
Examine the practical schematic of an interleaved boost converter connected to the F28027 launchpad, covering input and output filtering, MOSFET driver circuitry, sensors, and PWM control.
Explore the hardware of the interleaved boost converter: input terminals, ferrite cores, input capacitors, two-phase inductors with mosfets and diodes, and the tLP351 drivers with regulators.
Gain insight into advanced power electronics with our comprehensive course on implementing an Interleaved Boost Converter using the TMS320F28027 microcontroller. This course provides an in-depth exploration of converter design, starting with fundamental principles and key equations essential for establishing a solid foundation.
Participants will acquire practical experience in firmware development using Code Composer Studio (CCS), focusing on achieving precise Voltage Mode Control through the hysteresis method. The course will guide participants through the advanced design of a PI controller using MATLAB, enabling them to generate accurate digital controller coefficients. These coefficients will seamlessly integrate into participants' TMS320F28027 firmware, allowing mastery of the complete implementation of Voltage Mode Control.
Designed for electrical engineering students, hobbyists, and professionals seeking to deepen their knowledge in power electronics and control systems, this course recommends a basic understanding of electronics and microcontroller programming. However, step-by-step instructions ensure participants build confidence and competence in each topic.
Whether an aspiring engineer, a seasoned professional, or simply passionate about electronics, this course equips participants with the skills to design and control an Interleaved Boost Converter. By blending theoretical knowledge with hands-on application, participants will harness the capabilities of the TMS320F28027 microcontroller and MATLAB, elevating proficiency in power converter design. Join to take the next step in mastering power electronics with TMS320.