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This paper presents the performance evaluation of two control techniques, namely Dead Beat Control (DBC) and Hysteresis Band Control (HBC), in a three phase Shunt Active Power Filter (SAPF). The choice and implementation of the current controllers is vital for the achievement of a satisfactory filtering performance. Although these techniques have been applied previously to design SAPF for single phase distorted power system signals, in this paper we extend them to three phase distorted power system signals. In order to test the effectiveness of these two controllers, extensive simulations were conducted using MATLAB/simulink. The results obtained show the superiority of the hysteresis current controller over the dead beat controller in terms of exhibiting fast transient response and computational simplicity. These results are valid with real-time Opal-RT results.
Czasopismo
Rocznik
Tom
Strony
286--295
Opis fizyczny
Bibliogr. 28 poz., rys., tab., wykr.
Twórcy
autor
- Department of Electrical Engineering, National Institute of Technology, Rourkela, 769008, India
autor
- Department of Electrical Engineering, National Institute of Technology, Rourkela, 769008, India
autor
- Department of Electrical Engineering, National Institute of Technology, Rourkela, 769008, India
Bibliografia
- [1] S. J. Huang, J. C. Wu, D. D. Divan, A control algorithm for three phase three-wired active power filters under nonideal voltages, IEEE Transactions on Power Electronics 14 (1999) 753–760.
- [2] X. Yuan, W. Merk, H. Stemmler, J. Allmeling, Stationaryframe generalized integrators for current control of active power filters with zero steady-state error for current harmonics of concern under unbalanced and distorted operating conditions, IEEE Transactions on Industry Applications 38 (2002) 523–532.
- [3] V. Soares, P. Verdelho, G. D. Marques, An instantaneous active and reactive current component method for active filters, IEEE Transactions on Power Electronics 15 (2000) 660–669.
- [4] P. Mattavelli, A closed-loop selective harmonic compensation for active filters, IEEE Transactions on Industry Applications 37 (2001) 81–89.
- [5] M. P. Kazmierkowski, M. A. Dzieniakowski, Review of current regulation techniques for three-phase pwm inverters, in: Proc. IEEE IECON’94, 1994, pp. 567–575.
- [6] M. A. Rahman, T. S. Radwan, A. M. Osheiba, A. E. Lashine, Analysis of current controllers for voltagesource inverter, IEEE Transactions on Industrial Electronics 44 (4) (1997) 477–485.
- [7] L. Malesani, P. Tenti, A novel hysteresis control method for current controlled vsi pwm inverters with constant modulation frequency, IEEE Transactions on Industry Applications 26 (1990) 88–92.
- [8] S. Buso, L. Malesani, P. Mattavelli, Comparison of current control techniques for active filter applications, IEEE Transactions on Power Electronics 45 (1998) 722–729.
- [9] T. Kawabata, T. Miyashita, Y. Yamamoto, Dead beat control of three phase pwm inverter, IEEE Transactions on Power Electronics 5 (1990) 21–28.
- [10] Y. Xiaojie, L. Yongdong, A shunt active power filter using dead-beat current control, in: IEEE 2002 28th Annual Conference-IECON 02, Vol. 1, Industrial Electronics Society, 2002, pp. 633–637.
- [11] A. Kawamura, T. Haneyoshi, R. G. Hoft, Deadbeat controlled pwm inverter with parameter estimation using only voltage sensor, in: Conf. Rec. IEEE PESC’86, 1986, pp. 576–583.
- [12] L. Malesani, P. Tenti, E. Gaio, R. Piovan, Improved current control technique of vsi pwm inverters with constant modulation frequency and extended voltage range, IEEE Transactions on Industry Applications 27 (1991) 365–369.
- [13] A. A. Girgis,W. B. Chang, E. B. Makram, A digital recursive measurements scheme for on-line tracking of power system harmonics, IEEE Transactions on Power Delivery 6 (3) (1991) 1153–1160.
- [14] V. Moreno, A. Pigazo, R. I. Diego, Reference estimation technique for active power filters using a digital kalman algorithm, in: Proc. IEEE 10th International Conf. on Harmonics and Quality of Power (ICHQP’02), Rio de Janeiro, Brazil, 2002.
- [15] V. M. Moreno, A. P. Lopez, R. I. D. Gracias, Reference current estimation under distorted line voltage for control of shunt active power filters, IEEE Transactions on Power Electronics 19 (4) (2004) 988–994.
- [16] Z. G. Zhang, S. C. Chan, A recursive frequency estimator using linear prediction and a Kalman-filter-based iterative algorithm, IEEE Transactions on Circuits and Systems 55 (6) (2008) 576–580.
- [17] M. S. Sachdev, H. C. Wood, N. G. Johnson, Kalman filtering applied to power system measurements for relaying, IEEE Transactions on Power Apparatus and Systems PAS-104 (12) (1985) 3565–3573.
- [18] R. A. Zadeh, A. Ghosh, G. Ledwich, Combination of Kalman filter and least-error square techniques in power system, IEEE Transactions on Power Delivery 25 (4) (2010) 2868–2880.
- [19] Y. Xiaojie, L. Yongdong, A shunt active power filter using dead-beat current control, industrial electronics society, in: IEEE 2002 28th Annual Conference-IECON 02, Vol. 1, 2002, pp. 633–637.
- [20] H. Abu-Rub, J. Guzinski, Z. Krzeminski, H. A. Toliyat, Predictive current control of voltage-source inverters, IEEE Transactions on Industrial Electronics 51 (3) (2004) 585–593.
- [21] L. Malesani, P. Mattavelli, S. Buso, Robust dead-beat current control for pwm rectifiers and active filters, IEEE Transactions on Industry Applications 35 (3) (1999) 613–620.
- [22] C.-T. Pan, T.-Y. Chang, An improved hysteresis current controller for reducing switching frequency, IEEE Transactions on Power Electronics 9 (1) (1994) 97–104.
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- [25] P. T. Cheng, S. Bhattacharya, D. D. Divan, Line harmonics reduction in high-power systems using square-wave inverters-based dominant harmonic active filter, IEEE Transactions on Power Electronics 14 (1999) 265–272.
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Typ dokumentu
Bibliografia
Identyfikator YADDA
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