A carrier-based PWM method with zero-sequence current elimination for multiphase double-end winding drives

The increasing interest in multiphase drive systems has led to the development of different inverter topologies and different pulse width modulation (PWM) methods. Because of simple computation, Carrier-based PWM (CPWM) is better than Space Vector PWM (SVPWM) as the phase number increases. Although much work has been done on modifying PWM methods to reduce the common mode voltage (CMV), not enough work has been done on CPWM methods with CMV reduction for multiphase drive. This paper proposes a novel CPWM method that can effectively reduce the CMV voltage and the zero-sequence current, and employs the intersection plotting method to explain how the CMV is eliminated. Simulation results of a five-phase dual-H inverter demonstrate the theory analysis. However, because of the deadtime effect, the zero-sequence current in the experimental results is not totally eliminated, which needs further research.

[1]  Ranjan Kumar Behera,et al.  Common-Mode Voltage and Vibration Mitigation of a Five-Phase Three-Level NPC Inverter-Fed Induction Motor Drive System , 2015, IEEE Journal of Emerging and Selected Topics in Power Electronics.

[2]  Akshay Kumar Rathore,et al.  New Optimal Pulsewidth Modulation for Single DC-Link Dual-Inverter Fed Open-End Stator Winding Induction Motor Drive , 2015, IEEE Transactions on Power Electronics.

[3]  K. Gopakumar,et al.  A dual two-level inverter scheme with common mode voltage elimination for an induction motor drive , 2004, IEEE Transactions on Power Electronics.

[4]  Ned Mohan,et al.  Carrier-Based Implementation of SVPWM for Dual Two-Level VSI and Dual Matrix Converter With Zero Common-Mode Voltage , 2015, IEEE Transactions on Power Electronics.

[5]  Ned Mohan,et al.  On the Causes of Circulating Currents in PWM Drives With Open-End Winding AC Machines , 2013, IEEE Transactions on Industrial Electronics.

[6]  Yijie Zhou,et al.  Zero-Sequence Current Suppression Strategy of Open-Winding PMSG System With Common DC Bus Based on Zero Vector Redistribution , 2015, IEEE Transactions on Industrial Electronics.

[7]  J. Erdman,et al.  Effect of PWM inverters on AC motor bearing currents and shaft voltages , 1996 .

[8]  Obrad Dordevic,et al.  A Comparison of Carrier-Based and Space Vector PWM Techniques for Three-Level Five-Phase Voltage Source Inverters , 2013, IEEE Transactions on Industrial Informatics.

[9]  H. Stemmler,et al.  Configurations of high-power voltage source inverter drives , 2002 .

[10]  V. T. Somasekhar,et al.  Pulse width-modulated switching strategy for the dynamic balancing of zero-sequence current for a dual-inverter fed open-end winding induction motor drive , 2007 .

[11]  Emil Levi,et al.  Multiphase Electric Machines for Variable-Speed Applications , 2008, IEEE Transactions on Industrial Electronics.

[12]  K. Rajambal,et al.  Novel PWM technique for nth harmonic injection for N-phase VSIs , 2013, 2013 International Conference on Computation of Power, Energy, Information and Communication (ICCPEIC).

[13]  Martin Jones,et al.  A Space Vector PWM With Common-Mode Voltage Elimination for Open-End Winding Five-Phase Drives With a Single DC Supply , 2014, IEEE Transactions on Industrial Electronics.

[14]  Surapong Suwankawin,et al.  Design and Implementation of a Hybrid Output EMI Filter for High-Frequency Common-Mode Voltage Compensation in PWM Inverters , 2009 .

[15]  V. T. Somasekhar,et al.  A Dual Inverter Fed Four-Level Open-End Winding Induction Motor Drive With a Nested Rectifier-Inverter , 2013, IEEE Transactions on Industrial Informatics.

[16]  A. Iqbal,et al.  Comprehensive Relationship Between Carrier-Based PWM and Space Vector PWM in a Five-Phase VSI , 2009, IEEE Transactions on Power Electronics.

[17]  S. Srinivas,et al.  Bearing Currents and Shaft Voltage Reduction in Dual-Inverter-Fed Open-End Winding Induction Motor With Reduced CMV PWM Methods , 2015, IEEE Transactions on Industrial Electronics.

[18]  Emil Levi Multilevel multiphase drive systems - Topologies and PWM control , 2013, 2013 International Electric Machines & Drives Conference.