Abstract:
AC high-voltage applications and renewable energy are making multi-level inverters (MLIs) with switching capacitors common. The switched capacitor (SC) technique uses fewer DC sources based on capacitor voltage to obtain the desired output voltage.
A high-gain MLI with fewer sources and switches requires careful design. A prototype of a nine-level quadruple boost inverter (NQBI) topology driven by one solar photovoltaic source uses less capacitors, switches, and diodes than the SC-MLIs structure.
The suggested NQB inverter efficiently balances the two capacitors’ voltages to provide nine output levels. SC-MLIs are contrasted to show the pros and cons of the nine-level quadruple boost inverter (NQBI) topology. The suggested solar photovoltaic-based NQBI without grid connection is tested in a lab under various conditions to prove its efficacy.
Note: Please discuss with our team before submitting this abstract to the college. This Abstract or Synopsis varies based on student project requirements.