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A switched-capacitor based seven-level inverter is proposed in this work. It consists of two capacitors, two diodes, and eight transistors. The eight transistors form two H-bridges resulting in a simple… Click to show full abstract
A switched-capacitor based seven-level inverter is proposed in this work. It consists of two capacitors, two diodes, and eight transistors. The eight transistors form two H-bridges resulting in a simple structure and easy design of gate drivers. Capacitors' voltages are balanced automatically as they operate in parallel with the input voltage source a few times during each cycle of output voltage. Voltage ripples and power loss are analyzed in detail. To obtain more output levels, the cascaded structure of the seven-level inverter is also investigated and a power balancing strategy is used to simplify design work. Finally, the effectiveness of the work is experimentally demonstrated by both the seven-level and 13-level prototypes. It indicates that the proposed inverter is capable of powering different types of loads, and its efficiency is up to above 97%.
Journal Title: IEEE Transactions on Power Electronics
Year Published: 2019
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