Live Project Based Robotics with AVR and ARM7 training in Bhopal

Live Project Based Robotics with AVR and ARM7 training in Bhopal4.8 out of 5 based on 7921 ratings.

KVCH, provide the Best Robotics with AVR and ARM7 Training in Bhopal , . With the use of its excellent infrastructure and high tech technology KVCH enables students and working professionals to learn master the art of application development.

The program is exclusively designed for students and working professionals who wants to pursue Robotics with AVR and ARM7 Training . The course structure covers extensive topics that are designed by our senior industry expert.

At KVCH , aspirants learn various essential components of Robotics with AVR and ARM7.

Robotics with AVR and ARM7 Training in Bhopal , consists of gaining knowledge about legged robots, mobile robots, autonomous robots, robotic arm and many more The program enables students to acquire learning of procedures of building robots, locomotion in robots and many more such concepts under the guidance of our expert trainers students. KVCH focus on Project based training rather than theoretical sessions, and for that reason our curriculum is designed in a manner such that the aspirants learns more about the project conceptually.

From past 25 years we have been the leaders in the training industry and with our experienced staff and trainers , KVCH has been awarded as the Best Robotics with AVR and ARM7 Training Institue in Bhopal , .

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Course Description

      Module 1: Embedded C Programming

      INTRODUCTION OF EMBEDDED C

    • Introduction to Embedded C
    • Different between C & Embedded C
    • Data type of Embedded C
    • Operators of Embedded C
    • Statements & loops of Embedded C
    • PROGRAMMING EMBEDDED SYSTEMS IN C

    • Introduction
    • What is an embedded System?
    • Which processor should you use?
    • Which programming language should you?
    • Which operating system should you use?
    • How do you develop embedded software?
    • HELLO, EMBEDDED WORLD

    • Introduction
    • Installing the Kiel software and loading the project
    • Configuring the simulator
    • Building the target
    • Running the simulation
    • Dissecting the program
    • Aside: Building the hardware
    • ADDING STRUCTURE TO YOUR CODE

    • Introduction
    • Object-oriented programming with C
    • Example: Restructuring the ‘Hello Embedded World’ example
    • Example: Restructuring the goat-counting example
    • Further Concepts
    • Data Types
    • Integer, Character, Float & S-bit
    • Operators
    • Assignment
    • Arithmetic
    • Relational
    • Logical – Bit wise & Byte wise
    • Increment/Decrement
    • Comma
    • Control Flow
    • If & If – else
    • While & Do – while
    • For
    • Switch
    • Continue
    • Break
    • Array
    • Pointers
    • Functions and Header files
    • PROGRAMMING & INTERFACING USING EMBEDDED C

    • Programming of Timer & Counter
    • Programming of Serial Port
    • Programming of Interrupt
    • LCD Interfacing
    • Motor Interfacing
    • Key board Matrix Interfacing
    • Module 2: Introduction to Robotics

      INTRODUCTION TO ROBOTICS

    • Types of robots
    • Legged robots
    • Mobile robots
    • Autonomous robots
    • Manual robots
    • Robotic arm
    • Procedure of building robots
    • ROBOTS AND CONTROLLERS

    • Mobile Robots
    • Embedded Controllers
    • Brief study of Microcontrollers
    • Interfaces
    • Operating System
    • Serial communication concepts with programming
    • Interrupt programming and embedded c concepts how to use KEIL with C concepts
    • LOCOMOTION IN ROBOTS

    • Wheeled
    • Legged
    • Flying
    • Floating
    • CONSTITUENTS OF AUTONOMOUS ROBOTS

    • Sensors
    • Microcontrollers
    • Actuators
    • Module 3: Robotics with AVR

      Microcontroller ATMEGA16 (AVR)

    • Hardware Details
    • Pin Diagram
    • AVR Architecture
    • Interrupts and Timers
    • Microcontroller AVR Assembly Language
    • AVR Studio, WINAVR C, Code Vision AVR
    • INTRODUCTION TO AVR (ATMEGA16)

    • AVR Family
    • Pin Diagram & pin description
    • Pin configuration
    • Memory Organization
    • Input/output pins
    • Special functions
    • System Control
    • USART(Universal Synchronous Asynchronous Rx Tx)
    • SPI (Serial Peripheral Interface)
    • Timer / Counter / Interrupts
    • PWM (pulse width Modulation)
    • I2C (Inter-Integrated Circuit)
    • ADC (Analog To Digital Convertor)
    • Analog comparator
    • BASIC INTERFACINGS

    • LED
    • Switch
    • Keypad matrix
    • LED matrix
    • 7 – segment Display
    • LCD - 2X16 Dot Matrix
    • 8 bit mode
    • 4 bit mode
    • Motors
    • DC Motor
    • Stepper Motor
    • Servo Motor
    • Relay
    • IR – sensor
    • Module 4: Robotics with ARM7

      INTRODUCTION TO ARM ARCHITECTURE

    • Introduction of ARM Architecture
    • Evolution of ARM Architecture
    • Pipeline Concept
    • ARM7 Architecture
    • ARM7 Based Microcontrollers
    • INTRODUCTION TO PHILLIPS LPC21XX

    • General description of LPC21XX
    • Features of LPC21XX
    • Block diagram & pin description
    • Memory map & bus structure
    • SYSTEM PERIPHERALS OF LPC21XX

    • Memory Accelerated Module (MAM)
    • Phase Locked Loop (PLL)
    • Power Control
    • APB (ARM peripheral Bus ) divider
    • Interrupt system
    • Wake –up Timer
    • Brown- out detection
    • Pin Connect Block
    • Vector interrupt Control (VIC)
    • USER PERIPHERALS OF LPC2148

    • Register description, Pin configuration, Features & applications of..
    • GPIO (General purpose input output)
    • Timer/Counter
    • PWM (Pulse Width modulation)
    • RTC (Real Time Clock)
    • WDT (Watch Dog Timer)
    • UART (Universal asynchronous receiver & transmitter)
    • I2C (Inter-Integrated Circuit)
    • SPI (Serial Peripheral Interface)
    • SSP (Synchronous Serial Port)
    • ADC (Analog to Digital Convertor)
    • DAC (Digital to Analog Convertor)
    • BASIC INTERFACINGS

    • LED
    • Switch
    • Keypad matrix
    • LED matrix
    • 7 – segment Display
    • LCD - 2X16 Dot Matrix
    • 8 bit mode
    • 4 bit mode
    • Motors
    • DC Motor
    • Stepper Motor
    • Servo Motor
    • Relay
    • IR – sensor