Static Wireless Charging Using Capacitive power Transfer
Versión 1.0.1 (35,6 KB) por
Aditya
Simulates a capacitive wireless power transfer (WPT) system for static charging applications using MATLAB/Simulink.
This project demonstrates a Static Wireless Charging System Simulation using MATLAB/Simulink based on the capacitive wireless power transfer (WPT) principle.
It models both transmitter and receiver circuits that exchange power wirelessly through capacitive coupling.
Key Features:
- Models a capacitive WPT circuit for static wireless energy transfer.
- Includes transmitter and receiver LC circuits with coupling capacitance.
- Simulates voltage, current, and power waveforms to analyze transfer efficiency.
- Studies the effects of load resistance, coupling capacitance, and distance on power transfer.
- Demonstrates a contactless charging mechanism applicable to low-power devices and IoT systems.
How to Run:
- Open the file StaticWirelessChargingSystemSimulation.slx in MATLAB/Simulink.
- Set simulation parameters as per your requirement (e.g., frequency, capacitance, resistance).
- Click Run to start the simulation.
- Observe voltage and current waveforms at transmitter and receiver ends.
Applications:
- Wireless charging pads for drones, mobile devices, and electric vehicles.
- Research and educational demonstration of WPT concepts.
Citar como
Aditya (2025). Static Wireless Charging Using Capacitive power Transfer (https://la.mathworks.com/matlabcentral/fileexchange/182324-static-wireless-charging-using-capacitive-power-transfer), MATLAB Central File Exchange. Recuperado .
Compatibilidad con la versión de MATLAB
Se creó con
R2025b
Compatible con cualquier versión desde R2022b hasta R2026a
Compatibilidad con las plataformas
Windows macOS LinuxEtiquetas
Agradecimientos
Inspirado por: Hybrid Electric Vehicle (HEV) Power Train Using Battery Model
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