Development of SVPWM Common Mode Voltage Suppression Techniq
发布时间:2021-01-09 14:02
This thesis proposes a space vector modulation algorithm for an asymmetrical six-phase open-end winding permanent magnet synchronous motor(OEWPMSM)supplied by two two-level six-phase voltage source inverters(VSIs)with common mode voltage suppression.Two topologies are investigated.The first topology consists of the dual inverter with separated DC supplies,and the second topology is the dual-inverter fed from a single DC source.A six-phase open-end winding PMSM with open-end windings model is dev...
【文章来源】:上海交通大学上海市 211工程院校 985工程院校 教育部直属院校
【文章页数】:89 页
【学位级别】:硕士
【文章目录】:
Abstract
Acknowledgements
List of Acronyms
Chapter 1 Introduction of Project
1.1 Introduction
1.2 PWM control of multiphase drives
1.3 Two-level inverter fed multiphase machine
1.4 Multilevel inverter fed multiphase drives
1.5 Common mode voltage in dual-inverter open-end winding
1.6 Research objectives
1.7 Thesis structure
Chapter 2 Modeling and Control Dual-inverter Fed Six-Phase Open-end Winding PMSM Drive
2.1 Introduction
2.2 Space vector decomposition and Co-ordinate transformations
2.2.1 Transformation from nature Reference frame to stationary frame
2.2.2 Transformation from stationary reference frame to synchronous rotatingReference Frame
2.2.3 Transformation from original reference frame to synchronous rotating referenceFrame
2.3 Modeling of dual-inverter open-end winding PMSM drive
2.3.1 Mathematical modeling of six-Phase PMSM
2.3.2 Analysis of voltage vectors of dual-inverter six-phase PMSM drive
2.4 Control of dual-inverter fed six-phase open-end winding PMSM
2.4.1 Carrier-based PWM control algorithm
2.4.2 Space vector PWM control algorithm
2.4.2.1 Space vector and switching states in dual-inverter
2.4.2.2 Dwell time calculation
2.4.2.3 Switching sequence design
2.4.2.4 Vector control of dual-inverter fed six-phase open-end Winding PMSM
2.5 Summary
Chapter 3 Proposed SVPWM for the Dual-Inverter Open-End Winding Motor Drive with Zero Common Mode Voltage
3.1 Introduction
3.2 Topology of dual-inverter open-end topology with isolated supplies
3.3 Common mode voltage in dual-inverter open-end winding topology
3.3.1 Introduction
3.3.2 Modeling of common mode voltage(CMV) of dual-inverter drive
3.3.3 Effect of common mode voltage
3.3.4 Elimination techniques of common mode voltage
3.3.4.1 Hardware-based elimination techniques
3.3.4.2 Software-based elimination techniques
3.3.5 Proposed SVPWM for the dual-inverter open-end winding PMSM drive withZero common mode voltage
3.3.6 Simulation Results
3.4 Conclusion
Chapter 4 Common mode voltage elimination in dual-inverter fed six-phase open-end winding PMSM drives with a single DC supply
4.1 Introduction
4.2 Topology of dual-inverter open-end winding topology with single DC supply
4.3 Common mode voltage in dual-inverter open-end winding topology with single DC supply
4.3.1 Introduction
4.3.2 Modeling of common mode voltage(CMV) of dual-inverter drive open-end Winding with single DC supply
4.3.3 Proposed SVPWM scheme to eliminate CMV in dual-inverter open-end Winding topology supplied by single DC supply
4.3.4 Simulation Results
4.5 Summary
Chapter 5 Conclusions and recommendations
5.1 Conclusions
5.2 Recommendations for further research
Bibliography
Appendix A:List of publications
本文编号:2966793
【文章来源】:上海交通大学上海市 211工程院校 985工程院校 教育部直属院校
【文章页数】:89 页
【学位级别】:硕士
【文章目录】:
Abstract
Acknowledgements
List of Acronyms
Chapter 1 Introduction of Project
1.1 Introduction
1.2 PWM control of multiphase drives
1.3 Two-level inverter fed multiphase machine
1.4 Multilevel inverter fed multiphase drives
1.5 Common mode voltage in dual-inverter open-end winding
1.6 Research objectives
1.7 Thesis structure
Chapter 2 Modeling and Control Dual-inverter Fed Six-Phase Open-end Winding PMSM Drive
2.1 Introduction
2.2 Space vector decomposition and Co-ordinate transformations
2.2.1 Transformation from nature Reference frame to stationary frame
2.2.2 Transformation from stationary reference frame to synchronous rotatingReference Frame
2.2.3 Transformation from original reference frame to synchronous rotating referenceFrame
2.3 Modeling of dual-inverter open-end winding PMSM drive
2.3.1 Mathematical modeling of six-Phase PMSM
2.3.2 Analysis of voltage vectors of dual-inverter six-phase PMSM drive
2.4 Control of dual-inverter fed six-phase open-end winding PMSM
2.4.1 Carrier-based PWM control algorithm
2.4.2 Space vector PWM control algorithm
2.4.2.1 Space vector and switching states in dual-inverter
2.4.2.2 Dwell time calculation
2.4.2.3 Switching sequence design
2.4.2.4 Vector control of dual-inverter fed six-phase open-end Winding PMSM
2.5 Summary
Chapter 3 Proposed SVPWM for the Dual-Inverter Open-End Winding Motor Drive with Zero Common Mode Voltage
3.1 Introduction
3.2 Topology of dual-inverter open-end topology with isolated supplies
3.3 Common mode voltage in dual-inverter open-end winding topology
3.3.1 Introduction
3.3.2 Modeling of common mode voltage(CMV) of dual-inverter drive
3.3.3 Effect of common mode voltage
3.3.4 Elimination techniques of common mode voltage
3.3.4.1 Hardware-based elimination techniques
3.3.4.2 Software-based elimination techniques
3.3.5 Proposed SVPWM for the dual-inverter open-end winding PMSM drive withZero common mode voltage
3.3.6 Simulation Results
3.4 Conclusion
Chapter 4 Common mode voltage elimination in dual-inverter fed six-phase open-end winding PMSM drives with a single DC supply
4.1 Introduction
4.2 Topology of dual-inverter open-end winding topology with single DC supply
4.3 Common mode voltage in dual-inverter open-end winding topology with single DC supply
4.3.1 Introduction
4.3.2 Modeling of common mode voltage(CMV) of dual-inverter drive open-end Winding with single DC supply
4.3.3 Proposed SVPWM scheme to eliminate CMV in dual-inverter open-end Winding topology supplied by single DC supply
4.3.4 Simulation Results
4.5 Summary
Chapter 5 Conclusions and recommendations
5.1 Conclusions
5.2 Recommendations for further research
Bibliography
Appendix A:List of publications
本文编号:2966793
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