Workshops

Request for a workshop in your college/ school/ campus on the below mentioned technologies. You may also submit your queries for a workshop on a specialized technology and as per your schedule , Just click below and mention the details.


linerobotName:                                                  Line Follower Robot
Duration:                                           2-3 Days
Minimum seats:                              20 Participants
Learning:
Basic electronics
Knowledge of components
Learn to use IR Sensors
Learn the basic algorithm for robotics movement.
Learn to mechanical assemble the robot.


Name:                                                  Edge Avoider Robotedge
Duration:                                           2-3 Days
Minimum seats:                              20 Participants
Learning:
Basic concepts of Robotics
Knowledge of electronic components
Learn how to use Sensors in Robotics application.
Learn the basic algorithm for robotics movement.
Learn to mechanical assemble the robot.


Name:                                                  Object Detecting Robot
Duration:                                           2-3 Days
Minimum seats:                              20 Participants
Learning:
Learn to use UDM MODULE in Robotics application.
Learn the basics for robotics coding.
Learn to mechanical assemble the robot.


Name:                                                  Remote Controlled Robotmobile operated
Duration:                                           2-3 Days
Minimum seats:                              20 Participants
Learning:
Learn to interface a TV Remote to a Microcontroller
Interfacing of TSOP Sensor to your robot.
Writing Algorithm for SONY protocol
Mechanical Assembling of chassis of robot.


Name:                                                  Bluetooth Interfaced Robot
Duration:                                           2-3 Days
Minimum seats:                              20 Participants
Learning:
Learn About Bluetooth
How to interface bluetooth to a MCU
Usage of Mobile app to interface HC-05 module
Coding the MCU Board on robotic platform
Mechanical Assembling of the Robot.


Name:                                                  Radio Frequency Controlled Robot
Duration:                                           2-3 Days
Minimum seats:                              20 Participants
Learning:
Learn Basics of ASK RF transmission and Reception
How to interface RF Modules to a device.
Programming a microcontroller for Tx and Rx signals.
Coding the MCU Board on robotic platform
Mechanical Assembling of the Robot.


Name:                                                  Wireless steering Robotsteerrobo1
Duration:                                           2-3 Days
Minimum seats:                              20 Participants
Learning:
Learn interfacing ARDUINO in Robotics
Usage of ADXL Module for 3d Balancing
Interfacing of Microcontroller to RF Tx and Rx Module
Working on Algorithm for Serial Monitoring of data
Mechanical Assembling of Robotic chassis and Buildup.


Name:                                                  Guesture controlled Robot
Duration:                                           2-3 Days
Minimum seats:                              20 Participants
Learning:
Learn interfacing Accelerometer module .
Usage of RF Transmission and reception.
Interfacing of Microcontroller to RF Tx and Rx Module
Writing code for PIC Microcontroller.
Mechanical Assembling of Robotic chassis and Buildup.


Name:                                                          PCB Designing geda-screenshot_pcb_osx
Duration:                                                    2-3 Days
Minimum seats :                                    
35 participants
Learning:
Basic concepts of PCB Designing
Designing of PCB Schematic and layout technique with leaded components and SMD
Documentation using ERC, DRC, NETLIST, PARTLIST,
Direct Board file creation technique.
Auto Routing Techniques
Double Layer creation
BOM creation
GERBER file creation
Good Soldering Practices
Reverse Engineering Practices.
Drilling , Soldering of components and Testing of PCB Board.


Name:                                    Learning Arduino Arduino_Uno_-_R3
Duration:                             1  Days
Minimum seats:                35 participants
Learning:

Introduction to Arduino
Different Boards and Philosophy
Introduction to Arduino IDE
Various functions and loops
Syntax explanation
Debugging with Arduino Platform

Interfacing Input and output devices:
LEDs and Switches
RGB LED Interfacing
LDR Interfacing


Name:                                    Exploring Arduino Arduino_Uno_-_R3
Duration:                             2  Days
Minimum seats:                35 participants
Learning:

Introduction to Arduino (Different Boards and Philosophy)
Introduction to Arduino IDE
Various functions and loops
Syntax explanation
Debugging with Arduino Platform

Interfacing Input and output devices:
LEDs and Switches
Seven Segment Display
RGB LED Interfacing
LDR Interfacing

Motors
DC motor

Sensor
Temperature Sensor

Wireless communication
RF Communication
Discussion on Arduino Based Project


Name:                                    Implementing Arduino Arduino_Uno_-_R3
Duration:                             3  Days
Minimum seats:                35 participants
Learning:

Introduction to Arduino (Different Boards and Philosophy)
Introduction to Arduino IDE
Various functions and loops
Syntax explanation
Debugging with Arduino Platform

Interfacing Input and output devices:
LEDs and Switches
LCD Display
Seven Segment Display
RGB LED Interfacing
LDR Interfacing

Motors
DC motor
Stepper motor

Sensor
Temperature Sensor
Bluetooth module
Ultrasonic sensor module

Wireless communication
RF Communication
Accelerometer ADXL345 module

Hands On with Arduino Based Project.


Name:                                    Embedded C
Duration:                             2  Days
Minimum seats:                30 participants
Learning:

Introduction to Programming
C Basics
Constants,Expressions
Looping, Conditional Statements
Data Types and Storage class
Use of C compiler for Embedded Applications
Syntax explanation
Difference Between Assembly and Embedded C

Interfacing Hardware devices:
Writing codes for GPIO pins in Embedded C Applications
Code debugging
Code Optimisation
Building a project in Embedded C
Hands On with input/output peripherals and implementing the code.


Name:                                    Embedded LINUX
Duration:                             3  Days
Minimum seats:                30 participants
Learning:

Introduction to LINUX
Different flavours of Linux
Linux Basics commands
Login to LINUX OS
Introduction to VI Editor
Working with Linux Terminal
Learning the use of man command.

Introduction to Programming
C Basics
Constants,Expressions
Looping, Conditional Statements
Data Types and Storage class
Use of C compiler for Embedded Applications
Syntax explanation
Difference Between Assembly and Embedded C

Interfacing Hardware devices:
Writing codes for GPIO pins in Embedded C Applications
Code debugging
Code Optimisation
Building a project in Embedded C
Hands On with input/output peripherals and implementing the code.


Name:                                   Embedded Sytem (8051 microcontroller )
Duration:                             2  Days
Minimum seats:                30 participants
Learning:

Introduction to 8051
Pin description of AT89C51
Block Diagram of 8051 Microcontroller
Introduction to Assembly Language Programming
Syntax explanation
Interfacing Input and output devices:

LEDs and Switches
LCD Display
Seven Segment Display
Motors
Stepper motor
Wireless communication
Project on RF Communication


Name:                                    Embedded System (PIC microcontroller )
Duration:                             2  Days
Minimum seats:                30 participants
Learning:

Introduction to PIC MCU
Pin description of PIC MCU
Introduction to Assembly Language Programming
Introduction to Embedded C for PIC MCU
Use of C Compiler
Interfacing Input and output devices:

LEDs and Switches
LCD Display
Seven Segment Display
Motors
DC Motor
Stepper motor
Sensor
Temperature Sensor
Wireless communication
RF Communication
TSOP1738 Interfacing.

Discussion on Project Using PIC Microcontroller.


Name:                                    Learning Robotics
Duration:                             1  Day
Minimum seats:                35 participants
Learning:

Introduction to Robotics
What is a Robot?
How to build the mechanical assembly of a robot?
Introduction to types of motors
Introduction to types of sensors
Learn to identify basic electronic components
Introduction to Arduino Platform
Introduction to Microcontroller

Working and assembling of ROBOT:
Playing with motors
Playing with sensors
Playing with Arduino
Assembling and Testing the robot working


Name:                                    Learning Arduino
Duration:                             1  Day
Minimum seats:                35 participants
Learning:

Introduction to Arduino
Different Boards and Philosophy
Introduction to Arduino IDE
Working with software
Understanding how to use Arduino in projects

Interfacing  devices:
Interfacing LED to Arduino
Interfacing Sensor to Arduino
Interfacing Motor to Arduino


Name:                                    Physics in life
Duration:                             1  Day
Minimum seats:                35 participants
Learning:

Introduction to Arduino
Different Boards and Philosophy
Introduction to Arduino IDE
Various functions and loops
Syntax explanation
Debugging with Arduino Platform

Interfacing Input and output devices:
LEDs and Switches
RGB LED Interfacing
LDR Interfacing


Name:                                    Introduction to LINUX
Duration:                             2  Days
Minimum seats:                30 participants
Learning:

Introduction to LINUX
Different flavors of Linux
Linux Basics commands
Login to LINUX OS
Introduction to VI Editor
Working with Linux Terminal
Learning the use of man command.

Introduction to Programming
C Basics
Constants,Expressions
Looping, Conditional Statements
Data Types and Storage class
Use of C compiler
Syntax explanation
Use of gcc compiler in Linux
Working of C codes in Linux
Code debugging
Code Optimization


Name:                                    Embedded LINUX
Duration:                             3  Days
Minimum seats:                30 participants
Learning:

Introduction to LINUX
Different flavors of Linux
Linux Basics commands
Login to LINUX OS
Introduction to VI Editor
Working with Linux Terminal
Learning the use of man command.

Introduction to Programming
C Basics
Constants,Expressions
Looping, Conditional Statements
Data Types and Storage class
Use of C compiler for Embedded Applications
Syntax explanation
Difference Between Assembly and Embedded C
Introduction to shell scripting
Introduction to Python Programming
Code debugging
Code Optimization
Building a project in Embedded C
Hands On with input/output peripherals and implementing the code.