Electric Vehicle Charging Infrastructure provides an in-depth exploration of the technologies and systems that support electric vehicle (EV) charging. Participants will engage with practical, project-based learning that emphasizes hands-on experience and real-world applications. The course covers essential topics such as power electronics, battery management systems, and the design of charging stations, equipping learners with the skills necessary to thrive in the rapidly evolving EV market.
Throughout the program, participants will collaborate on projects that simulate industry challenges, fostering an environment of innovation and critical thinking. Additionally, results from these projects may be published in Cademix Magazine, offering participants a platform to share their findings with a broader audience. This course is tailored for individuals looking to enhance their expertise in the field, making it a valuable asset for graduates, job seekers, and professionals aiming to advance their careers in electric vehicle technology.
Overview of Electric Vehicle Technologies
Fundamentals of Power Electronics
Battery Management Systems: Design and Implementation
Charging Station Design and Infrastructure Planning
Smart Charging Solutions and Grid Integration
Safety Standards and Regulations in EV Charging
Performance Testing and Quality Assurance
Maintenance and Troubleshooting of Charging Systems
Economic Models for Charging Infrastructure Deployment
Final Project: Design and Prototype of an EV Charging Station

Semiconductor Devices in Power Electronics provides an in-depth exploration of the principles and applications of semiconductor technology in power systems. The course is structured to engage participants through project-based learning, enabling them to apply theoretical knowledge to real-world scenarios. Participants will gain hands-on experience with various semiconductor devices, enhancing their understanding of their role in power electronics and battery management systems.
The curriculum is designed to bridge the gap between academic knowledge and industry requirements, equipping graduates and professionals with the skills necessary to excel in the evolving job market. By encouraging the publication of results in Cademix Magazine, participants can contribute to the field while building their professional portfolios. This course emphasizes practical applications, ensuring that learners can translate their knowledge into effective solutions within their respective industries.
Fundamentals of semiconductor physics and materials
Analysis of power semiconductor devices: diodes, transistors, and thyristors
Design and operation of power converters and inverters
Techniques for thermal management in semiconductor devices
Implementation of battery management systems using semiconductor technology
Simulation and modeling of power electronic circuits
Evaluation of efficiency and performance metrics in power electronics
Integration of renewable energy sources with power electronics
Advanced control strategies for power electronic converters
Final project: Design and prototype a power electronic system utilizing semiconductor devices

Battery Charging Protocols and Standards delves into the intricacies of battery management systems, equipping participants with the knowledge to implement and optimize charging protocols effectively. This course covers a comprehensive range of topics, including the latest industry standards and emerging technologies that govern battery performance and safety. Participants will engage in hands-on projects that reinforce theoretical concepts, culminating in practical applications that can be utilized in real-world scenarios.
The curriculum is designed to foster an interactive learning environment where graduates, job seekers, and business professionals can collaborate and share insights. By encouraging participants to publish their findings in Cademix Magazine, the course not only enhances individual expertise but also contributes to the broader field of power electronics. The final project will challenge participants to develop a battery charging protocol tailored to a specific application, ensuring they leave with both theoretical knowledge and practical experience.
Overview of Battery Technologies
Fundamental Principles of Charging Protocols
Industry Standards: IEC, IEEE, and UL
Battery Management System (BMS) Architecture
Charging Algorithms: Constant Current, Constant Voltage, and Smart Charging
Safety Protocols and Thermal Management
Performance Testing and Evaluation Techniques
Integration of Renewable Energy Sources with Battery Systems
Case Studies on Electric Vehicles and Consumer Electronics
Final Project: Develop a Customized Charging Protocol for a Specific Application