Embedded System

SL no Basic Module – Embedded Systems & Robotics TIME
1 Introduction to Robotics, Embedded System AVR Series Micro-Controllers & ATMEGA 16 Drivers & Software Installation 3 hour
2 Theory: LED Interfacing with ATMEGA 16

Practical 1: Glowing LEDs in a pattern of your choice Seven Segment Displays

Practical 2: Displaying Digits on Seven Segment Displays LED Matrix

Practical 3: Generating Patterns on LED Matrix

3 hour
3 Theory: LCD Interfacing with ATMEGA 16

Practical 4: Displaying Text on LCD

3 hour
4 Theory: LCD Interfacing Continued.

Practical 5: Scrolling Text on LCD

Practical 6: Creating Patterns on LED and display on LCD

3 hour
5 Theory: DC Motor Interfacing with ATMEGA 16 – L293D IC

Practical 7: Learning Interfacing of Motor with LED & LCD

Practical 8: Controlling Direction of Rotation of a Motor  with ATMEGA 16 theory

Practical 9: Rotation in forward and backward direction

Practical 10: Controlling speed of DC motor

Project 1: model of a small robot with 2 DC motor

3 hour
6 Theory: Working of IR Sensors – Digital IR Sensors

Practical 11: Displaying analog value on LCD

3 hour
7 Project 2: Line Follower Robot

Project 3: Wall Follower Robot

Project 4: Visitor Counting Application Assignment & Revision

3 hour
8 Theory: Buzzer interfacing with ATMEGA 16

Practical 12: Generating Beep through Buzzer Interfacing of Temperature Sensor

Practical 13: Calibrating Sensor value with Temperature Range

Project 5: Digital Thermometer

Project 6: Temperature Controlled Fan

Project 7: High Temperature Alarm

3 hour
9 Theory: Keypad Interfacing with ATMEGA 16

Practical 14: ON\OFF LED\Motor\Buzzer using single key Linear Keypad

Practical 15: Controlling Motor (ON\OFF, Direction of Rotation) using Linear Keypad

Practical 16: Writing text on LCD using Linear Keypad

3 hour
10 Theory: Matrix Keypad Interfacing

Project 8: Keypad Operated Robot

3 hour
11 Project 9: Password Controlled Application – ATM Prototype

Project 10: Calculator Assignment & Revision

 

 

 

 

 

 

 

 

 

3 hour
12 Theory:  PWM

Practical 16: Controlling brightness of a LED. Speaker (Monotone) Interfacing with ATMEGA 16

Practical 17: DC motor speed control using PWM

3 hour
13 Theory: Interfacing RGB LED

Practical 18: generating different using RGB LED

3 hour
14 Assignment & Revision 3 hour
15 Exam – Theory & Practical 3 hour
  ADVANCE MODULE – Embedded Systems & Robotics  
16 Theory: Working of DTMF – Theory Mobile Controlled Applications

Project 11: Mobile Controlled Robot

3 hour
17 Theory: Working of Relays, Interfacing Relays with ATMEGA 16

Practical 19: ON\OFF Bulb or Fan (100 W) from Microcontroller

Project 12: Controlling AC Appliances using Keypad

Major Project 1: Mobile Controlled AC Devices

3 hour
18 Theory: Touch Screen Interfacing with ATMEGA 16

Practical 20: Displaying values of Touch Screen points on LCD

Practical 21: Controlling Motors\ LED using Touch Screen

Project 13: Touch Screen Controlled Robot

3 hour
19 Theory: RF Module (Wireless Technology) Interfacing

Practical 22: Testing RF Module using LED

Major Project 2: Remote Controlled Wireless Robot with touch screen

3 hour
20 Theory: USART Protocol

Practical 23: Writing on LCD using PC/Laptop keyboard

Project 14: PC Controlled Robot

3 hour
21 Major Project 3: PC Controlled Classroom/home appliances via RF Module 3 hour
22 Accelerometer Interfacing with ATMEGA 16

Practical 24: Displaying values of coordinates in LCD

 

3 hour
23 Project 15: Wrist control robot with LCD interfacing 3 hour
24 Theory: Bluetooth protocol

Practical 25: blue tooth interfacing with Atmega-16

Project 16: character display on LCD using Bluetooth

Project 17: Bluetooth controlled robot using pc

Major Project 4: Bluetooth controlled robot using smart phone

3 hour
25 Revision & Problem Solving Session 3 hour
26 EXAM – Theory & Practical 3 hour
     

 

NB: The syllabus can be customized according to the demand of Students/ faculties