Embedded Systems Course with Placement

job assured training in chennai

Our Job Assured Training programme (JAT) is aimed at providing in-depth training to job seeking engineers, so that they can enhance their engineering skills and become industry-ready engineers. On completion of the JAT programme, the trainee will be a professional engineer and will be able to meet the skill requirements of hiring organisations.

The JAT programme provides detailed knowledge in technical areas pertaining to the requirements of major companies in embedded and software areas. The duration of the programme is 6 months.

Trainees under the JAT programme will also be offered assistance for getting placements in reputed companies upon evaluation of their performance. The placement assistance will be given once the trainee has successfully completed 6 months in the progranme.

Eligibility Criteria

  • Candidate should have scored above 60% aggregate in academics.  job assured training in chennai
  • Candidates from B.E, EEE, ECE, CSE, IT, Mechatronics and EIE fields can apply.

Procedure

  • Trainees are expected to be punctual and adhere to the timings.
  • 85% attendance is compulsary for all trainees in the programme.
  • Trainees should clear the minumum cut-off marks for every module in order to be eligible for placements.
  • Mock interviews will be conducted after every module.
  • Pre-screening interview will be conducted before placement assistance is provided.

CERTIFIED DIPLOMA COURSE IN ADVANCED EMBEDDED SYSTEMS

DURATION :  6 Months (5hrs/day)    
Working Days : Monday to Saturday ( Time : 10.00 AM to 3.00 PM )

Next Batch Starts : 10th June 2019

Module 1 : INTRODUCTION TO C

  • Why C in Embedded
  • ANSI Standard
  • Fundamentals of C
  • Conditional Statements
  • Loops
  • Functions
  • Arrays
  • Strings
  • Storage Classes
  • Structures & Unions
  • Enumerated data types
  • Bit Operations
  • Pointers
  • Dynamic Memory Allocation
  • File Handling Concepts
  • Raw Data Handling
  • Low-level Programming
  • Command line Arguments
  • Compiler in Practical
  • Data Structures
  • Sorting and Searching Techniques
  • Concepts and Real Time Exposure
  • Development Tools and Environment
  • Make Utility and Multi file programming
  • Industry Coding Standards
  • Object / Executable File Format
  • Debugging large programs
Module 2 : INTRODUCTION TO VARIOUS ARM CORE & ARM CORTEX M0+
Module 3 : BASIC ARCHITECTURE OF ARM CORTEX M0+
Module 4 : BRIEF INTRODUCTION TO INTERNAL FEATURES
Module 5 : DEVELOPMENT TOOLS
  • Turbo C.
  • Keil IDE.
  • Flash Magic.
  • Docklight
Module 6 : OVER VIEW OF LPC8XX MICROCONTROLLER
  • Demonstration of LED Program with LPC812 kit.
  • Description to GPIO of LPC812 Microcontroller.
  • Detailed description of Microcontroller Clocking.
  • Detailed descriptions about registers
  • Introduction to SYSCON
Module 7 : EMBEDDED C PROGRAMMING ON GPIO
  • LED Toggling
  • Logic gate implementation
  • Introduction to Digital and Analog Sensors
  • Interfacing with IR sensor, PIR sensor, LDR
  • Introduction to Timers in LPC8XX
Module 8 : INTODUCTION TO TIMER
  • Introduction to MRT Timer
  • Introduction to SYSTICK Timer
  • Toggling LED with Specific ON/OFF Time
Module 9 : INTRODUCTION TO COMMUNICATION PROTOCOLS

  • Difference between serial communication and parallel communication.
  • Introduction to UART and USART.
  • Difference between Interrupt method and Polling method.
  • Receive Data using Interrupt method.
Module 10 : INTERFACING DIFFERENT MODULES USING UART
  • GPS
  • GSM
  • Bluetooth
  • 6LowPAN
  • Zigbee
  • Module 11 : INTRODUCTION TO I2C PROTOCOL
  • Introduction to I2C Serial Communication Protocol
  • How to set clock in I2C
  • Selecting a slave devices using address
  • Module 12 : INTRODUCTION TO SPI PROTOCOL
  • Introduction to SPI Serial Communication Protocol
  • How to Set clock in SPI and Salve Select
  • Module 13 : INTERFACING DIFFERENT MODULES USING SPI
  • Interfacing ADC using SPI Communication protocol
  • Interfacing BME280 Sensor
  • Interfacing Microcontroller as Slave Device
  • Module 14 : INTRODUCTION TO WIRELESS COMMUNICATION
  • Brief history of wireless communication
  • Bluetooth module
  • RF module
  • Wifi module
  • Module 15 : INTRODUCTION TO IoT
  • Introduction about IoT
  • Interfacing WIFI- ESP8266
  • Multiple Device integration using IoT Technologies
  • Node to Node Communication
  • Connect, Develop, and Deploy IoT Applications with Ubidots
  • Module 16 : PROJECT