This advanced professional course is designed for electrical engineers, infrastructure developers, and fleet managers. It provides the deep technical knowledge required to design, deploy, and manage advanced Electric Vehicle (EV) systems and high-power charging networks in commercial and utility settings.
A expert program designed to provides hands-on exposure to the rapidly growing EV ecosystem from vehicle electrification to public and commercial charging infrastructure design. Learn to build, operate, and maintain EV power systems aligned with the latest energy policies and smart grid technologies.
- Fundamentals of Electric Vehicles and powertrain design.
- EV charging architecture, station design, and grid integration.
- Battery management systems (BMS) and safety standards.
- Installation, operation, and maintenance of EV charging stations.
In This Course You Will Be Able To:
- Design EV charging networks (AC/DC fast chargers).
- Understand battery technology, control systems, and charging protocols.
- Plan and commission EV charging stations with real case studies.
Curriculum
- 5 Sections
- 0 Lessons
- 4 Weeks
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- EV Architecture and Drivetrain FundamentalsGain an in-depth understanding of modern EV design. This module dissects the major components of a Battery Electric Vehicle (BEV), including the electric motor types (e.g., permanent magnet vs. induction), the power electronics (inverters and converters), thermal management systems, and the overall mechanical and electrical integration of the drivetrain.0
- Battery Management and Charging SystemsMaster the technologies crucial for EV performance and lifespan. This section focuses on the sophisticated functions of the Battery Management System (BMS), including state-of-charge (SOC) and state-of-health (SOH) estimation, cell balancing, and thermal control. It details the communication protocols (e.g., CAN bus) used between the BMS and the charger.0
- Charger Types (Level 1, 2, DC Fast Charging)Acquire the technical expertise to select and integrate all charger classes. You will conduct detailed studies on the specifications, power ratings, and ideal use cases for AC Level 1/2 chargers and DC Fast Charging (DCFC) units. The module covers power electronics topologies (e.g., rectifiers/inverters) and the impact of charging load profiles.0
- Grid Connectivity and Renewable IntegrationAddress the complex challenges of integrating large charging loads with the utility grid. This section focuses on smart charging, load management, Vehicle-to-Grid (V2G) technologies, demand response strategies, and the integration of local renewable energy sources (solar, storage) to mitigate demand charges and enhance grid stability.0
- Safety, Standards, and Installation PracticesEnsure compliant and safe deployment of charging infrastructure. This final module covers critical international standards (SAE J1772, ISO 15118, OCPP) and national safety codes (e.g., NEC Article 625). It details proper planning, site assessment, trenching, cable sizing, and commissioning procedures for professional installation.0
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Yes, you’ll learn design and operation of both types with simulations.
Requirements
- Background in electrical or mechanical engineering.
- Familiarity with power systems recommended.
Features
- Live demonstrations of EV chargers and load management systems
- Access to real BMS and charging hardware
- Certification aligned with EV industry standards
Target audiences
- Professionals from automotive, renewable energy, and electrical design industries.