Transformers & Wireless Power Transfer Workshop
About the Transformers & Wireless Power Transfer Workshop
The Transformers & Wireless Power Transfer Workshop is a hands-on training program focused on understanding electromagnetic induction, transformer construction, resonant circuits, and wireless power transmission principles. This workshop is ideal for engineering students, electronics enthusiasts, science clubs, and beginners interested in power electronics. By the end of the workshop, every participant will design, assemble, and test a working wireless power transfer system capable of powering small devices through induction.
🧩 Workshop Modules – Transformers & Wireless Power Transfer Workshop
📘 Electromagnetic Theory Sessions
Learn the principles of electromagnetic induction, mutual induction, flux linkage, resonant frequency, transformer behavior, and energy transfer through magnetic fields. Core concepts are explained simply to ensure participants understand how wireless power becomes possible.
🔧 Transformer Winding & Core Assembly
Build transformers from scratch: coil winding, core selection, insulation, primary–secondary configuration, magnetic coupling optimization, and safe assembly practices.
🧪 Resonant Circuit Design
Learn LC resonance, capacitor selection, frequency tuning, impedance matching, and how resonance improves wireless power transmission efficiency. Includes hands-on circuit building and testing.
⚡ Wireless Power Transmitter & Receiver
Assemble transmitter and receiver coils, test coupling distance, adjust operating frequency, and measure output power. Learn safe handling of induction-based power systems.
⏳ Workshop Duration
The workshop can be conducted in 3 to 4 days depending on the program:
Day-1: Electromagnetic theory + transformer basics
Day-2: Coil winding + transformer assembly
Day-3: Resonant circuit design + wireless power setup
Day-4: Testing + optimization
📘 What You Will Learn in the Transformers & Wireless Power Transfer Workshop
🌀 Electromagnetic Induction & Flux
Understand magnetic flux, flux linkage, mutual induction, and how energy transfers through coupled coils.
⚙️ Transformer Construction & Working
Learn core materials, primary–secondary windings, turns ratio, losses, and how transformers step voltage up/down.
💻 Resonant LC Circuit Design
Design LC circuits, tune resonant frequency, perform impedance matching, and optimize efficiency for wireless transfer.
📡 Transmitter & Receiver Coil Design
Wind transmitter and receiver coils, test coupling distance, adjust spacing, and analyze coil behavior under load.
🔧 Wireless Power System Assembly
Assemble complete wireless charging modules, connect power electronics, tune frequency, and evaluate performance.
🛫 Practical Testing & Efficiency Measurement
Measure real-time output power, charging performance, distance efficiency, and troubleshoot alignment & tuning issues.
📘 What You Will Learn in the Transformers & Wireless Power Transfer Workshop
🌀 Electromagnetic Induction & Flux
Understand magnetic flux, flux linkage, mutual induction, and how energy transfers through coupled coils.
⚙️ Transformer Construction & Working
Learn core materials, primary–secondary windings, turns ratio, losses, and how transformers step voltage up/down.
💻 Resonant LC Circuit Design
Design LC circuits, tune resonant frequency, perform impedance matching, and optimize efficiency for wireless transfer.
📡 Transmitter & Receiver Coil Design
Wind transmitter and receiver coils, test coupling distance, adjust spacing, and analyze coil behavior under load.
🔧 Wireless Power System Assembly
Assemble complete wireless charging modules, connect power electronics, tune frequency, and evaluate performance.
🛫 Practical Testing & Efficiency Measurement
Measure real-time output power, charging performance, distance efficiency, and troubleshoot alignment & tuning issues.
🎯 Key Skills You Will Gain in the Transformers & Wireless Power Transfer Workshop
🔧 Coil Winding & Transformer Assembly
Learn to wind primary and secondary coils, assemble transformer cores, and build induction-based power transfer modules.
📘 Strong Understanding of Electromagnetic Theory
Gain a solid understanding of flux, induction, resonance, coupling coefficient, and energy transfer efficiency.
⚡ Power Electronics & Driver Circuits
Work with MOSFET-based drivers, high-frequency oscillators, rectifiers, and tuning circuits for wireless energy transfer.
⚙️ Resonance Tuning & Frequency Matching
Adjust LC circuits, match resonance between transmitter & receiver, and maximize wireless charging distance.
💻 Wireless Charging System Design
Design and assemble complete wireless charging platforms for low-power devices using induction and resonance.
🛠 Troubleshooting & Performance Optimization
Diagnose alignment issues, coil losses, heating problems, and improve efficiency through tuning and testing.
👥 Who Can Join the Transformers & Wireless Power Transfer Workshop?
🎓 Students
Perfect for engineering and science students interested in electromagnetism, power systems, and wireless energy transfer.
🔧 Hobbyists & Makers
Great for DIY electronics enthusiasts who enjoy building circuits, experimenting with coils, and creating wireless gadgets.
🏫 Engineering Colleges
Highly relevant for EEE, ECE, Mechatronics, Physics, and Power Electronics departments aiming for hands-on practical learning.
🤝 Clubs & Technical Groups
Ideal for electronics clubs, innovation cells, maker labs, and technical groups conducting practical circuit-based projects.
📡 Wireless Tech Enthusiasts
Anyone curious about induction, transformers, resonant circuits, or wireless charging technology can join and learn.
🌟 Benefits of the Transformers & Wireless Power Transfer Workshop
🔌 Build a Working Wireless Charger
Assemble transmitter & receiver coils, tune resonant circuits, and demonstrate wireless power transfer to a small device.
🧰 Real Hands-On Coil Winding & Assembly
Learn practical skills: coil winding, ferrite usage, transformer assembly, soldering, and safe mounting of power circuits.
⚡ Industry-Grade Tools & Measurement
Use oscilloscopes, LCR meters, function generators and power supplies to test efficiency, waveform, and impedance matching.
📜 Certification of Completion
Receive an official certificate from MMTimes validating practical experience in transformers, induction and WPT systems.
💡 Innovation & Research Exposure
Explore resonant wireless techniques, magnetic coupling optimization, EMI considerations and research directions in WPT.
🤝 Prototype & Team Project Experience
Work in small teams to design, prototype and debug a wireless power demo — learn teamwork, documentation and presentation skills.
🚀 Future Scope — Transformers & Wireless Power Transfer Workshop
⚡ Power Electronics Engineering
Work in SMPS design, inverter systems, AC–DC converters, and advanced transformer-based power systems used in industries.
📡 Wireless Charging Development
Join teams working on Qi-charging, resonant WPT, inductive power transfer, and next-generation wireless charging technologies.
🏭 Industrial Automation & Control
Engineer transformer modules, isolation circuits, and power transfer units used in automation, robotics, and PLC systems.
🔋 EV Charging & Energy Systems
Explore EV wireless charging, coil optimization, power transfer through resonance, and energy-efficient charging technologies.
📱 Consumer Electronics Applications
Work on wireless chargers, smart transformers, compact power adapters, and power delivery systems for gadgets and appliances.
🔬 Research in Magnetic Coupling
Contribute to research on resonant inductive coupling, ferrite materials, coil tuning, and low-loss wireless power transmission.
💼 Startup & Product Innovation
Create wireless charging pads, IoT power modules, inductive tools, or custom transformer-based power solutions for industries.
⚡ Ready to Begin Your Wireless Power Journey?
Join the hands-on Transformers & Wireless Power Transfer Workshop and learn how to design, build, and test real wireless charging systems using induction and resonant circuits.