Arduino: Implement an Interleaved Boost Converter
Halleluyah Kupolati
1:32:19
Description
Implement Voltage Mode Control and PI Controllers for an Interleaved Boost Converter Using Arduino and MATLAB
What You'll Learn?
- Fundamentals of Interleaved Boost Converter design
- Implementation of firmware using Arduino IDE
- Hysteresis method for Voltage Mode Control in firmware
- Design and implementation of a PI controller using MATLAB
- Integrating PI controller firmware for Voltage Mode Control on Arduino
Who is this for?
What You Need to Know?
More details
DescriptionIn this comprehensive course, participants will master the design and implementation of an Interleaved Boost Converter using Arduino. Starting from the basics, learners will delve into the fundamental principles of converter design, learning to derive and apply essential equations that underpin the functionality of these devices.
Participants will gain hands-on experience with the Arduino IDE, where they will implement firmware to achieve precise Voltage Mode Control using the hysteresis method. The course goes beyond the basics by guiding learners through the design of a PI controller in MATLAB, enabling them to generate digital controller coefficients. They will then integrate this PI controller into their firmware, mastering the complete process of implementing Voltage Mode Control on an Arduino platform.
Designed for electrical engineering students, hobbyists, and professionals, this course aims to deepen knowledge in power electronics and control systems. While a basic understanding of electronics and Arduino programming is recommended, the course offers clear, step-by-step instructions to ensure participants build confidence and competence in each topic.
Throughout the course, participants will engage in practical exercises that reinforce theoretical concepts, allowing them to apply what they've learned to real-world scenarios. The blend of Arduino and MATLAB provides a robust framework for developing and testing the Interleaved Boost Converter, ensuring valuable insights into both software and hardware aspects of the project.
Whether an aspiring engineer, a seasoned professional, or simply passionate about electronics, this course equips learners with the skills to design and control an Interleaved Boost Converter. They will learn to navigate the complexities of power converter design, enhancing problem-solving abilities and technical proficiency.
By the end of the course, participants will have a thorough understanding of how to implement Voltage Mode Control on an Arduino platform, leveraging the power of MATLAB for controller design. Joining promises to harness the capabilities of Arduino and MATLAB, and elevate expertise in power converter design. This course promises to be a transformative experience, empowering participants to tackle advanced projects in power electronics with confidence and precision.
Who this course is for:
- Electrical engineering students
- Hobbyists interested in power electronics
- Anyone with a basic understanding of electronics and an interest in learning about boost converters
In this comprehensive course, participants will master the design and implementation of an Interleaved Boost Converter using Arduino. Starting from the basics, learners will delve into the fundamental principles of converter design, learning to derive and apply essential equations that underpin the functionality of these devices.
Participants will gain hands-on experience with the Arduino IDE, where they will implement firmware to achieve precise Voltage Mode Control using the hysteresis method. The course goes beyond the basics by guiding learners through the design of a PI controller in MATLAB, enabling them to generate digital controller coefficients. They will then integrate this PI controller into their firmware, mastering the complete process of implementing Voltage Mode Control on an Arduino platform.
Designed for electrical engineering students, hobbyists, and professionals, this course aims to deepen knowledge in power electronics and control systems. While a basic understanding of electronics and Arduino programming is recommended, the course offers clear, step-by-step instructions to ensure participants build confidence and competence in each topic.
Throughout the course, participants will engage in practical exercises that reinforce theoretical concepts, allowing them to apply what they've learned to real-world scenarios. The blend of Arduino and MATLAB provides a robust framework for developing and testing the Interleaved Boost Converter, ensuring valuable insights into both software and hardware aspects of the project.
Whether an aspiring engineer, a seasoned professional, or simply passionate about electronics, this course equips learners with the skills to design and control an Interleaved Boost Converter. They will learn to navigate the complexities of power converter design, enhancing problem-solving abilities and technical proficiency.
By the end of the course, participants will have a thorough understanding of how to implement Voltage Mode Control on an Arduino platform, leveraging the power of MATLAB for controller design. Joining promises to harness the capabilities of Arduino and MATLAB, and elevate expertise in power converter design. This course promises to be a transformative experience, empowering participants to tackle advanced projects in power electronics with confidence and precision.
Who this course is for:
- Electrical engineering students
- Hobbyists interested in power electronics
- Anyone with a basic understanding of electronics and an interest in learning about boost converters
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Halleluyah Kupolati
Instructor's Courses
Udemy
View courses Udemy- language english
- Training sessions 9
- duration 1:32:19
- Release Date 2024/08/01
