Research Outputs

Now showing 1 - 2 of 2
  • Publication
    Evolution of topologies, modeling, control schemes, and applications of modular multilevel converters
    (IEEE, 2017) ;
    Dekka, Apparao
    ;
    Wu, Bin
    ;
    Perez, Marcelo
    ;
    Zargari, Navid
    Modular multilevel converter (MMC) is one of the most promising topologies for medium to high-voltage high-power applications. The main features of MMC are modularity, voltage and power scalability, fault tolerant and transformer-less operation, and high-quality output waveforms. Over the past few years, several research studies are conducted to address the technical challenges associated with the operation and control of the MMC. This paper presents the development of MMC circuit topologies and their mathematical models over the years. Also, the evolution and technical challenges of the classical and model predictive control methods are discussed. Finally, the MMC applications and their future trends are presented.
  • Publication
    Voltage-balancing approach with improved harmonic performance for modular multilevel converters
    (IEEE, 2017) ;
    Dekka, Apparao
    ;
    Wu, Bin
    ;
    Perez, Marcelo
    ;
    Zargari, Navid
    In a modular multilevel converter (MMC), the voltage balance among the submodules is mandatory to generate the multilevel stepped waveform across the load and to ensure the equal voltage stress on the semiconductor devices. In addition, the output power quality (voltage and current waveforms) and the converter reliability greatly depend on the design methodology of a voltage-balancing approach. The improper design of the balancing approach causes higher voltage and current harmonic distortion and device power losses, which further affects the efficiency of the MMC. In this letter, an improved voltage-balancing approach is proposed to reduce the output voltage harmonic distortion and device power losses. The performance of the proposed approach is verified through MATLAB simulations and experimentally on a three-level-flying-capacitor-based MMC system. Also, the performance of the proposed approach is compared with the existing methodology to prove its superiority.