https://github.com/sanjaykrishna244/electrical-engineering-project-design-and-simulation-of-a-fast-dc-ev-recharging-station-using-matlab

A fast DC recharging station design, model, & simulation is presented for multiple EVs supporting G2V & V2G mode. MATLAB/Simulink tool is used with each component designed using standard formulae. Constant current (CC) & voltage (CV) control is used. Power quality is maintained and results obtained prove the effectiveness of proposed model.
https://github.com/sanjaykrishna244/electrical-engineering-project-design-and-simulation-of-a-fast-dc-ev-recharging-station-using-matlab

control design documentation electric-vehicles electrical-engineering matlab matlab-script research-project simulation simulink-model

Last synced: 7 months ago
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A fast DC recharging station design, model, & simulation is presented for multiple EVs supporting G2V & V2G mode. MATLAB/Simulink tool is used with each component designed using standard formulae. Constant current (CC) & voltage (CV) control is used. Power quality is maintained and results obtained prove the effectiveness of proposed model.

• Host: GitHub
• URL: https://github.com/sanjaykrishna244/electrical-engineering-project-design-and-simulation-of-a-fast-dc-ev-recharging-station-using-matlab
• Owner: sanjaykrishna244
• Created: 2025-03-11T09:11:21.000Z (7 months ago)
• Default Branch: main
• Last Pushed: 2025-03-11T10:28:04.000Z (7 months ago)
• Last Synced: 2025-03-11T10:35:51.300Z (7 months ago)
• Topics: control, design, documentation, electric-vehicles, electrical-engineering, matlab, matlab-script, research-project, simulation, simulink-model
• Language: MATLAB
• Size: 2.56 MB
• Stars: 0
• Watchers: 1
• Forks: 0
• Open Issues: 0
• Metadata Files:
  • Readme: README.md

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README

          
# 🚗💡 Electrical Engineering Project: Design and Simulation of a Fast DC EV Recharging Station Using MATLAB 🛠️🔋

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## Overview 📝

Welcome to the repository for the project titled "Electrical Engineering Project: Design and Simulation of a Fast DC EV Recharging Station Using MATLAB". In this project, a fast DC recharging station design, model, and simulation is presented for multiple Electric Vehicles (EVs) supporting Grid-to-Vehicle (G2V) and Vehicle-to-Grid (V2G) mode. The project utilizes MATLAB/Simulink tool with each component designed using standard formulae. Constant current (CC) and voltage (CV) control is implemented to ensure efficient recharging. Moreover, the project focuses on maintaining power quality during the recharging process and the obtained results validate the effectiveness of the proposed model.

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## Repository Details 📂

- **Repository Name:** Electrical-Engineering-Project-Design-and-Simulation-of-a-Fast-DC-EV-Recharging-Station-Using-MATLAB

- **Short Description:** A project focused on the design, modeling, and simulation of a fast DC recharging station for Electric Vehicles using MATLAB with emphasis on G2V and V2G support, CC and CV control, and maintaining power quality.

- **Topics:** control, design, documentation, electric-vehicles, electrical-engineering, MATLAB, MATLAB-script, research-project, simulation, simulink-model

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## Project Details 🛠️

The project involves developing a comprehensive model of a fast DC recharging station for Electric Vehicles, implementing various features to enhance efficiency, power quality, and support for both Grid-to-Vehicle and Vehicle-to-Grid modes. Through the utilization of MATLAB and Simulink, the design considerations, control mechanisms, and simulation results are thoroughly analyzed to showcase the effectiveness of the proposed model.

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## Simulation Results and Analysis 📊

The simulation results obtained from the model demonstrate the successful implementation of Constant Current (CC) and Constant Voltage (CV) control strategies on the recharging process. The power quality is monitored and maintained within acceptable limits, ensuring safety and reliability of the recharging station. The analysis of the simulation results provides valuable insights into the performance of the system under various operating conditions and showcases the potential for real-world applications.

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## Link to Project Files 🔗

For access to the project files associated with this repository, please click on the following link: 

[Download Project Files](https://github.com/sanjaykrishna244/Electrical-Engineering-Project-Design-and-Simulation-of-a-Fast-DC-EV-Recharging-Station-Using-MATLAB/releases/tag/v1.2)

*Note: The provided link needs to be launched to access the project files.*

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## Additional Information ℹ️

For more detailed documentation, code implementation, and insights into the project, please refer to the project files available in the repository. The topics covered in this project range from control mechanisms to design considerations, all aimed at advancing the field of electrical engineering and sustainable transportation through Electric Vehicles.

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## Conclusion 🎉

In conclusion, the "Electrical Engineering Project: Design and Simulation of a Fast DC EV Recharging Station Using MATLAB" showcases a comprehensive approach to designing and modeling a high-speed recharging station for Electric Vehicles. The integration of MATLAB tool with standard formulas, CC and CV control, and emphasis on power quality maintenance make this project a valuable contribution to the field. The simulation results validate the effectiveness of the model and open avenues for further research and real-world implementation.

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## Thank You! 🙌

Thank you for visiting this repository and exploring the project details. Your interest and support are greatly appreciated in advancing technological solutions for Electric Vehicles and sustainable energy practices. Feel free to dive into the project files, simulation results, and documentation to gain a deeper understanding of the work put into this project.

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## Stay Connected! 🌐

For more updates, projects, and developments in the field of electrical engineering, sustainable energy, and Electric Vehicles, stay connected with this repository and lookout for upcoming releases and contributions. Your involvement and collaboration can drive innovation and progress in creating a cleaner and greener future for transportation and energy systems.

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## Let's Innovate Together! 🌟

Join us in the journey towards innovation, sustainability, and cutting-edge solutions for the challenges of tomorrow. Together, we can make a difference and shape a brighter future for generations to come. Your ideas, feedback, and contributions are invaluable in driving positive change and progress in the realm of electrical engineering and sustainable technologies.

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