Microcontrollers ITRONIX CERTIFIED

PIC Microcontroller Industrial Training

 

AVR Training in Jalandhar

PIC is a family of modified Harvard architecture microcontrollers made by Microchip Technology and developed by General Instrument’s Microelectronics Division. The name PIC referred to “Peripheral or Programmable Interface Controller”. The PIC Microcontroller is one of the most popular general purpose microcontrollers especially designed for embedded systems and especially in robotics. It a small chip based on an architecture with support for embedded applications, such as measuring device, security systems, robotics, remoter control applications, scroll message display, etc. Training emphasis is given to applied knowledge of the principles by exposing the students to live working projects.

COURSE CODE: ITR-202 COURSE DURATION: 6 WEEKS COURSE OBJECTIVE:

  1. Understanding about the concepts and basic architecture of PIC
  2. Familiarization with different types of Microcontroller
  3. Architecture and addressing modes of PIC
  4. Programming and Interfacing PIC microcontroller & understand the importance of different peripheral devices
  5. Impart knowledge of different types of external interfaces including LEDS, LCD, Keypad Matrix, Switches , RF(Radio Frequency Communication), Seven segment display , DTFM , GSM , DC Motor & Stepper Motor ..Etc.

COURSE CONTENT

OVERVIEW OF ARCHITECTURE of PIC:

  1. Introduction to Embedded System
  2. Applications of embedded system
  3. Introduction to Microcontrollers & Microprocessors
  4. MICROCHIP PIC Architecture
  5. Processor Core and Functional Block Diagram
  6. Description of memory organization
  7. Overview of ALL SFR’s and their basic functionality

CIRCUIT DEVELOPMENT OF PIC:

  1. Reset circuit designing
  2. Crystal circuit designing

PROGRAMMING CONCEPTS:

  1. Cross Compiler
  2. Embedded C language implementation, programming,& debugging
  3. Differences from ANSI-C
  4. Memory Models
  5. Library reference
  6. Use of #pragma directive
  7. Functions, Parameter passing and return types

PROGRAMMING CONCEPTS:

  1. Cross Compiler
  2. Embedded C language implementation, programming,& debugging
  3. Differences from ANSI-C
  4. Memory Models
  5. Library reference
  6. Use of #pragma directive
  7. Functions, Parameter passing and return types

ON-CHIP PERIPHERALS PROGRAMMING, AND APPLICATION:

  1. Ports: Input/output
  2. Timers & Counters
  3. UART (Programming of Serial ports)
  4. Interrupts

EXTERNAL INTERFACES STUDY, PROGRAMMING AND APPLICATIONS:

LEDS

  1. Introduction to LED
  2. Assembly code for LED blinking & C code
  3. implementation(single LED) with C programming
  4. LED array connections (multiple LED’s)
  5. Dancing LED’s with C programming

Switches(Momentary type, Toggle type)

  1. Introduction to switches (Push buttons)
  2. Positive logic implementation and negative logic
  3. Relay Interfacing and Programming
  4. Introduction
  5. Basic circuit implementation/pin configuration
  6. ON/OFF controlling AC and DC devices with C programming

Seven Segment Display

  1. Normal mode
  2. BCD mode
  3. Internal Multiplexing & External Multiplexing

LCD (8bit, 4bit, Busy flag, custom character generation)

  1. Introduction to 16×2 LCD
  2. 16×2 LCD hardware connections
  3. Displaying own text on 16×2 LCD with C programming
  4. LCD interfacing with push buttons in C program
  5. Custom Character Generation

Keypad Matrix

  1. 4×4 keypad and 16×2 LCD interfacing to AVR

LDR (Light Dependency Resistance)

  1. Introduction to LDR
  2. C program for LDR interface with AVR

Stepper Motor Interfacing & Programming

  1. Introduction
  2. ON/OFF control switching with C program
  3. Rotation of motor in clock and anti-clockwise direction with C program
  4. L293D circuit implementation

DC Motor Interfacing & Programming

  1. Introduction
  2. ON/OFF control switching with C program
  3. Rotation of motor in clock and anti-clockwise direction with C program
  4. L293D circuit implementation

A/D & D/A Converter

  1. Introduction to ADC
  2. ADC0804 basic circuit interfacing and C programming
  3. Displaying temperature on LCD with ADC0804(hardware and software)
  4. Basics of ADC0808

RF Communication

  1. Introduction
  2. 433MHz RF wireless communication
  3. Basic circuit diagram implementation(HT12E, HT12D)
  4. Wireless device control through RF with C programming

DTMF Interfacing & Programming

  1. DTMF MT8870/CM8870/HT9170 introduction
  2. Basic circuit design(hardware)
  3. DTMF implementation with AVR C programming

I2C (EEPROM and RTC)

  1. Introduction
  2. DS1307 RTC programming in C

IR (Infrared Sensor)

  1. Introduction
  2. Basic circuit design(hardware)
  3. IR implementation with 8051 C programming

SPI (EEPROM)

  1. Infrared Communication(RC5 protocol)
  2. Working with PWM (Pulse Width Modulation)

ADVANCED MODULES:

  1. RFID
  2. GSM/GPS
  3. ZIGBEE
  4. USB
  5. MMC & SD
  6. Ethernet MAC
  7. Tilt Sensors
  8. Accelerometer and gyroscope
  9. Relay

Leave a Reply

Your email address will not be published. Required fields are marked *