Creating Unique Digital and Analog Functionality by Interconnecting Core Independent Peripherals (CIPs)

This class will cover in detail a number of applications that utilize multiple Core Independent Peripherals (CIPs) to simplify the design of different circuits.

About this course

This class will show how to create a FSK demodulator, high-resolution PWM, WS2812B RGB LED protocol, ultrasonic range detector, metal detector, AC Sine direct drive and switch-mode power supply by interconnecting multiple Core Independent Peripherals (CIPs). Examples will be shown using PIC® and SAM MCUs. The CIP interconnections and circuit wave-forms will be presented along with live demonstrations of several of these designs. Exposure to these real-world examples will help you to apply CIPs in your project to reduce component count and improve system performance by replacing firmware overhead with CIP hardware.

Curriculum90 min

  • Syllabus
  • Introduction
  • Overview 7 min
  • Examples
  • FSK Demodulator 9 min
  • Inductance Measurement Using an LC Tank Circuit 13 min
  • WS2812 LED Driver 14 min
  • WS2812 LED Driver Demo 7 min
  • Non-Standard SPI Protocol 6 min
  • Ultrasonic Range Sensor 6 min
  • PIR Curtain Using ADC Threshold Detect 6 min
  • Hysteretic Boost Converter and Sine Wave Generator
  • Precision Rectifier with OpAmp 5 min
  • Spread Spectrum Modulation 7 min
  • AC Line Direct Drive 6 min
  • Questions and Answers
  • Your Feedback
  • We need your feedback

About this course

This class will show how to create a FSK demodulator, high-resolution PWM, WS2812B RGB LED protocol, ultrasonic range detector, metal detector, AC Sine direct drive and switch-mode power supply by interconnecting multiple Core Independent Peripherals (CIPs). Examples will be shown using PIC® and SAM MCUs. The CIP interconnections and circuit wave-forms will be presented along with live demonstrations of several of these designs. Exposure to these real-world examples will help you to apply CIPs in your project to reduce component count and improve system performance by replacing firmware overhead with CIP hardware.

Curriculum90 min

  • Syllabus
  • Introduction
  • Overview 7 min
  • Examples
  • FSK Demodulator 9 min
  • Inductance Measurement Using an LC Tank Circuit 13 min
  • WS2812 LED Driver 14 min
  • WS2812 LED Driver Demo 7 min
  • Non-Standard SPI Protocol 6 min
  • Ultrasonic Range Sensor 6 min
  • PIR Curtain Using ADC Threshold Detect 6 min
  • Hysteretic Boost Converter and Sine Wave Generator
  • Precision Rectifier with OpAmp 5 min
  • Spread Spectrum Modulation 7 min
  • AC Line Direct Drive 6 min
  • Questions and Answers
  • Your Feedback
  • We need your feedback