Improved Balancing and Sensing of Submodule Capacitor Voltages in Modular Multilevel Converter

The submodule capacitor voltage sensing and balancing is necessary for proper operation of modular multilevel converters (MMC). Voltage controlled oscillator is used for capacitor voltage measurement in the reported literature where voltage sensor is required to be calibrated. In this article, a voltage sensing method that does not need calibration of individual voltage sensors is used for capacitor voltage measurement. Moreover, a simplified sorting algorithm is employed for capacitor voltage balancing. A method of sorting the capacitor voltages that selects the submodules to be inserted directly based on logic equations is used as compared to the conventional methods of arranging them in ascending or descending order. This facilitates to simplifying the sorting technique and the scheme is easy to implement using any controller. Furthermore, to simplify the overall MMC control, the decentralized control arrangement is developed. Fairly good capacitor voltage balancing is obtained. The proposed balancing and sensing schemes of submodule capacitors are validated on a three-phase seven-level MMC hardware prototype with six submodules per arm. The prototype is tested for different operating conditions such as precharging, circulating current control, and grid connected operation of MMC.