Abstract:
In order to provide a dependable and portable charging solution, this study investigates the
design and implementation of an electrical home charging system that combines
mechanical parts, energy storage, and renewable energy sources. The main goal is to
create a system that effectively transforms solar energy into electrical energy, stores it, and
then transforms it back into power that can be used in homes. The goal of the project is to
increase the amount of electrical power that is available in homes that use solar panels
and require a portable charger. For homes with solar panels, this system offers a portable
and sustainable solution that increases electrical power availability and lessens
dependency on non-renewable energy sources.
The study makes use of both theoretical analysis and real-world application. Performance
assessment, system integration, and component selection are all steps in the design
process. It is also possible to use software tools for design calculations and simulation. The
research shows how solar panels, batteries, motors, generators, and transformers can all
be successfully integrated to produce a workable and effective home charging system.
With the efficient storing and conversion of energy, the system offers a dependable power
source for domestic use. A sustainable answer to energy needs is provided by the
combination of mechanical components and renewable energy sources.
