This repository focuses on the application of solid-state electronics for the control and conversion of electrical power. It contains simulation models and design calculations for various power electronic circuits used in modern energy systems.
- DC-DC Conversion: Detailed simulations of Buck-Boost converters for voltage regulation.
- AC-DC Rectification: Implementation of full-wave rectifier systems for power supply design.
- Power Control: Analysis of solid-state switching techniques and efficiency optimization.
- Circuit Simulation: Modeling of transient and steady-state behaviors in power electronic systems.
- Simulation Tools: [Insert Tool, e.g., MATLAB/Simulink, Proteus, or PSIM]
- Key Topologies: Buck-Boost, Full-Wave Rectifiers, Inverters
- Focus: Power Conversion, Switching Dynamics, and Thermal Management
- Applications: Renewable Energy, Industrial Motor Drives, and SMPS
Clone the Project .. code-block:: bash
git clone https://github.com/afafirmansyah/applied-power-electronic.git
Prerequisites - Install the required simulation software (e.g., MATLAB, PSIM, or LTSpice). - Ensure all necessary toolboxes or component libraries are loaded.
Running Simulations - Open the source files (e.g.,
.slx,.psimsch, or.asc) located in the project folders. - Set the simulation parameters (time step, solver) as specified in the documentation.Reviewing Results - Analyze the output waveforms using the built-in scope or graphing tools. - Compare simulated data with theoretical calculations provided in the project notes.
This project is licensed under the MIT License - see the license.txt file for details.
Ahmad Fauzi Firmansyah - GitHub: afafirmansyah - LinkedIn: ahmad-fauzi-firmansyah