Advance Training Course on Microcontroller & Embedded System (PIC)

No Of Class 15 Class
Course Fee: 10,000/=
Duration Per Class 03 hours

 

Advance Training Course on Microcontroller(PIC)

Introduction:

  • Introduction to Embedded System
  • What is microcontroller
  • Comparison between Microcontroller & Microprocessor
  • What is AVR?
  • Why AVR?
  • Comparison of AVR with other MCU
  • AVR Block diagram
  • Reason of choosing MCU for your project
  • Atmel AVR 8-bit microcontroller architecture
  • Special feature
  • Block diagram
  • System Clock
  • Installation & Environment Setup:
  • Development life cycle
  • Proteus Setup
  • Atmel Studio 7.0
  • IDE features
  • Schematic design
  • Simulation Concept
  • Development kit
  • Hardware construction
  • Testing & Debugging
  • 10 Final Fabrication.

Lecture 1:

  • Basic concept about C programming
  • Concept about if-else, do-while, for loop and goto statement
  • Concept about macro, header file and library design
  • Concept about Various custom data types

Exercise: Exercise of few problems in C will be given in class.

Lecture 2:

  • Concept about functional programming
  • Basic concept about Pointers and it’s usages
  • Basic about  OOP (Object Oriented Programming) like C++

Basic concept of class, properties, methods, constructor, destructor, static members & methods etc of C++ programming

Exercise: Exercise of few problems in C & C++ will be given in class.

Lecture 3:

  • I/O and port
  • GPIO’s
  • Analog I/O’s
  • Configuring ports and controlling their status

Example: Input and output detection method

Project:  LED Blink and LED Turn on/off using Button, Interfacing 7 segments.

Lecture 4:

  • Memory Management
  • Types of memories and its usage
  • SRAM
  • EEPROM
  • Special function registers
  • System Clock and Clock Options
  • Concept of Interrupt and it’s usages

Example: Internal Interrupt, External Interrupt, Pin Change Interrupt

Project:   Interfacing PIR Sensor using External Interrupt

Lecture 5:

  • Timers in AVR
  • Using 8-bit & 16-bit Timers
  • Asynchronous Timer
  • Counters & their usages

Example:  Making ‘Delay’ using Timers, Count exact 1 second using Asynchronous Timer, Counting total input pulse using Counter

Project: Countdown display using 7 segments.

Lecture 6:

  • Analog to digital conversion
  • ADC in AVR
  • Using different types of Reference for ADC
  •  Detecting input voltage in ADC pin
  • Reading ADC value with interrupt & without interrupt
  • Measuring High Voltage DC/AC using ADC
  • Interfacing various analog sensors using ADC
  • Analog Comparator & it’s usages

Example:  ADC reading, Interrupt based ADC reading

Project:  Design a voltmeter, Temperature reading using sensor LM35, Capacitor meter

Lecture 7:

  • Concept about Digital to Analog  conversion (DAC)
  • Generating PWM using Timer0, Timer1 & Timer2
  • Making various voltage level using PWM
  • Making Sine Wave using PWM
  • Generating Sound using PWM
  • Example:  Generating PWM and analyze it, generating Sine Wave & Sound

Project:  Making various sound frequencies, Generating Siren using PWM

Lecture 8:

  • Basic communication protocols
  • Basic about Serial Communication
  • Details about UART protocol

Example:  Serial communication with PC and other microcontroller.

Project:   Controlling load by giving command from computer, Connect Bluetooth module with microcontroller and control load remotely.

Lecture 9:

  • Basic about  SPI Communication
  • Details about  SPI  protocol and interfacing methodology
  • Example:  SPI communication with other hardware & microcontroller

Project:   Interfacing and reading SD card data using SPI protocol from microcontroller.

Lecture 10:

  • Basic about I2C/TWI protocol
  • Advantages of I2C/TWI protocol over other protocol
  • Details about I2C/TWI protocol and interfacing methodology

Example:  SPI communication with other hardware & microcontroller

Project:   Interfacing and reading SD card data using SPI protocol from microcontroller.

Lecture 11:

  • Basic Concept about Internet of Things (IoT)
  • Connect microcontroller with Internet through Ethernet Cable
  • Pulling data from server to microcontroller and pushing data to server from microcontroller
  • Controlling Load from a Webpage over Internet

Example:  Controlling load and getting the device status update through     Internet.

Project:   Design an Internet controlled Home Automation project.

Lecture 12:

  • Basic electronics design concept
  • Basic electronics calculation for designing circuit
  • PCB design basic
  • PCB design practice

Lecture 13:

  • Design custom component in Proteus
  • Design PCB for custom component
  • Details about PCB Production in practical

Lecture 14,15:

   Final  Project