FPGA implementation of slave communication controller for Modular Multilevel Converter

Complex multilevel converter, such as Modular Multilevel Converter (MMC) normally employs more than hundreds units of Power Electronics Building Blocks (PEBBs). To simplify the wiring system within the MMC, high speed internal ring network has been suggested. In ring network, all data will be transmitted using communication wire such as fiber optic. Sensing measurements and gating signals must be packed accordingly before transmitting. Thus each PEBB must own a microprocessor to process the input/output data. This paper will introduce a slave communication controller design using an FPGA. The proposed controller is capable to extract the receiving data for generating appropriate gate signal to trigger the power semiconductor. In addition, it will concatenate two sensor measurements together with some status bits as transmitting data payload. The proposed controller is validated using a small scale MMC prototype. The experimental results are enclosed and discussed.

[1]  Vahid Dargahi,et al.  New Multilevel Converter Based on Cascade Connection of Double Flying Capacitor Multicell Converters and Its Improved Modulation Technique , 2015, IEEE Transactions on Power Electronics.

[2]  P. K. Steimer,et al.  Power electronics building blocks - a platform-based approach to power electronics , 2003, 2003 IEEE Power Engineering Society General Meeting (IEEE Cat. No.03CH37491).

[3]  C. L. Toh,et al.  Implementation of high speed control network with fail-safe control and communication cable redundancy in modular multilevel converter , 2013, 2013 15th European Conference on Power Electronics and Applications (EPE).

[4]  C. L. Toh,et al.  A performance analysis of three potential control network for monitoring and control in Power Electronics converter , 2012, 2012 IEEE International Conference on Industrial Technology.

[5]  Y. Khersonsky,et al.  PEBB - Power Electronics Building Blocks from Concept to Reality , 2006, 2006 Record of Conference Papers - IEEE Industry Applications Society 53rd Annual Petroleum and Chemical Industry Conference.

[6]  D. Retzmann,et al.  Prospects of multilevel VSC technologies for power transmission , 2008, 2008 IEEE/PES Transmission and Distribution Conference and Exposition.

[7]  Barry W. Williams,et al.  Hybrid Multilevel Converter With Cascaded H-bridge Cells for HVDC Applications: Operating Principle and Scalability , 2015, IEEE Transactions on Power Electronics.

[8]  C. L. Toh,et al.  A high speed control network synchronization jitter evaluation for embedded monitoring and control in modular multilevel converter , 2013, 2013 IEEE Grenoble Conference.

[9]  C. L. Toh,et al.  Implementation of redundancy control by degrading voltage level in modular multilevel converter , 2014, 2014 IEEE Conference on Energy Conversion (CENCON).

[10]  Ivana Milosavljevic,et al.  Power Electronics System Communications , 1999 .

[11]  Remus Teodorescu,et al.  Synchronization of the distributed PWM carrier waves for modular multilevel converters , 2014, 2014 International Conference on Optimization of Electrical and Electronic Equipment (OPTIM).

[12]  Tommi Laakkonen Distributed ControlArchitecture of Power Electronics Building-Block-Based Frequency Converters , 2010 .

[13]  Remus Teodorescu,et al.  Analysis of communication based distributed control of MMC for HVDC , 2013, 2013 15th European Conference on Power Electronics and Applications (EPE).

[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]  Marc Hiller,et al.  Modulation, Losses, and Semiconductor Requirements of Modular Multilevel Converters , 2010, IEEE Transactions on Industrial Electronics.