEEE Transactions on Power Electronics, 2013, 28(6):2739-2752
[3] Oucheriah S, Guo L. PWM-based adaptive sliding-mode control for boost DC-DC converters[J]. IEEE Transactions on Industrial Electronics, 2013, 60(8):3291-3294
[4] Ortega R, Perez J A L, Nicklasson P J, et al. Passivity-based control of euler-lagrange systems:mechanical, electrical and electromechanical applications[M]. Springer Science & Business Media, 2013
[5] Zhang Y, Zhang Q, Li Z, et al. Comparative study of model predictive current control and voltage oriented control for PWM rectifiers[C]//International Conference on Electrical Machines and Systems(ICEMS). 2013 International Conference on. IEEE, 2013:2207-2212
[6] Puerto-Flores D, Scherpen J M A, Liserre M, et al. Passivity-based control by series/parallel damping of single-phase PWM voltage source converter[J]. IEEE Transactions on Control Systems Technology, 2014, 22(4):1310-1322
[7] Dong Q D, Choi Y S, Han H C, et al. Experimental validation of a fuzzy adaptive voltage controller for three-phase PWM inverter of a standalone DG unit[J]. IEEE Transactions on Industrial Informatics, 2015, 11(3):632-641
[8] Yang Y B, Xie Y X. Sliding mode control and feedback linearization of three-phase PWM rectifier[J]. Power Electronics, 2014, 48(11):66-67(in Chinese)
[9] Liu J K, Sun F C. Research and development on theory and of algorithms of sliding mode control[J]. Control Theory & Applications, 2007, 23(3):407-418
[10] Yu H S. Hamilton modeling and passive control of permanent magnet synchronousmotor[J]. Journal of Electrical Machinery and Control, 2006, 10(3):229-233(in Chinese)
[11] Yu H S, Yu J P, Liu X D. Passivity-based control of PMSM based on state error PCH method and PI regulation[J]. ICIC Express Letters, 2011,5(8):2811-2816
[12] Mao L L, Zhou K, Wang X D. Variable exponent reaching law sliding mode control of permanent magnet synchronous motor[J]. Electric Machines and Control, 2016, 20(4):106-111(in Chinese)
[13] Liu J, YU H, Wei X, et al. Port-controlled hamiltonian control of asynchronous motors and L2-gain disturbance attenuation[J]. Electric Machines & Control Application, 2010, 37(10):10~15
[14] Wang W, Yi J, Zhao D, et al. Design of a stable sliding-mode controller for a class of second-order underactuated systems[J]. IEE Proceedings-Control Theory and Applications, 2004, 151(6):683-690
[15] Zhang Z, Xie Y X, Yue J Y, et al. Feedback linearization and sliding mode control of three-phase voltage source PWM rectifier[J]. Journal of South China University of Technology (Natural Science Edition), 2009,37(11):71-75(in Chinese)