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Date: October 10, 2024
Location: Online
Time: 9 AM - 4 PM EDT

Cost 550 USD

LIVE Online Format

Unlock the Power of Permanent Magnet Synchronous Motors: Course Highlights 


Join our comprehensive course to master the intricacies of Permanent Magnet Synchronous Motors. Whether you're a seasoned engineer or just starting your journey in electric motor design, this course equips you with the knowledge and skills you need to excel in this dynamic field. 


What You Will Learn?


  • Basics of PMSMs and their types
  • The Impact of Steel Core and Magnet Materials on Motor Performance 
  • Magnetic Circuit Analysis for Enhanced Understanding 
  • Analytical Modeling Techniques for PMSMs 
  • Torque and Power Calculation Methods 
  • Losses and Efficiency Estimation Strategies 
  • Drive Strategies: Vector and Direct Torque Control 
  • 2D and 3D Finite Element Analysis (FEA)-Based Simulations 
  • Advanced Magnetic Materials for Improved Efficiency 
  • Thermal Analysis and Cooling Optimization 
  • Troubleshooting, Maintenance, and Best Practices 
  • Emerging Trends: IoT Integration and Smart Motor Technologies 

As a bonus, participants will receive complimentary trial access to EMWorks design tools, enhancing your practical experience. 


Who Should Attend?


  •  Junior Engineers with Basic Electric Motor Design Knowledge 
  • Senior Engineers Seeking Updates on Recent Electric Motor Technology 
  • Engineers with No Prior Electric Motor Experience 
  • Established Companies Aiming to Keep Employees Informed about Cutting-Edge Motor Technologies 
  • Startups Venturing into the Thriving Electric Motor Business 
  • Electrical Engineers Eager to Specialize in Motor Design 
  • Research and Development Teams for Innovative Product Development 
  • Electric Vehicle Enthusiasts Exploring EV Technology 
  • Maintenance and Repair Technicians Responsible for Motor Upkeep 
  • Energy Efficiency Advocates Focused on Sustainable Design 
  • Motor Manufacturing Personnel Enhancing Production Expertise 


Why Choose eMD?


Our expert instructors guide you through every aspect of electric motors, from fundamental principles to advanced techniques. Whether you're looking to enhance your existing knowledge or start from scratch, we're here to empower your journey. 

  • Hands-On Projects: Engage in practical projects and real-world simulations to apply the knowledge gained during the course. 
  • Industry Insights: Gain access to industry insights and case studies to understand real-world applications of PMSMs. 
  • Networking Opportunities: Connect with fellow participants, instructors, and industry experts to expand your professional network. 
  • Flexibility: Enjoy the flexibility of online learning with self-paced modules, allowing you to balance your studies with work and other commitments. 
  • Career Advancement: Enhance your career prospects with a comprehensive understanding of PMSMs, making you a valuable asset to employers. 
  • Continued Support: Access post-course support, resources, and updates to stay connected with the latest developments in electric motor design. 

Don't miss the opportunity to become a proficient PMSM expert. Enroll today and elevate your electric motor design skills to new heights. 


What's Included in this Course?


  • A soft copy of the course
  • Certificate of Completion
General Overview of PMSM
  • Recent trends and demands PMSMs topologies
  • PMSM vs. BLDC
  • PM motor terminology
  • Magnet types and properties
  • Rotor PM orientation and impact
  • Steel core materials and types
  • Soft magnetic composites (SMC)
Performance Parameters of PMSM
  • Back-EMF, flux linkage & cogging torque
  • Magnet torque and reluctance torque
  • Torque ripple reduction techniques
  • Rotor shape optimization
  • Torque density and power density
  • Magnetic flux leakage and saturation
  • Phase resistance calculation
  • Iron and mechanical losses
  • N-T curve and motor efficiency calculation
  • Heat and rise in temperature
Key Design Factors of PMSM
  • Magnetic circuit analysis
  • Slot and pole combinations Winding type and properties
  • Slot fill factor and current density Cooling types
Practical Design Example of PMSM
  • Drive control strategies
  • TRV, electric and magnetic loading
  • Sizing equations for PM machines
  • Software demo and workflow
2024-07-18 00:00:06

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