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R. Varatharajan. Power Quality Improvement For Induction Motor Using Diode-Clamped H-Bridge Multilevel Inverter Based Prescient Control Algorithms
Neural Parallel and Scientific Computations 29 (2021), No. 2,  112-129

https://doi.org/10.46719/npsc20212924

ABSTRACT.
An inverter converts the Direct current voltage to an Alternative current voltage. In this method thirteen level inverter application was developed in Induction motor (IM). The induction motor IM takes converting output of the diode clamped H-bridge connected inverter with a multilevel inverter from one end, while the output is induction motor. The inverter framework produces voltage space-vector areas inseparable from the typical multilevel level inverter. In this method, the prescient control algorithms utilize controller-based prototype circuits, for example, switches, diodes, driver circuits, and direct current voltage sources that increase the magnitude of the lead noise and distortion and yield voltage levels of the lead inverter. The required intensity of the circuit but also the inverter reduced in addition to the number of cut-off voltages, the magnitude of the various voltage amplitudes of the light source used by the switch decreases. In addition to this, the diode-clamped circuit developed low output high voltage, and the harmonics became distorted. Switch-mode using the algorithm Pulse technique and elimination of distortion from the output of the H-bridge inverter.

Keywords: Prescient Control Algorithms, Diode-Clamped Multilevel Inverter, Induction Motor, harmonic distortion