DC, BLDC & AC Motors Workshop
About the DC, BLDC & AC Motors Workshop
The DC, BLDC & AC Motors Workshop is a hands-on practical training where participants learn how different electric motors operate, how motor windings work, how drivers/ESCs control speed, and how to build basic motor driver circuits. This workshop is ideal for electronics students, hobbyists, makers, engineering colleges, and beginners who want to explore electric motor technology. By the end of the workshop, every participant will assemble, test, and understand motor controllers, speed control mechanisms, and motor behavior under load.
⚙️ Motor Selection for Hands-On Assembly
In this workshop, learners will study the complete theory of
DC Motors, BLDC Motors, and
AC Induction Motors.
However, for the practical hands-on assembly and driver-circuit building,
workshop must choose any ONE motor type from the options below:
This ensures every learner completes a full practical build while gaining conceptual knowledge of all motor types.
🧩 Workshop Modules – DC, BLDC & AC Motors Workshop
📘 Motor Theory & Working Principles
Learn the fundamentals of DC, BLDC, and AC motors — electromagnetism, torque generation, winding concepts, commutation, magnetic fields, rotor–stator interaction, and real-world applications. Concepts are explained practically so participants clearly understand how each motor type functions.
🔧 Hands-On Motor Winding & Assembly
Perform coil winding, commutator connections, stator assembly, BLDC hall-sensor alignment, and basic mechanical setup. Guided step-by-step for safe and accurate motor construction.
🧪 Driver Circuit Testing & Calibration
Learn ESC configuration for BLDC motors, H-bridge driver testing for DC motors, AC motor control basics, PWM tuning, and load-based performance testing. All driver circuits are tested until stable operation is achieved.
⚙️ Motor Speed Control & Automation
Learn PWM speed control, Arduino-based automation, soft-start control, reversing mechanisms, and safe motor operation under different loads.
⏳ Workshop Duration
The workshop is conducted over 3 to 4 days depending on the program:
Day-1: Theory + Motor Basics
Day-2: Motor Winding + Assembly
Day-3: Driver Circuits + Testing
📘 What You Will Learn in the DC, BLDC & AC Motors Workshop
🌀 Motor Fundamentals & Working Principles
Understand torque, RPM, back EMF, magnetic flux, commutation, and how DC, BLDC, and AC motors convert electrical energy into mechanical motion.
⚙️ Motor Winding & Internal Structure
Learn coil winding, stator–rotor alignment, core materials, insulation, commutators, magnets, and how design affects motor output.
💻 Arduino / PWM / ESC Control
Use Arduino PWM, MOSFET drivers, H-bridges, and ESCs to control motor speed, direction, braking, and soft-start routines.
📡 Sensors & Feedback Systems
Work with hall sensors, back-EMF detection, potentiometers, and tachometers for closed-loop motor control.
🔧 Motor Assembly & Driver Setup
Assemble motor units, connect ESC/H-bridge circuits, align hall sensors, and tune motor parameters for efficient and stable operation.
🛠 Performance Testing & Troubleshooting
Test load performance, speed curves, detect heating issues, fix wiring faults, and diagnose driver or sensor-related problems.
🎯 Key Skills You Will Gain in the DC, BLDC & AC Motors Workshop
🔧 Motor Assembly & Wiring
You will learn how to assemble DC, BLDC, and AC motor setups, including wiring coils, connecting drivers, and aligning sensors.
📘 Strong Understanding of Motor Theory
Gain clear understanding of electromagnetic induction, torque generation, commutation, and motor characteristics.
⚡ Speed Control & PWM Skills
Learn to control motor speed using PWM, H-bridge circuits, MOSFET drivers, and ESC controllers for BLDC motors.
⚙️ Motor Driver Setup
Configure motor drivers, calibrate ESCs for BLDC, set up H-bridges for DC motors, and tune driver parameters.
💻 Basic Motor Programming
Learn Arduino-based motor control, sensor feedback reading, direction control, soft start, braking, and RPM monitoring.
🛠 Troubleshooting & Repairs
Identify wiring issues, overheating problems, faulty ESCs or H-bridges, and fix motor alignment or vibration issues.
👥 Who Can Join the DC, BLDC & AC Motors Workshop?
🎓 Students
Perfect for diploma, engineering, and science students interested in understanding electric motors and driver circuits.
🎮 Hobbyists & Makers
Great for DIY makers who enjoy building circuits, experimenting with motors, and creating automation projects.
🏫 Engineering Colleges
Highly suitable for EEE, ECE, Mechanical, Mechatronics, and Robotics departments aiming to enhance practical motor skills.
🤝 Clubs & Technical Groups
Ideal for robotics clubs, innovation cells, embedded systems groups, and electronics clubs seeking hands-on projects.
⚡ Motor & Electronics Enthusiasts
Anyone passionate about motors, power electronics, EV technology, or automation can participate and learn practically.
🌟 Benefits of the DC, BLDC & AC Motors Workshop
⚡ Work With Real Motors
Participants will handle DC, BLDC, and AC motors, learning their structure, function, and control techniques hands-on.
🛠 Build Motor Driver Circuits
Learn to build, test, and troubleshoot driver circuits such as H-bridges, ESCs, and PWM-based speed controllers.
👐 100% Practical Learning
From winding basics to controller programming, the workshop focuses entirely on real-world motor applications.
📜 Certification of Completion
Receive an official certificate from MMTimes to enhance your resume, portfolio, and technical credibility.
💡 Industry-Relevant Knowledge
Gain skills used in robotics, electric vehicles, automation, home appliances, and industrial motion systems.
🤝 Team-Based Practical Experience
Work collaboratively in teams, building circuits, testing motors, and solving electrical challenges together.
🚀 Future Scope — DC, BLDC & AC Motors Workshop
⚡ Electric Vehicle Engineering
Work on EV motor systems, BLDC hub motors, controllers, battery interfaces, and propulsion technologies used in modern electric vehicles.
🤖 Robotics & Automation
Join robotics and industrial automation projects involving precision motion control, servo systems, and motor-driven robotic actuators.
🏭 Industrial Machines & Control Systems
Contribute to industries that use AC induction motors, servo motors, conveyors, and automated production lines.
🔧 Motor Driver & ESC Development
Build advanced motor controllers, ESCs for BLDC motors, H-bridge circuits, and high-efficiency PWM-based speed control systems.
🧪 Research in Power Electronics
Explore motor design, power converters, inverters, and switching circuits used in renewable energy and high-efficiency appliances.
📦 Home Appliances & Mechatronics
Work on motors used in fans, washing machines, compressors, pumps, and modern home automation products.
💼 Startup & Product Development
Create custom motor control solutions, automation products, EV kits, robotics platforms, and industrial driver modules for clients.
⚡ Ready to Start Your Motors Engineering Journey?
Join the hands-on DC, BLDC & AC Motors Workshop and learn motor principles, driver circuits, ESC control, PWM speed regulation, and practical testing.