Modeling and analysis of instantaneous active and reactive power for PWM AC/DC converter under generalized unbalanced network

This paper proposes a new definition of instantaneous reactive power in the complex synchronous rotating frame and control scheme under unbalanced networks. The mathematical model of instantaneous active and reactive power has been derived for a pulsewidth-modulated (pwm) ac/dc converter under generalized unbalanced operating conditions. Based on this model, an unbalanced compensating control algorithm is proposed. Simulation and experimental results confirm the mathematical model as well as the control performance. The ripple component of instantaneous reactive power is found to be exactly the same as that of active power. The proposed definition of instantaneous reactive power in the synchronous rotating frame is shown to be consistent with the classical definition in both time and phasor domain. The proposed definition makes it possible to effectively design the controller for pwm converters under unbalance conditions.

[1]  T.A. Lipo,et al.  A nonlinear control of the instantaneous power in dq synchronous frame for PWM AC/DC converter under generalized unbalanced operating conditions , 2002, Conference Record of the 2002 IEEE Industry Applications Conference. 37th IAS Annual Meeting (Cat. No.02CH37344).

[2]  H. Stemmler,et al.  Stationary frame generalized integrators for current control of active power filters with zero steady state error for current harmonics of concern under unbalanced and distorted operation conditions , 2000, Conference Record of the 2000 IEEE Industry Applications Conference. Thirty-Fifth IAS Annual Meeting and World Conference on Industrial Applications of Electrical Energy (Cat. No.00CH37129).

[3]  Antti J. Koivo,et al.  Nonlinear predictive control with application to manipulator with flexible forearm , 1999, IEEE Trans. Ind. Electron..

[4]  Hong-Seok Song,et al.  Dual current control scheme for PWM converter under unbalanced input voltage conditions , 1999, IEEE Trans. Ind. Electron..

[5]  G. Joos,et al.  Design aspects of synchronous PWM rectifier-inverter systems under unbalanced input voltage conditions , 1989, Conference Record of the IEEE Industry Applications Society Annual Meeting,.

[6]  D. O. Koval Power system disturbance patterns , 1989 .

[7]  Prasad Enjeti,et al.  A new control strategy to improve the performance of a PWM AC to DC converter under unbalanced operating conditions , 1991 .

[8]  Thomas A. Lipo,et al.  A control method in dq synchronous frame for PWM boost rectifier under generalized unbalanced operating conditions , 2002, 2002 IEEE 33rd Annual IEEE Power Electronics Specialists Conference. Proceedings (Cat. No.02CH37289).

[9]  Edison Roberto Cabral da Silva,et al.  Current control of unbalanced electrical systems , 2001, IEEE Trans. Ind. Electron..

[10]  Aleksandar M. Stankovic,et al.  Frequency-domain observations on definitions of reactive power , 2000 .

[11]  Thomas A. Lipo,et al.  A generalized control method for input-output harmonic elimination for the PWM boost rectifier under simultaneous unbalanced input voltages and input impedances , 2001, 2001 IEEE 32nd Annual Power Electronics Specialists Conference (IEEE Cat. No.01CH37230).

[12]  Thomas A. Lipo,et al.  A novel control method for input output harmonic elimination of the PWM boost type rectifier under unbalanced operating conditions , 2000, APEC 2000. Fifteenth Annual IEEE Applied Power Electronics Conference and Exposition (Cat. No.00CH37058).

[13]  V. Blasko,et al.  A new mathematical model and control of a three-phase AC-DC voltage source converter , 1997 .

[14]  Y. Komatsu,et al.  A control method of active power filter in unsymmetrical voltage system , 1997, Proceedings of Second International Conference on Power Electronics and Drive Systems.

[15]  P. Rioual,et al.  Regulation of a PWM rectifier in the unbalanced network state using a generalized model , 1996 .