What will you learn in this Course
Understand the fundamental operation of lithium-ion battery cells.
Identify the key functions and components of battery management systems (BMS).
Learn how BMS monitors and controls battery parameters like voltage, current, temperature, and state-of-charge.
Explore safety mechanisms, failure modes, and protection strategies in battery systems.
Gain insights into the manufacturing processes and potential failure modes of lithium-ion cells.
Program Overview
1. Battery Boot Camp
⏳ 1 week (~5 hours)
Learn essential battery terminology and the principles of electrochemical cell operation.
2. How Lithium-Ion Cells Work
⏳ 1 week (~5 hours)
Understand the components, advantages, and functioning of lithium-ion cells.
3. BMS Sensing and High-Voltage Control
⏳ 1 week (~6 hours)
Delve into BMS requirements, focusing on sensing mechanisms and high-voltage control strategies.
4. BMS Design Requirements 2–5
⏳ 1 week (~5 hours)
Explore BMS requirements related to protection, system interface, performance management, and diagnostics
5. How Are Cells Made? How Can They Fail?
⏳ 1 week (~3 hours)
Examine the manufacturing steps of lithium-ion cells and understand potential failure modes.
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Job Outlook
Equips learners for roles such as Battery Systems Engineer, Electrical Engineer, and Energy Storage Specialist.
Applicable in industries like electric vehicles, renewable energy, consumer electronics, and aerospace.
Enhances employability by providing practical skills in battery technology and safety analysis.
Supports career advancement in fields requiring expertise in energy storage systems and battery management.
Specification: Introduction to battery-management systems
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FAQs
- Basic understanding of electrical engineering is recommended.
- Prior exposure to voltage, current, and circuit concepts helps.
- Absolute beginners may need extra effort for advanced topics.
- Hands-on labs reinforce theoretical understanding.
- Foundational knowledge improves grasp of BMS safety mechanisms.
- Covers battery monitoring, control, and protection strategies.
- Teaches state-of-charge, voltage, current, and temperature management.
- Applies to EVs, renewable energy, aerospace, and consumer electronics.
- Hands-on examples simulate real-world battery management scenarios.
- Provides practical knowledge for system integration and safety analysis.
- Self-paced with lifetime access allows flexible learning schedules.
- Modules range from 3–6 hours, manageable in short sessions.
- Hands-on exercises can be completed incrementally.
- Supports learners balancing work with skill development.
- Enables revisiting content for reinforcement and practice.
- Roles include Battery Systems Engineer, Electrical Engineer, and Energy Storage Specialist.
- Applicable in EV, renewable energy, aerospace, and electronics industries.
- Provides hands-on experience with battery monitoring and safety.
- Enhances employability in energy and technology sectors.
- Supports progression to advanced energy storage or battery management roles.
- Certificate of completion awarded upon finishing all modules.
- Demonstrates practical skills in lithium-ion cells and BMS.
- Issued by the course platform and shareable on professional networks.
- Adds credibility for roles in energy storage and EV industries.
- Enhances professional profile for employment and career advancement.
