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25082 MTR1: High performance motor control using low-cost MCUs (August 2025)

In this class you will learn methodologies and techniques for designing and implementing advanced motor control solutions using affordable microcontrollers, understand the motor control capabilities of low-end MCUs, use Microchip tools for tuning and debugging, and gain hands-on experience developing robust, high-performance motor control systems within budget constraints.

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About this course

 

This is a recording of the course 25082 MTR1 - High performance motor control using low-cost MCUs  from the 2025 MASTERs Conference.

In this course, you will explore the methodologies and techniques necessary to design and implement advanced motor control solutions using affordable microcontrollers (MCUs). You will understand the motor control capabilities of low-end MCUs, learn how to use Microchip tools to achieve maximum performance, and how to tune and debug motor control systems. Through hands-on labs, you will develop robust motor control systems that meet stringent performance criteria without exceeding budget constraints.

Prerequisites:

Basic knowledge of working on projects in the MPLAB X IDE would be helpful.

Curriculum93 min

  • About this course
  • Class Overview
  • Syllabus & Downloads
  • Introduction 2 min
  • Motor Control using AVR® MCUs 5 min
  • New Peripherals on AVR® EB Family of Devices 12 min
  • Trapezoidal Drive Strategy 5 min
  • LAB1: Trapezoidal Forced Commutation 12 min
  • Drive and Motor Synchronization 12 min
  • Unified Synchronization Algorithm 5 min
  • LAB2: Trapezoidal Synchronized Commutation 11 min
  • Sinusoidal Driving 4 min
  • LAB3: Sinusoidal Drive 4 min
  • Closed-Loop Speed Regulation 4 min
  • LAB4: Closed Loop 4 min
  • Safety and Limitations 4 min
  • LAB5: Protections and Limits 4 min
  • Sinusoidal Sensorless Feedback 3 min
  • Stepper Motor Demo 2 min
  • Complete Recording
  • 25082 MTR1 (98 min)

About this course

 

This is a recording of the course 25082 MTR1 - High performance motor control using low-cost MCUs  from the 2025 MASTERs Conference.

In this course, you will explore the methodologies and techniques necessary to design and implement advanced motor control solutions using affordable microcontrollers (MCUs). You will understand the motor control capabilities of low-end MCUs, learn how to use Microchip tools to achieve maximum performance, and how to tune and debug motor control systems. Through hands-on labs, you will develop robust motor control systems that meet stringent performance criteria without exceeding budget constraints.

Prerequisites:

Basic knowledge of working on projects in the MPLAB X IDE would be helpful.

Curriculum93 min

  • About this course
  • Class Overview
  • Syllabus & Downloads
  • Introduction 2 min
  • Motor Control using AVR® MCUs 5 min
  • New Peripherals on AVR® EB Family of Devices 12 min
  • Trapezoidal Drive Strategy 5 min
  • LAB1: Trapezoidal Forced Commutation 12 min
  • Drive and Motor Synchronization 12 min
  • Unified Synchronization Algorithm 5 min
  • LAB2: Trapezoidal Synchronized Commutation 11 min
  • Sinusoidal Driving 4 min
  • LAB3: Sinusoidal Drive 4 min
  • Closed-Loop Speed Regulation 4 min
  • LAB4: Closed Loop 4 min
  • Safety and Limitations 4 min
  • LAB5: Protections and Limits 4 min
  • Sinusoidal Sensorless Feedback 3 min
  • Stepper Motor Demo 2 min
  • Complete Recording
  • 25082 MTR1 (98 min)