Designing with Integrated Analog On PIC® and AVR® MCUs

Designing with Integrated Analog On PIC® and AVR® MCUs

This training demonstrates how a few applications having standalone analog and discrete components (Op-Amp, ADC, DAC, Voltage reference, and Analog Comparator) can be designed and optimized using PIC® and AVR® microcontrollers with integrated analog peripherals. (Nov 2022)

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About this course

This training demonstrates how a few applications having standalone analog and discrete components (Op-Amp, ADC, DAC, Voltage reference, and Analog Comparator) can be designed and optimized using PIC® and AVR® microcontrollers with integrated analog peripherals. Microchip provides tool suites like MPLAB® Mindi Simulator and MPLAB Code Configurator (MCC) to help in designing such applications with integrated analog peripherals.

Curriculum65 min

  • Syllabus
  • Introduction
  • Course Introduction and Agenda 1 min
  • Overview Of Integrated Analog Peripherals 2 min
  • Microchip's Integrated Analog MCUs 4 min
  • Benefits of Integrated Analog Peripherals 1 min
  • Generic Use Cases 2 min
  • MCU Families With Integrated Analog Peripherals 1 min
  • Signal Chain Requirements
  • Signal Chain Requirements 6 min
  • Evaluating Analog Peripherals
  • Software Tools 1 min
  • Mindi Analog Simulator 3 min
  • Microchip Code Configurator (MCC) 5 min
  • Data Visualizer 1 min
  • Use Cases
  • Constant Current Driver 6 min
  • Overcurrent Protection 5 min
  • PIR Motion Detector 4 min
  • Microphone Interface 5 min
  • TDS Water Measurement 4 min
  • Performance Constraints
  • Integrated Op Amp Performance Constraints 6 min
  • Integrated DAC Performance Constraints 2 min
  • Integrated ADC Performance Constraints 6 min
  • Summary and References
  • Summary
  • Additional Resources
  • Feedback
  • Please provide some feedback!

About this course

This training demonstrates how a few applications having standalone analog and discrete components (Op-Amp, ADC, DAC, Voltage reference, and Analog Comparator) can be designed and optimized using PIC® and AVR® microcontrollers with integrated analog peripherals. Microchip provides tool suites like MPLAB® Mindi Simulator and MPLAB Code Configurator (MCC) to help in designing such applications with integrated analog peripherals.

Curriculum65 min

  • Syllabus
  • Introduction
  • Course Introduction and Agenda 1 min
  • Overview Of Integrated Analog Peripherals 2 min
  • Microchip's Integrated Analog MCUs 4 min
  • Benefits of Integrated Analog Peripherals 1 min
  • Generic Use Cases 2 min
  • MCU Families With Integrated Analog Peripherals 1 min
  • Signal Chain Requirements
  • Signal Chain Requirements 6 min
  • Evaluating Analog Peripherals
  • Software Tools 1 min
  • Mindi Analog Simulator 3 min
  • Microchip Code Configurator (MCC) 5 min
  • Data Visualizer 1 min
  • Use Cases
  • Constant Current Driver 6 min
  • Overcurrent Protection 5 min
  • PIR Motion Detector 4 min
  • Microphone Interface 5 min
  • TDS Water Measurement 4 min
  • Performance Constraints
  • Integrated Op Amp Performance Constraints 6 min
  • Integrated DAC Performance Constraints 2 min
  • Integrated ADC Performance Constraints 6 min
  • Summary and References
  • Summary
  • Additional Resources
  • Feedback
  • Please provide some feedback!