Program Overview
This comprehensive program equips R&D professionals with deep-domain knowledge and advanced skills in motor control systems.The course covers key concepts, emerging trends, and practical applications of motor control systems, including field-oriented control (FOC), Hardware-in-the-Loop (HIL) testing, and optimization strategies for EV and ADAS technologies. Through real-world case studies, interactive simulations, and system design exercises, participants will gain the technical and situational expertise needed to address complex challenges and drive innovation in automotive R&D.
Features
- Comprehensive understanding of motor control systems tailored to automotive R&D challenges.
- Hands-on experience with advanced control techniques and testing frameworks.
- Practical strategies for resolving real-world integration and performance issues.
- Insights into future trends and opportunities in motor control systems.
Target audiences
- R&D engineers, test engineers, and system design engineers in auto component manufacturing companies.
Curriculum
- 13 Sections
- 41 Lessons
- 4 Days
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- Advanced Control Strategies3
- Overview of Motor Control Systems3
- Components and Architecture3
- Real-World Examples of Motor Control Applications4
- Challenges in Dynamic Motor Performance3
- Insights from Industry Implementations4
- 6.2Real-life issues and solutions in implementing FOC.
- 6.3Lessons learned from retrofitting legacy systems with modern controls.
- 6.4Case study: Optimization of motor control for traction motors in EVs.
- 6.5Interactive Exercise: Tuning control parameters for specific motor applications using simulation tools.
- Testing Frameworks and Tools3
- Identifying and Resolving Issues3
- Industry Examples of Problem-Solving4
- Designing Custom Motor Control Systems3
- Emerging Trends in Motor Control3
- Future-Focused Case Studies3
- Capstone Activity: System Design Challenge2
Instructor
