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Zhang, Gang,Qian, Jianglin,Liu, Zhigang,Tian, Zhongbei The Korean Institute of Power Electronics 2019 JOURNAL OF POWER ELECTRONICS Vol.19 No.1
Four-quadrant converters (4QCs) are widely used as AC-DC power conversion interfaces in many areas. A control delay commonly exists in the digital implementation process of 4QCs, especially for high power 4QCs with a low switching frequency. This usually results in alternating current distortion, increased current harmonic content and system instability. In this paper, the control delay is divided into a computation delay and a PWM delay. The impact of the control delay on the performance of a 4QC is briefly analyzed. To obtain a fundamental value of AC current that is as accurately as possible, a specific sampling method considering the PWM pattern is introduced. Then a current predictive control based on a modified z-transform is proposed, which is effective in reducing the control delay and easy in terms of digital implementation. In addition, it does not depend on object models and parameters. The feasibility and effectiveness of the proposed predictive current control method is verified by simulation and experimental results.
Gang Zhang,Jianglin Qian,Zhigang Liu,Zhongbei Tian 전력전자학회 2019 JOURNAL OF POWER ELECTRONICS Vol.19 No.1
Four-quadrant converters (4QCs) are widely used as AC-DC power conversion interfaces in many areas. A control delaycommonly exists in the digital implementation process of 4QCs, especially for high power 4QCs with a low switching frequency. This usually results in alternating current distortion, increased current harmonic content and system instability. In this paper, thecontrol delay is divided into a computation delay and a PWM delay. The impact of the control delay on the performance of a4QC is briefly analyzed. To obtain a fundamental value of AC current that is as accurately as possible, a specific samplingmethod considering the PWM pattern is introduced. Then a current predictive control based on a modified z-transform isproposed, which is effective in reducing the control delay and easy in terms of digital implementation. In addition, it does notdepend on object models and parameters. The feasibility and effectiveness of the proposed predictive current control method isverified by simulation and experimental results.