ANALYSIS OF THE PASSIVE AND ACTIVE RECTIFIER CONFIGURATIONS AIMED TO REDUCE GRID CURRENT HARMONIC DISTORTION
DOI:
https://doi.org/10.24867/29UI03RaskovicKeywords:
Active and passive rectifier, higher harmonics, Boost PFC, harmonic distortion, voltage drop, power factorAbstract
In this paper, the effect of various derived passive and active rectifiers on the harmonic distortion of the grid current, as well as the power factor and ripple of the output DC voltage, is considered. Appropriate converter models were developed, including software that automates the examination of the influence of parameters on the operation of the diode rectifier, and simulations were performed. Corresponding responses including voltage and current waveforms, as well as the presence of higher harmonics and THD are presented and analysed.
References
[1] Hojoon Shin, Jung-Ik Ha: Active DC-link circuit for single-phase diode rectifier system with small capacitance, International Power Electronics and Application Conference and Exposition, Electronics ISBN: 978-1-4799-6768-1,2014.
[2] Miloš R. Nedeljković, Srđan L. Srdić: Energetski pretvarači 2, Topologije energetskih pretvarača. Elektrotehnički fakultet-Beograd, 2015.
[3] S.B.Dewan: Optimum input and output filters for a single-phase rectifier power supply, IEEE Trans.Industry Appl., vol. IA-17, no. 3, pp. 282-288, May/June 1981.
[4] Hansen, S: Harmonic Distortion of Rectifier Topologies for Adjustable Speed Drives. Institut for Energiteknik, Aalborg Universitet, 2000.
[5] A. Mansoor, W.M. Grady, R.S. Thallam, M.T. Doyle, S.D.Krein, M.J. Samotyj: Effect of supply voltage harmonics on the input current of single-phase diode bridge rectifier loads, IEEE Transactions on Power Delivery, 3.July 1995.
[6] Marko S. Vekić, Vladimir A., Zoltan Čorba: “Kvalitet električne energije-računske i laboratorijske vežbe”-pomoćni udžbenik, Novi Sad, 2018.
[7] A.R. Prasad, P.D. Zlogas, S. Manlas, “A novel passive waveshaping method for single-phase diode rectifiers”MPB Technologies Inc. 1725 North Service Road, Trans –Canada Highway Dorval, Quebec, December 1990.
[8] Yujiao Cui, Hua Han, Younglu Liu, Guo Xu, Mei Su, Shiming Xie, An efficiency-improved single-phase PFC rectifier with active Power decoupling,IEEE Transactions on Power Electronics, 17 March 2022.
[2] Miloš R. Nedeljković, Srđan L. Srdić: Energetski pretvarači 2, Topologije energetskih pretvarača. Elektrotehnički fakultet-Beograd, 2015.
[3] S.B.Dewan: Optimum input and output filters for a single-phase rectifier power supply, IEEE Trans.Industry Appl., vol. IA-17, no. 3, pp. 282-288, May/June 1981.
[4] Hansen, S: Harmonic Distortion of Rectifier Topologies for Adjustable Speed Drives. Institut for Energiteknik, Aalborg Universitet, 2000.
[5] A. Mansoor, W.M. Grady, R.S. Thallam, M.T. Doyle, S.D.Krein, M.J. Samotyj: Effect of supply voltage harmonics on the input current of single-phase diode bridge rectifier loads, IEEE Transactions on Power Delivery, 3.July 1995.
[6] Marko S. Vekić, Vladimir A., Zoltan Čorba: “Kvalitet električne energije-računske i laboratorijske vežbe”-pomoćni udžbenik, Novi Sad, 2018.
[7] A.R. Prasad, P.D. Zlogas, S. Manlas, “A novel passive waveshaping method for single-phase diode rectifiers”MPB Technologies Inc. 1725 North Service Road, Trans –Canada Highway Dorval, Quebec, December 1990.
[8] Yujiao Cui, Hua Han, Younglu Liu, Guo Xu, Mei Su, Shiming Xie, An efficiency-improved single-phase PFC rectifier with active Power decoupling,IEEE Transactions on Power Electronics, 17 March 2022.
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Published
2025-01-09
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Section
Pure energy technologies
