Decoupling control and zero dynamics stabilization for shunt hybrid active power filter

Wei Lu; Chun-wen Li

doi:10.1007/s11771-014-2141-y

Journal of Central South University ›› 2014, Vol. 21 ›› Issue (5) : 1946 -1955. DOI: 10.1007/s11771-014-2141-y

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Decoupling control and zero dynamics stabilization for shunt hybrid active power filter

Wei Lu ¹^,^a
, Chun-wen Li ¹

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Abstract

An inverse system method based optimal control strategy was proposed for the shunt hybrid active power filter (SHAPF) to enhance its harmonic elimination performance. Based on the inverse system method, the d-axis and q-axis current dynamics of the SHAPF system were decoupled and linearized into two pseudolinear subsystems. Then, an optimal feedback controller was designed for the pseudolinear system, and the stability condition of the resulting zero dynamics was presented. Under the control strategy, the current dynamics can asymptotically converge to their reference states and the zero dynamics can be bounded. Simulation results show that the proposed control strategy is robust against load variations and system parameter mismatches, its steady-state performance is better than that of the traditional linear control strategy.

Keywords

harmonics / hybrid active power filter / inverse system method / optimal control / zero dynamics

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Wei Lu, Chun-wen Li. Decoupling control and zero dynamics stabilization for shunt hybrid active power filter. Journal of Central South University, 2014, 21(5): 1946-1955 DOI:10.1007/s11771-014-2141-y

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References

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[1]	SinghB, Al-haddadK, ChandraA. A review of active filters for power quality improvement [J]. IEEE Transactions on Industrial Electronics, 1999, 46(5): 960-971

[2]	IEEE Standard 519-1992IEEE recommended practices and requirements for harmonic control in electrical power system [S], 1993

[3]	IEC 61000-3-2Electromagntic compatibility (EMC)-Part 3-2: Limitation for Harmonic Current Emissions (equipment input current up to and including 16A per phase) [S], 2001

[4]	SirjaniR, MohamedA, ShareefH. Comparative study of effectiveness of different var compensation devices in large-scale power networks [J]. Journal of Central South University, 2013, 20(3): 715-723

[5]	WangL-n, LuoAn. Prediction control of active power filters [J]. Journal of Central South University of Technology, 2003, 10(3): 260-264

[6]	Costa-CastelloR, GrinoR, ParpalR C, FossasE. High-performance control of a single-phase shunt active filter [J]. IEEE Transactions on Control Systems Technology, 2009, 17(6): 1318-1329

[7]	HuZ-k, ChenZ-w, HuaC-c, WangH-h, DingJ-feng. A novel digital control strategy of three-phase shunt active power filter under non-ideal mains voltages [J]. Journal of Central South University of Technology, 2011, 18(6): 2022-2030

[8]	PengF Z, AkagiH, NabaeA. A new approach to harmonic compensation in power-systems-a combined system of shunt passive and series active-filters [J]. IEEE Transactions on Industry Applications, 1990, 26(6): 983-990

[9]	ChenQ Q, ChenZ, MccormickM. The application and optimization of C-type filter in a combined harmonic power filter [C]. 35th Annual IEEE Power Electronics Specialists Conference, 2004, Aachen, Germany, IEEE Press: 1041-1045

[10]	FujitaH, AkagiH. A practical approach to harmonic compensation in power-systems-series connection of passive and active-filters [J]. IEEE Transactions on Industry Applications, 1991, 27(6): 1020-1025

[11]	SrianthumrongS, AkagiH. A medium-voltage transformerless ac/dc power conversion system consisting of a diode rectifier and a shunt hybrid filter [J]. IEEE Transactions on Industry Applications, 2003, 39(3): 874-882

[12]	TangtheerajaroonwongW, HatadaT, WadaK, AkagiH. Design and performance of a transformerless shunt hybrid filter integrated into a three-phase diode rectifier [J]. IEEE Transactions on Power Electronics, 2007, 22(5): 1882-1889

[13]	GuoW-f, WuJ, XuD-guo. A novel sliding mode control of a high-voltage transformerless hybrid shunt active power filter [C]. 4th IEEE Conference on Industrial Electronics and Applications, 2009, Xi’an, China, IEEE Press: 2899-2904

[14]	RahmaniS, HamadiA, Al-haddadK. A Lyapunov-function-based control for a three-phase shunt hybrid active filter [J]. IEEE Transactions on Industrial Electronics, 2012, 59(3): 1418-1429

[15]	BenedettoM D D, GlumineauA, MoogC H. The nonlinear interactor and its application to input-output decoupling [J]. IEEE Transactions on Automatic Control, 1994, 39(6): 1246-1250

[16]	DaiX, HeD, ZhangX, ZhangT. MIMO system invertibility and decoupling control strategies based on ANN αth-order inversion [J]. IEEE Proceedings-Control Theory and Applications, 2001, 148(2): 125-136

[17]	ZhaoD-y, ChenJ-y, WangZ-j, WangYi. An approximate inverse system control based active DC filter applied in HVDC [C]. 35th Annual IEEE Power Electronics Specialists Conference, 2004, Aachen, Germany, IEEE Press: 765-770

[18]	ZhouH-l, YangG, WangJun. Modeling, analysis, and control for the rectifier of hybrid HVdc systems for DFIG-based wind farms [J]. IEEE Transactions on Energy Conversion, 2011, 26(1): 340-353

[19]	FangJ-c, RenYuan. High-precision control for a single-gimbal magnetically suspended control moment gyro based on inverse system method [J]. IEEE Transactions on Industrial Electronics, 2011, 58(9): 4331-4342

[20]	FangJ-c, RenYuan. Decoupling control of magnetically suspended rotor system in control moment gyro based on an inverse system method [J]. IEEE/ASME Transactions on Mechatronics, 2012, 17(6): 1133-1144

[21]	LeeT S. Input-output linearization and zero-dynamics control of three-phase AC/DC voltage-source converters [J]. IEEE Transactions on Power Electronics, 2003, 18(1): 11-22

[22]	ErikssonR, SoderL. On the coordinated control of multiple HVDC links using input-output exact linearization in large power systems [J]. International Journal of Electric Power and Energy Systems, 2012, 43(1): 118-125

[23]	KailathTLinear systems [M], 1980, New Jersey, Prentice-Hall: 218-223

[24]	MarconiL, RonchiF, TilliA. Robust nonlinear control of shunt active filters for harmonic current compensation [J]. Automatica, 2007, 43(2): 252-263