Motors & Controllers – Cohort 2

Last Day for Registration : October 24, 2024

SKU: IIT Madras | Start Date: 1st November, 2024 Categories: ,

Course Description

About The Course:

Centre for Outreach and Digital Education (CODE), IIT Madras, offers a short-term executive certificate programme on Motors and Controllers. The performance of an electric vehicle is primarily defined by its “engine” – the motor. Although motors have been known for over a century, EVs make far more exacting demands that have brought motors to the centre-stage of technology and set new benchmarks. All of these advances are driven by developments in power electronics and embedded firmware. Most students and professional engineers in the automotive industry are bewildered by these rapid advances and unable to make informed decisions on the kind of motor that would be appropriate for a vehicle. This course seeks to demystify the “Multi-physics” of the motor and make the underlying ideas accessible. Spanning electromagnetic, thermal, hardware design and control algorithms, this course bridges the gap between academic theory and industry practice. The learners will be empowered to develop motors for vehicles of their choice through a specially curated software tool for design and simulation.

Modules Covered:

MODULE-1: Recap of High School Physics

MODULE-2: Motor Construction

MODULE-3: Performance Evaluation

MODULE-4: Motor Control

MODULE-5: Vehicle Dynamics

MODULE-6: Motor Design

MODULE-7: Controller Design

MODULE-8: Engineering Considerations

MODULE-9: Contemporary Trends

Click on the tab “Module Description” and choose the appropriate module from the dropdown menu to view more information about each module.

Mode of Course: 28 hours of recorded videos and 18 hours of online live interactive sessions with the faculty

Course Start Date: November 1, 2024

Mode: Pre recorded Videos will be released on Fridays and Online Live session on Saturdays.

Last date of Registration: October 23, 2024

Profile of the Instructor

Mr. L. Kannan
Technology Director,
Centre of Excellence in Energy and Telecommunications (CEET), IIT Madras

Mr. L. Kannan has built motors and controllers for several applications including electric vehicles, industrial machines, power tools and domestic appliances. He approaches design from first principles, examining the interactions of different physics phenomena that impact the final performance, to develop solutions that are tailored for the target end-use. His lectures on this topic are popular among students,
faculty and industry professionals.

Module Description

MODULE – 1 : Recap of High School Physics

Module Description:

Fundamentals of physics underlying a motor

Concepts Covered:

Ohm’s Law, Magnetism, Thermal, Potential Divider, Three-Phase Circuits, Real and Apparent
power, Faraday’s law of electromagnetism, Torque and Speed Constants, Geometry-Free
Visualization of Ohm’s and Electromagnetism, Electrical, Mechanical and Magnetic Loading of
a motor

Learning Outcomes:

  • Physics of torque production.
  • Back-emf constant, torque constant and the relationship between them

Applications of the Module:

Motor sizing based on torque density

MODULE – 2 : Motor Constructions

Description of the Course:

Different components and geometrical features inside a motor

Concepts Covered:

Physical Construction of a motor, Magnetic Path in a motor, Motor Sizing, winding pattern,
Effect of pole pairs

Learning Outcomes:

  • Optimizing the geometry of a motor for torque production

Applications of the Module:

Design and sizing of internal features of a motor

MODULE 3 : Performance Evaluation

Description of this Module:

• Assessing the performance of a motor using torque and speed curves
• Impact of losses on temperature, efficiency

Concepts Covered :

• Torque-Speed and Power-Speed Curves, Phase Resistance, Rated Operating Point,
Conductive and Convective Temperature-rise, Efficiency, Motor Constant, Copper and Steel
losses
• Effect of gearing

Learning Outcomes:

  • Estimation of losses, efficiency and thermal effects

Applications of the Module :

Evaluating how well the motor performs under different conditions of torque and speed

MODULE 4 : Motor Control

Description of this Module:

Closed-loop control for optimal control of speed and torque

Concepts Covered :

• Magnetic and reluctance torque, impact of phase-advance angle
• MTPA, and flux-weakening control schema.
• Feedback control Mechanism and Control Loops

Learning Outcomes:

  • Optimizing motor performance by controlling the phase-advance angle

Applications of the Module :

Fundamentals of Closed-loop control of a motor

MODULE 5 : Vehicle Dynamics

Description of this Module:

How does different vehicle parameters and driving conditions influence torque and speed
requirement of an EV motor

Concepts Covered :

Linear and Rotational Motion, Powertrains, Drive modes, Forces Acting on the vehicle, Velocity
vs Time and Distance vs Time, Vehicle Dynamics Calculator

Learning Outcomes:

  • Estimating the speed, torque and power demands on the motor under different driving
    conditions

Applications of the Module :

Deriving the specifications of the motor, based vehicle performance requirements

MODULE 6 : Motor Design

Description of this Module:

• Overview of motor topologies
• Motor design and simulation tool

Concepts Covered :

Motor design for a popular topology, using a cloud-hosted design and simulation tool

Learning Outcomes:

  • Design of a motor and its performance analysis

Applications of the Module :

Detailed motor design developed on the basis of vehicle specifications

MODULE 7 : Controller Design

Description of this Module:

Hardware and software design to implement closed-loop control of motor

Concepts Covered :

• PWM, hex-bridge inverter, Controller architecture, current and voltage measurement,
hardware and software filters, 6-step control, Field-oriented Control
• Firmware implementation – Clark and Park Transforms, Third Harmonic Injection, SVPWM

Learning Outcomes:

  • Design of a motor and its performance analysis

Applications of the Module :

Identify the components of interest for the development of controllers for a PMSM motor
control

MODULE 8 : Engineering Considerations

Description of this Module:

How to build a motor that meets user expectations of performance and life

Concepts Covered :

Noise and Vibration, Ingress Protection, cogging torque and torque ripple, thermal design
guidelines, Wavy washers contact resistance

Learning Outcomes:

  • Practical considerations and good practices in motor manufacturing

Applications of the Module :

Manufacturing guidelines for high-performance motors

MODULE 9 : Conntemporary Trends

Description of this Module:

Contemporary challenges and design trends in the EV industry

Concepts Covered :

Tech Drivers, constraints of Materials and Manufacturing, Design Trends

Learning Outcomes:

  • Roadmap for designs that enable strong market differentiation

Applications of the Module :

Visualizing the future evolution of this domain

Eligibility & Fees

Eligibility :

B.Tech (any domain) with interest in automotive EVs

Course fees:
Rs. 47,200 (Rs. 40,000 + 18% GST)

 

 Fees paid are non-refundable and non-transferable.

Course Policy

Please refer HERE to read about policies on Admission, Pricing, Payment and Attendance.

Certification

The Certificate criteria for this course is as follows:

Total % will be calculated from all 3 categories

( Assignments, Quizzes and Attendance of Live sessions)

Type of certificate that will be issued
75% -100% Successfully completed
50% -74% Completed
25% – 49% Participated
<25% No Certificate

Course Certificate Template

Video Feedback

Testimonials from previous Cohort

Starting from the basics of physics and diving into the methodology of how we handle motors and the background of calculations, these technical aspects helped me to design a motor from scratch. 

Ms. Vinothini Gurudevan, Senior Team Lead

            Valeo India Pvt. Ltd. 

  • Knowing Prof. Kannan’s background in explaining the motors and controllers and the EV field helped me understand the complete architecture of motors in the EV industry.

 Mr Om Kumar, Head, Mechanical & Thermal Systems

                       Switch Mobility

 

  • The course built a bridge and filled the gap between theoretical and practical aspects. It also has given a flow to design a motor. The course has covered the basics of building a motor from scratch, and Prof. Kannan has explained the concepts well.

Mr Srikanth, Senior Engineer

                       Tata Elxsi

 

  • The course is not just about theoretical aspects. It’s about concepts as well as applications. Apart from theory, how you can implement practically and how you will mature your design principles based on market needs.

Mr Jayakumar K, Manager

                       Daimler Truck

  • It was exceptionally curated based on multiple inputs on motors and other parts of powertronics topics. I highly recommend this program for anybody who would like to understand about motors and so on. 

 Mr Premsundar Ravi, Program Lead – EV Competency

                       Mahindra Technical Academy

 

 

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