A modified harmonic minimization scheme for seven-level CHB multilevel inverter with improved voltage harmonic profile and grid code satisfaction

In this study a modified selective-harmonic-minimization pulse-amplitude-modulation (SHM PAM) scheme is proposed for a 7-level cascaded H-bridge (CHB) multilevel inverter (MLI). The proposed scheme minimizes various lower order harmonics of inverter line voltage, with automatic elimination of the 5th & its higher odd order harmonic components. The modified modulation scheme successfully satisfies six key grid code standards using a 7-level phase voltage waveform, designed based on the proposed angular constraint. The cost function, used to determine the optimized switching angles and per-unit voltages of the proposed voltage pattern, is formulated with a comparatively small number of variables; thereby simplifying and accelerating the overall computational process. This feature facilitates the seamless implementation of the proposed scheme in real-time scenarios. The applicability of the proposed scheme is validated through MATLAB-simulation studies & experimental tests on a 3-phase 7-level CHB MLI laboratory setup under various resistive & inductive loading conditions. Finally, the effectiveness of the proposed scheme is assessed through a comparative study with existing works, considering the number of optimization variables, the number of switching angles, and compliance with grid code standards.