Induction Stove Workshop
About the Induction Stove Workshop
The Induction Stove Workshop is a practical, hands-on training designed to teach participants how induction cooktops function, how electromagnetic induction generates heat, and how high-frequency inverter circuits power modern induction systems. This workshop is ideal for electronics students, hobbyists, makers, tech clubs, and beginners interested in power electronics. By the end of the workshop, every participant will understand coil design, inverter operation, PCB basics, and assemble/test a working induction heating prototype or demonstration model.
🧩 Workshop Modules – Induction Stove Workshop
📘 Fundamentals of Electromagnetic Induction
Learn how electromagnetic induction generates heat, the science behind eddy currents, magnetic fields, coil behavior, and how induction heating differs from traditional heating methods. Concepts are explained in simple, practical ways to ensure learners understand real-world applications.
🔧 Power Electronics & Inverter Circuits
Understand high-frequency inverters, MOSFET/IGBT switching, rectifiers, filtering, and how AC–DC–AC conversion powers induction cooktops. Includes step-by-step explanation of circuit operation.
🧪 Coil Winding & Heating Coil Construction
Learn about copper coil winding, turn ratio, current handling, ferrite cores, resonance circuits, and how coil geometry affects heating performance.
🛠 Prototype Assembly & Wiring
Assemble the induction stove prototype including PCB mounting, coil installation, power module integration, safety isolation, and wiring layout. Guided step-by-step for safe and effective assembly.
⏳ Workshop Duration
The workshop is conducted in 3 to 4 days based on program structure:
Day-1: Electromagnetic induction theory + inverter basics
Day-2: Coil winding + circuit study
Day-3: Assembly + wiring + testing
Day-4: Troubleshooting + demonstration
📘 What You Will Learn in the Induction Stove Workshop
🌀 Electromagnetic Induction Basics
Understand how magnetic fields create heat, eddy current behavior, coil operation, and how induction heating differs from other heating technologies.
⚙️ High-Frequency Inverter & Power Electronics
Learn how MOSFETs/IGBTs switch at high frequencies, how AC-DC-AC conversion works, and how induction circuits handle high current and heat.
💻 Circuit Design & PCB Basics
Study induction stove circuit layout, PCB components, gate drivers, protection circuits, and how each part contributes to safe power conversion.
📡 Sensors & Safety Mechanisms
Learn about heat sensors, overload protection, current sensing, and automatic shutdown mechanisms to prevent coil damage or overheating.
🔧 Prototype Assembly & Wiring
Assemble the full induction stove prototype including coil placement, PCB mounting, insulation, wiring, and enclosure setup.
🔥 Testing & Performance Evaluation
Perform heating tests, measure efficiency, check frequency behavior, verify coil inductance, and troubleshoot power stage issues.
🎯 Key Skills You Will Gain in the Induction Stove Workshop
🔧 Induction Stove Assembly Skills
Learn to assemble a functional induction stove prototype — coil placement, PCB fitting, wiring, insulation, and component alignment.
📘 Strong Understanding of Electromagnetic Induction
Gain clear knowledge of magnetic fields, eddy currents, heating principles, and how induction technology works at a physics level.
⚡ Power Electronics Handling
Work with MOSFETs, IGBTs, high-frequency inverters, gate drivers, rectifiers, and understand safe high-power switching.
⚙️ Circuit Configuration & Tuning
Learn coil frequency tuning, load testing, safety calibration, and efficient output optimization for induction heating.
💻 PCB Understanding & Component Identification
Identify and understand real PCB components like diodes, drivers, capacitors, fuses, sensors, filters, and their working roles.
🛠 Troubleshooting & Safety Practices
Diagnose overheating, inverter faults, coil malfunctions, short circuits, and handle repairs safely like a trained technician.
👥 Who Can Join the Induction Stove Workshop?
🎓 Students
Ideal for school and college students who want hands-on experience in electronics, induction heating, and practical power systems.
🎮 Hobbyists & Makers
Perfect for DIY enthusiasts who enjoy experimenting with circuits, magnetic induction, heating technologies, and appliances.
🏫 Engineering Colleges
Highly suitable for EEE, ECE, Mech, Mechatronics, and core engineering departments focusing on power electronics & inverter systems.
🤝 Clubs & Technical Groups
Great for electronics clubs, innovation cells, maker labs, and technical communities wanting a real hardware-based project.
🔥 Tech & Appliance Enthusiasts
Anyone curious about induction cooking, high-frequency inverters, or modern household appliance technology can join.
🌟 Benefits of the Induction Stove Workshop
🔥 Build a Working Induction Prototype
Participants assemble and test a functioning induction heating setup, learning how coils, drivers, and inverters work together.
👐 Real-Time Hands-On Experience
Experience high-frequency circuits, power electronics, coil heating, and testing through guided practical sessions.
🛠 Learn Industry-Used Tools & Components
Work with MOSFETs, high-frequency drivers, ferrite cores, capacitors, and testing tools used in real induction stove systems.
📜 Certification of Completion
Receive an official certificate from MMTimes to enhance your resume, portfolio, and practical electronics credibility.
💡 Innovation & Research Exposure
Understand applications of induction heating, inverter technologies, wireless power transfer, and other advanced research areas.
🤝 Team-Based Hardware Project
Collaborate on building functional systems, learning teamwork, circuit debugging, component selection, and prototype testing.
🚀 Future Scope — Induction Stove Workshop
⚡ Power Electronics Engineering
Work in high-frequency inverter design, MOSFET drivers, SMPS systems, and real-world power electronics applications.
🔬 Research in Electromagnetic Induction
Explore EM field design, coil engineering, heating efficiency improvements, and energy transfer research.
🏭 Home Appliance Technology
Contribute to the design and development of induction cooktops, heating appliances, and energy-efficient systems.
📡 Industrial Heating Applications
Work on induction furnaces, metal melting systems, forging heaters, and specialized industrial heating solutions.
🔧 PCB Design & Embedded Systems
Build advanced circuits, driver boards, sensor systems, and embedded controllers used in induction appliances.
💡 Renewable & Efficient Energy Tech
Apply induction principles in wireless power transfer, efficient converters, and next-gen energy technologies.
💼 Startup & Product Development
Create innovative heating devices, custom induction modules, or consumer appliances for commercial sale.
🔥 Ready to Start Your Induction Technology Journey?
Join the hands-on Induction Stove Workshop and learn how electromagnetic induction, high-frequency circuits, and heating systems are engineered and built.