A Novel Multilevel Inverter with Reduced Number of Switches Using Simplified PWM Technique

Multilevel inverter (MLI) topologies greatly sustained the emergence of modish power-electronic device as an expressive substitute of traditional two-level inverters in the area of medium-voltage high-power energy conversion schemes. It recommends the most outstanding solutions for high-power applications particularly in distributed generation schemes and plays a key role for establishment of novel MLI structures with fewer switching components. This paper proposes the novel 7-level asymmetric MLI topology and administered by both fundamental frequency-based pulse-width modulation (PWM) scheme and advanced multi-carrier PWM scheme. The proposed asymmetric 7-level smart MLI topology offers low switching elements, low gate drive circuits, low cost, minimum space requirement, low-voltage d v /d t switch stress, low switching loss and high efficiency over the traditional topologies. The critical evaluation of proposed 7-level asymmetric MLI performance is verified by MATLAB/Simulink platform and validated through experimental prototype; results are illustrated with proper comparisons.