Develop Embedded Systems using Embedded C on AVR

Develop Embedded Systems using Embedded C on AVR, available at $74.99, has an average rating of 4.45, with 48 lectures, 8 quizzes, based on 83 reviews, and has 412 subscribers.

You will learn about Learn basics of Embedded C Developing Embedded System around AVR Microcontroller Master Masking Technique in C Interface Sensors and Actuators using GPIOs / Ports Demystify Timers to write delays Learn how to generate PWM, also learn to vary Duty Cycle and Frequency of PWM Wave Interface Liquid Crystal Displays (LCDs) to print Characters, String and Integers, Also Learn to write Library for LCD Interface Analog Sensors using inbuilt analog to digital converters This course is ideal for individuals who are Beginners to develop Embedded Systems around Microcontroller or Beginners curious to write and test Embedded C Programs on Hardware It is particularly useful for Beginners to develop Embedded Systems around Microcontroller or Beginners curious to write and test Embedded C Programs on Hardware.

Enroll now: Develop Embedded Systems using Embedded C on AVR

Summary

Title: Develop Embedded Systems using Embedded C on AVR

Price: $74.99

Average Rating: 4.45

Number of Lectures: 48

Number of Quizzes: 8

Number of Published Lectures: 48

Number of Published Quizzes: 8

Number of Curriculum Items: 56

Number of Published Curriculum Objects: 56

Original Price: $19.99

Quality Status: approved

Status: Live

What You Will Learn

Learn basics of Embedded C

Developing Embedded System around AVR Microcontroller

Master Masking Technique in C

Interface Sensors and Actuators using GPIOs / Ports

Demystify Timers to write delays

Learn how to generate PWM, also learn to vary Duty Cycle and Frequency of PWM Wave

Interface Liquid Crystal Displays (LCDs) to print Characters, String and Integers, Also Learn to write Library for LCD

Interface Analog Sensors using inbuilt analog to digital converters

Who Should Attend

Beginners to develop Embedded Systems around Microcontroller

Beginners curious to write and test Embedded C Programs on Hardware

Target Audiences

Beginners to develop Embedded Systems around Microcontroller

Beginners curious to write and test Embedded C Programs on Hardware

Learn Embedded C with AVR Microcontrollers!!

8.5 Hours of Video Content.

8 Quizzes with more than 70 Questions.

13 Hands-on Practicals

All Codes are available in the resources

Lecture Material (PDF / PPTs) are available in the resources

All Wiring Diagrams are available resources

Description

This course Demystifies the internal working of Microcontroller and Peripherals. You will learn register-level Embedded C programming to use inbuilt peripherals on the microcontroller to interface sensors, actuators, and Liquid Crystal Displays (LCD). You will learn to use Timers to generate accurate delays, Use timers to generate Pulse Width Modulation (PWM) Waveforms with variable duty cycle. Learn to use analog to digital converter (ADC) to gather data from analog sensors and display it to LCDs.

Each section ends with a Quiz to examine your learning outcomes from this course. All the codes (C Programs) are available in resources along with the lecture material.

This is NOT Arduino Style Programming!!

I believe that Arduino is for quick prototyping of products but not for Mastering Microcontrollers and peripherals.In Arduino, you use many Third-Party Libraries,In this course, you will be writing your own libraries, Your code will be talking and manipulate microcontroller registers, True Register Level programmingis presented in this course.

Major Topics Covered

1. Masking:Learn to manipulate (Set/Reset) a particular bit in a port or MCU register without altering other bits.

2. Pull-up Register:Learn the importance of pull-up resistors, enabling and disabling them, also learn to use them in interfacing digital sensors.

3. Timers:Learn to write C programs to generate accurate delays using MCU Timers.

4. Pulse Width Modulation:Learn to generate PWM wave with variable duty cycle using MCU timers and PWM registers.

5. Liquid Crystal Display:  Learn to interface LCDs with MCU using GPIOs, No third-party library is used for LCD, You will learn to write your own library for LCDs.

6. Analog to Digital Converter:Learn to interface analog sensors such as a potentiometer to read voltage across it.

7. Temperature Monitoring System:Learn to interface LM35 temperature sensor IC to read ambient temperature and display the same on LCD.

8. Speed Control of DC Motor:Learn to control the Direction and Speed of DC Motor using half-bridge integrated circuit L293D and PWM Technique. Vary the Speed using a POT connected to ADC and vary the PWM duty cycle accordingly.   

Course Curriculum

Chapter 1: Expectation from Course

Lecture 1: Expectations from Course, Whats Inside the Course

Chapter 2: Microcontroller Basics

Lecture 1: Microcontrollers Vs Microprocessors

Lecture 2: Von-Neumann Vs Harvard Architecture

Lecture 3: How to Select a Microcontroller?

Chapter 3: AVR & its Ports

Lecture 1: Hello AVR!!

Lecture 2: AVR Ports

Lecture 3: The First Embedded C program

Chapter 4: Embedded C – Masking

Lecture 1: Bit Wise Masking !!

Lecture 2: LED Blink using Masking

Lecture 3: Masking using Shifting

Lecture 4: Blink LED using Masking with Shifting

Lecture 5: Circular Shifting / Bit Rotation

Chapter 5: Play with Switches, Pull Up Resistors & LEDs

Lecture 1: Switch and Pull Up Resistors

Lecture 2: How to Enable inbuilt pull-up resistors in AVR?

Lecture 3: Interface LED and Switch with AVR using Embedded C

Lecture 4: Switch with LED Blink – Have Fun with Embedded C

Lecture 5: Switch and LED Blink with Multiple Delay – More Fun with Embedded C

Chapter 6: Timers and Delays

Lecture 1: Introduction to AVR Timers

Lecture 2: Lets get inside TIMER0

Lecture 3: How to calculate TCNT value to generate a particular delay?

Lecture 4: Programming AVR Timers

Chapter 7: Let us explore Pulse Width Modulation (PWM)

Lecture 1: Introduction to PWM

Lecture 2: How PWM wave is generated in Microcontrollers

Lecture 3: PWM Registers in AVR and PWM Modes

Lecture 4: PWM Frequency

Lecture 5: PWM Duty Cycle

Lecture 6: Programming to generated PWM Wave – LED Brightness Control

Chapter 8: Liquid Crystal Displays – LCDs

Lecture 1: Introduction to LCD Displays

Lecture 2: LCD – Initialization

Lecture 3: LCD – Command and Data Embedded C Functions

Lecture 4: LCD – Initialization Function

Lecture 5: LCD – Printing Characters using Embedded C

Lecture 6: LCD – Embedded C functions to position cursor and print strings

Lecture 7: LCD – Printing Strings

Lecture 8: LCD – Embedded C Function to Print Integers

Lecture 9: LCD – Printing Integers

Lecture 10: Embedded C – User defined library for LCD

Chapter 9: Analog to Digital Conversion

Lecture 1: Need of Analog to Digital Conversion

Lecture 2: Characteristics of ADC

Lecture 3: Relation between Input Analog Voltage and Binary Output Data

Lecture 4: Features of ADC on AVR

Lecture 5: ADC – ADMUX Register

Lecture 6: ADC – ADCSRA Register

Lecture 7: Programming ADC using Embedded C – EXP 1

Lecture 8: Programming ADC to Calculate and Display Input Analog Voltage

Chapter 10: Projects

Lecture 1: Temperature Monitoring System using LM35 Sensor

Lecture 2: Speed Control of DC Motor – Part 1

Lecture 3: Speed Control of DC Motor – Part 2

Instructors

Rahul Shrivastava
Design Engineer & Trainer – Embedded Systems & IoT

Rating Distribution

1 stars: 0 votes

2 stars: 0 votes

3 stars: 4 votes

4 stars: 34 votes

5 stars: 45 votes

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