VR, 3D ILV, Interactive Modules
3 Hours
Technician
VR or Web-based
Battery Management Systems (BMS) are the brain behind every high-performing electric vehicle (EV) battery. This immersive microcredential course explores the architecture, components, and safety protocols of modern BMS, with hands-on VR simulations to reinforce real-world skills. From control units and sensor arrays to installation techniques and high-voltage (HV) connector design, learners will gain a strong foundation in the systems that monitor, protect, and optimize battery packs.
In an industry where safety, precision, and data-driven performance matter most, a deep understanding of BMS systems sets professionals apart. This course develops vital technical skills and hands-on experience that are immediately applicable in high-growth sectors like electric vehicles, grid storage, and renewable energy systems.
Build a solid understanding of how Battery Management Systems operate within electric vehicles and energy storage systems. You’ll gain hands-on knowledge of BMS architecture, signal processing, and component integration—skills that are increasingly in demand across multiple industries including automotive, clean energy, and battery manufacturing.
Through our immersive VR simulations, you’ll practice BMS assembly, installation, and diagnostics in realistic, risk-free environments. This experiential learning approach ensures you develop the confidence and competence to perform critical tasks in the field—without the need for expensive physical labs or lengthy apprenticeships.
Learn to handle high-voltage battery components with care and precision. This includes following best practices for routing, securing, and sealing HV connections, as well as using protective protocols to avoid electrostatic discharge (ESD), mechanical shock, and vibration risks—key competencies for ensuring workplace safety and system reliability.
Dive into real-world scenarios to detect and address battery faults, monitor sensor data, and use BMS insights to predict battery performance and lifecycle. You’ll learn how to identify and interpret key failure modes and apply testing techniques that enhance reliability, reduce downtime, and extend the life of battery systems.
Gain essential battery manufacturing skills that align with industry certifications and employer expectations.
At ImmerseLearn, we are reimagining technical education to be more engaging, affordable, and effective. With our virtual hands-on training model, you can master industry-specific tools and concepts faster—and be truly job-ready.
© ImmerseLearn
