Digital Control in Switched Mode Power Converters and FPGA-based Prototyping | EveryEng

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Digital Control in Switched Mode Power Converters and FPGA-based Prototyping

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483 min

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Why enroll

Participants should join this course to gain in-demand skills in digital control and FPGA-based power converter design. It helps students, teachers, and industry professionals stay updated with latest industry trends and prepare for research, development, and advanced power electronics careers.

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Is this course for you?

You should take this if

You work in Automotive
You're a Electrical professional
You have 3+ years of hands-on experience in this field
You want to build skills in Engineering & Design, Project Management

You should skip if

You're new to this field with no prior experience
You need a different specialisation outside Electrical
You need live interaction with an instructor

Course details

This course introduces digital control techniques used in modern switched mode power converters. It explains why industries are moving from analog control to digital control to achieve better performance, efficiency, safety, and flexibility. Learners will understand the advantages of digital control in handling EMI, hot swapping, scalability, and smart communication. The course covers different modulation methods and digital control architectures in a clear and practical manner. Modeling and analysis of power converters are explained using MATLAB and SIMPLIS tools. Students will learn systematic design and tuning methods for digital controllers. The course also introduces embedded control platforms used in real products. Basics of Verilog HDL and fixed-point implementation are taught for hardware realization. Hands-on aspects such as FPGA-based implementation and prototyping are included. Real-world reference designs, case studies, and practical demonstrations help bridge the gap between theory and industry practice.

Source: NPTEL IIT Kharagpur [ Youtube Channel]

Course suitable for

Key topics covered

• Digital Control in Switched Mode Power Converters and FPGA-based Prototyping

• Digital Control in Switched Mode Power Converters – Course Introduction

• Digital Control of SMPCs – Course Instructions, Guidelines & Resources

• Examples of Some Commercial Digital Control Solutions

• Overview of Digital Control Implementation Platforms

• Introducing Basic Digitization in Power Electronic Converters

• Recap of Feedback and Feedforward Control Methods in SMPCs

• Recap of Fixed and Variable Frequency Modulation Techniques

• Levels of Digitization in Single-loop Feedback Control in SMPCs

• Levels of Digitization in Multi-loop Feedback Control in SMPCs

• SMPC Topologies and Power Stage Design for Hardware Demonstrations

• Basics of Sampling under Fixed and Variable Frequency Modulation

• Voltage Mode Digital Pulse Width Modulators and Sampling Methods

• Overview of Digital Pulse Width Modulator Architectures

• Sampling Methods under Fixed Frequency Current Mode Control

• Overview of Fixed Frequency Current Mode Control Architectures

• Sampling Methods under Constant On/Off-Time Digital Modulation

• Constant On/Off-Time Mixed-Signal Current Mode Control Architectures

• Sampling Methods under Digital Hysteresis Control Methods

• Overview of Digital Hysteresis Control Architectures

• Summary of Digital Current Mode Control Architectures

• Recap of Voltage and Current Mode Control Implementation using MATLAB

• MATLAB Model Development for Basic Digital Control Blocks

• MATLAB Model Development for Fixed Frequency Digital Control

• MATLAB Models for Digital Controllers using Difference Equations

Course content

The course is readily available, allowing learners to start and complete it at their own pace.

25 lectures8 hr 3 min

Opportunities that await you!

Skills & tools you'll gain

Engineering & Design

Project Management

Research & Developmnet

Career opportunities

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What learners say about this course

Boora Mahesh civil engineer

Mar 14, 2026

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Hemanth TK

Feb 27, 2026

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Bhavani S Student

Feb 22, 2026

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Feb 15, 2026

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