Authors :
Anshul S. Wasnik; R. M. Bhombe; Manish Agrawal; Akshay Pillewan; Diksha Khare
Volume/Issue :
Volume 8 - 2023, Issue 5 - May
Google Scholar :
https://bit.ly/3TmGbDi
Scribd :
https://tinyurl.com/3symtfhd
DOI :
https://doi.org/10.5281/zenodo.8046987
Abstract :
This article discusses the concept, design and
computation of an AC/AC convertor specifically
developed for driving single-phase induction motors, also
known as split-phase motors, using DC modulation.
Traditional AC/AC convertors face limitations in terms
of output frequency and total harmonic distortion
(THD). To address these limitations, a new type of
AC/AC convertor based on DC modulation has been
introduced. This innovative convertor offers improved
power factor (p.f.), higher power transmission efficiency,
and is suitable for driving single-phase induction motors.
The effectiveness of the design is verified through
simulation results, which demonstrate the successful
implementation of a DC-modulated single-stage
induction motors.
Keywords :
DC-modulation, Power factor correction, total harmonic distortion (THD), single phase induction motor.
This article discusses the concept, design and
computation of an AC/AC convertor specifically
developed for driving single-phase induction motors, also
known as split-phase motors, using DC modulation.
Traditional AC/AC convertors face limitations in terms
of output frequency and total harmonic distortion
(THD). To address these limitations, a new type of
AC/AC convertor based on DC modulation has been
introduced. This innovative convertor offers improved
power factor (p.f.), higher power transmission efficiency,
and is suitable for driving single-phase induction motors.
The effectiveness of the design is verified through
simulation results, which demonstrate the successful
implementation of a DC-modulated single-stage
induction motors.
Keywords :
DC-modulation, Power factor correction, total harmonic distortion (THD), single phase induction motor.