Authors :
Alhassan Musa Oruma; Stephen Olatoye Olaniyan; Vincent Ojomaje Anyah
Volume/Issue :
Volume 9 - 2024, Issue 2 - February
Google Scholar :
https://tinyurl.com/4cxwz2uy
Scribd :
https://tinyurl.com/3kyffd56
DOI :
https://doi.org/10.5281/zenodo.10730142
Abstract :
Underlying the high current demand for an
energy source that has been increasing recently is. It
necessitates that these sources be accessible, affordable,
and reliable. The opposite has been confirmed until now,
whereby most power derivatives have been limited to
alternating or direct currents. Nevertheless, with the
unprecedented advances in the power electronics
industry, it is possible to moderate between two forms of
power sources without much difficulty. The technical
progress one has got, provided high power high voltage
DC-DC converters have made call-backs possible high
power sources – low appliances. With the technique of the
thorough concise, insightful and practical analysis, the
construct and use of the high efficiency generation system
generated digitally on this study firmly based. This work
uses a type of PWM-based duty cycle control with the
assistance of a microcontroller. The earliest simulations
were conducted using software designed for engineering,
like MATLAB and Proteus ISIS, before proceeding with
construction. Proper analysis was made to ensure that
virtual and real-life outcomes display an appropriate level
of balance.
Underlying the high current demand for an
energy source that has been increasing recently is. It
necessitates that these sources be accessible, affordable,
and reliable. The opposite has been confirmed until now,
whereby most power derivatives have been limited to
alternating or direct currents. Nevertheless, with the
unprecedented advances in the power electronics
industry, it is possible to moderate between two forms of
power sources without much difficulty. The technical
progress one has got, provided high power high voltage
DC-DC converters have made call-backs possible high
power sources – low appliances. With the technique of the
thorough concise, insightful and practical analysis, the
construct and use of the high efficiency generation system
generated digitally on this study firmly based. This work
uses a type of PWM-based duty cycle control with the
assistance of a microcontroller. The earliest simulations
were conducted using software designed for engineering,
like MATLAB and Proteus ISIS, before proceeding with
construction. Proper analysis was made to ensure that
virtual and real-life outcomes display an appropriate level
of balance.