📚 Power Electronics & Industrial Electronics

Code: 8008-EC

📚 Course: Power Electronics & Industrial Electronics

📖 Course Description: Power Electronics & Industrial Electronics

The Power Electronics & Industrial Electronics course provides an in-depth understanding of power conversion, motor control, and industrial automation. It covers the fundamentals of power semiconductor devices, power converters, inverters, and switching power supplies used in modern applications.

Learners will explore industrial power systems, motor drives, automation technologies (PLC & SCADA), renewable energy integration, and electric vehicle power systems. The course also includes thermal management, EMI/EMC design, and fault diagnosis techniques to enhance system reliability.

By the end of this course, participants will gain practical skills in designing, analyzing, and implementing power electronics solutions for industrial and renewable energy applications.

ℹ️ General Information: Power Electronics & Industrial Electronics Course

📌 Course Title: Power Electronics & Industrial Electronics
⏳ Duration: Varies (Self-paced / Instructor-led options available)
🎓 Level: Beginner to Advanced
🛠️ Mode: Online / Offline (Hands-on Labs)
📚 Language: English
📜 Certification: Provided upon successful completion
🎯 Prerequisites: Basic knowledge of electronics, circuits, and electrical systems
🔧 Tools Used: MATLAB/Simulink, LTspice, Proteus, PLC & SCADA Software, Arduino, Raspberry Pi, and Industrial Controllers

🎯 Target Audience

⚡ Electrical & Electronics Engineers – Professionals working in power systems & industrial automation.
🏭 Industrial Engineers & Technicians – Those involved in motor drives, control systems, and automation.
🎓 Students & Researchers – Studying power electronics, control systems, and industrial applications.
🔧 Embedded & IoT Developers – Engineers working on smart power management and automation systems.

📌 Course Content

📍 Level 1: Introduction to Power Electronics

✅ Basics of Power Electronics – Semiconductors, converters, and applications.
✅ Power Semiconductor Devices – Diodes, MOSFETs, IGBTs, SCRs, TRIACs.
✅ Power Converters & Inverters – AC-DC, DC-DC, DC-AC converters.
✅ Switching Power Supplies – SMPS, linear vs. switching regulators.

📍 Level 2: Industrial Electronics Fundamentals

✅ Industrial Power Systems – Electrical distribution and power quality.
✅ Motor Drives & Control – AC/DC motors, VFDs, servo systems.
✅ Industrial Sensors & Automation – Temperature, pressure, proximity sensors.
✅ PLC & SCADA Systems – Basics of automation and industrial control.

📍 Level 3: Advanced Power Electronics Applications

✅ Renewable Energy Systems – Solar, wind power integration.
✅ Power Factor Correction (PFC) – Improving energy efficiency.
✅ Energy Storage & Battery Management Systems (BMS) – Li-ion, Lead-acid batteries.
✅ Electric Vehicle (EV) Power Systems – Charging, motor controllers.

📍 Level 4: Industrial Safety & Design Considerations

✅ Thermal Management & Cooling Systems – Heat sinks, fans, and liquid cooling.
✅ EMI/EMC Considerations – Designing for low electromagnetic interference.
✅ Reliability & Fault Diagnosis – Preventive maintenance strategies.
✅ Case Studies & Real-World Applications – Industrial case studies.

📦 Materials Included

📘 Lecture Notes & PDFs
🔌 Circuit Schematics & Design Files
🎥 Video Tutorials & Code Examples
🖥️ Simulation & Debugging Tools
⚙️ Real-World Industrial Case Studies

🏆 Learning Outcomes

✅ Understand power electronics & industrial control fundamentals.
✅ Design and analyze power conversion systems.
✅ Implement motor drives & automation systems.
✅ Optimize power efficiency & manage industrial loads.
✅ Develop renewable energy & electric vehicle applications.