New 3-level submodules for a modular multilevel converter based HVDC system with advanced features

Modular multilevel converters have emerged as a viable solution over conventional voltage source converters (VSC) for applications in high voltage direct current (HVDC) transmission. Due to modular structure, the converter can reach high number of voltage levels resulting in low switching frequency and near sinusoidal voltage waveforms. This paper proposes new submodule topologies which can result in even higher voltage levels with reduced voltage stress across some switches and lower semiconductor losses. A modified modulation scheme and voltage balancing algorithm is proposed for the new topology and is validated by MATLAB/Simulink simulations. A comprehensive comparative analysis with other available submodule topologies is presented to show the added benefits.

[1]  Kui Wang,et al.  Voltage Balancing and Fluctuation-Suppression Methods of Floating Capacitors in a New Modular Multilevel Converter , 2013, IEEE Transactions on Industrial Electronics.

[2]  S. Norrga,et al.  Evaluation of different carrier-based PWM methods for modular multilevel converters for HVDC application , 2012, IECON 2012 - 38th Annual Conference on IEEE Industrial Electronics Society.

[3]  Bin Wu,et al.  Modular multilevel cascaded converter based on current source H-bridges cells , 2012, IECON 2012 - 38th Annual Conference on IEEE Industrial Electronics Society.

[4]  H. Akagi,et al.  Control and Experiment of Pulsewidth-Modulated Modular Multilevel Converters , 2009, IEEE Transactions on Power Electronics.

[5]  Tomas Modeer,et al.  Loss comparison of different sub-module implementations for modular multilevel converters in HVDC applications , 2011, Proceedings of the 2011 14th European Conference on Power Electronics and Applications.

[6]  Rainer Marquardt,et al.  A new AC/AC multilevel converter family , 2005, IEEE Transactions on Industrial Electronics.

[7]  J. A. Barrena,et al.  Modulation of Modular Multilevel Converter for HVDC application , 2010, Proceedings of 14th International Power Electronics and Motion Control Conference EPE-PEMC 2010.

[8]  Stig Munk-Nielsen,et al.  A new modular multilevel converter with integrated energy storage , 2011, IECON 2011 - 37th Annual Conference of the IEEE Industrial Electronics Society.

[9]  Jon C. Clare,et al.  A Hybrid Modular Multilevel Voltage Source Converter for HVDC Power Transmission , 2013, IEEE Transactions on Industry Applications.

[10]  Gonzalo Abad,et al.  Modular Multilevel Converter With Different Submodule Concepts—Part I: Capacitor Voltage Balancing Method , 2013, IEEE Transactions on Industrial Electronics.

[11]  D. Peftitsis,et al.  High-Power Modular Multilevel Converters With SiC JFETs , 2010, IEEE Transactions on Power Electronics.

[12]  Hirofumi Akagi Classification, Terminology, and Application of the Modular Multilevel Cascade Converter (MMCC) , 2011 .

[13]  Rainer Marquardt,et al.  An innovative modular multilevel converter topology suitable for a wide power range , 2003, 2003 IEEE Bologna Power Tech Conference Proceedings,.

[14]  R. Marquardt,et al.  Modular Multilevel Converter: An universal concept for HVDC-Networks and extended DC-Bus-applications , 2010, The 2010 International Power Electronics Conference - ECCE ASIA -.

[15]  Gonzalo Abad,et al.  Modular Multilevel Converter With Different Submodule Concepts—Part II: Experimental Validation and Comparison for HVDC Application , 2013, IEEE Transactions on Industrial Electronics.

[16]  H. Akagi,et al.  Control and Analysis of the Modular Multilevel Cascade Converter Based on Double-Star Chopper-Cells (MMCC-DSCC) , 2011, IEEE Transactions on Power Electronics.