Dive into the world of boost converters with our comprehensive course, designed
to teach you how to create and implement these essential devices using the
powerful Nucleo-F401RE development board. Starting with the core principles of
boost converter design, you'll learn the fundamental equations and theoretical
underpinnings that drive their operation.
Transitioning from theory to practice, this course will guide you through
firmware development using the STM32CubeIDE. You will gain valuable hands-on
experience in implementing Voltage Mode Control using the Hysteresis method
within STM32 firmware, providing a solid grasp of control mechanisms and their
real-world applications.
A key component of the course is the integration of MATLAB for designing and
simulating a Proportional-Integral (PI) controller tailored for boost
converters. You'll learn how to generate digital controller coefficients in
MATLAB and successfully implement these in firmware to achieve precise Voltage
Mode Control on the STM32 platform.
This course offers practical exercises and real-world examples to ensure a
thorough understanding of the concepts. The Nucleo-F401RE development board is
not mandatory but is highly recommended to maximize your hands-on learning
experience.
By the end of this course, you will have a deep understanding of boost
converters, advanced control strategies, and the practical skills needed to
implement these in various projects and professional settings. This course is
ideal for engineering students, hobbyists, professionals, and anyone interested
in enhancing their knowledge in power electronics and control systems. Whether
you're an aspiring engineer or a seasoned professional, this course will equip
you with the knowledge and skills to master boost converter design and
implementation.
Dive into the world of boost converters with our comprehensive course, designed
to teach you how to create and implement these essential devices using the
powerful Nucleo-F401RE development board. Starting with the core principles of
boost converter design, you'll learn the fundamental equations and theoretical
underpinnings that drive their operation.
Transitioning from theory to practice, this course will guide you through
firmware development using the STM32CubeIDE. You will gain valuable hands-on
experience in implementing Voltage Mode Control using the Hysteresis method
within STM32 firmware, providing a solid grasp of control mechanisms and their
real-world applications.
A key component of the course is the integration of MATLAB for designing and
simulating a Proportional-Integral (PI) controller tailored for boost
converters. You'll learn how to generate digital controller coefficients in
MATLAB and successfully implement these in firmware to achieve precise Voltage
Mode Control on the STM32 platform.
This course offers practical exercises and real-world examples to ensure a
thorough understanding of the concepts. The Nucleo-F401RE development board is
not mandatory but is highly recommended to maximize your hands-on learning
experience.
By the end of this course, you will have a deep understanding of boost
converters, advanced control strategies, and the practical skills needed to
implement these in various projects and professional settings. This course is
ideal for engineering students, hobbyists, professionals, and anyone interested
in enhancing their knowledge in power electronics and control systems. Whether
you're an aspiring engineer or a seasoned professional, this course will equip
you with the knowledge and skills to master boost converter design and
implementation.