About this course

This course is ideal for students, working professional & electronic enthusiastic in Embedded system design and the field of Robotics. It is highly applicable in any industry, for engineers, designers, or developers who want to strengthen and amplify their skills in interactive electronics. 

You will learn about electrical & electronics systems, Industrial sensors and actuators, microprocessors and controllers, Input & Output devices, and programming. Starting from the very basics and building up to several fascinating Academics & Industrial projects.

Our course consists of a series of practical Industrial and academics problems on making things that work independently. A system that Interacts with surroundings, make own decisions, act, move, communicate with each other and people around, and control other devices.

After completion of this course, you will be able to create electronic devices and systems, that read the data about the external world using a variety of sensors. After receiving data through sensors, forwarding it to the controller, which takes a meaningful decision to control the external world by controlling actuators.  

The creation of such devices will involve design, in-depth knowledge of each and every component, processors & controllers, the assemblage of circuit boards, coding, and diagnostics. This course will be useful to anyone facing the task of home and industrial automation, automotive sector, IT Industry, as well as to anyone engaged in industrial design, research and development.

Ideal For

  • Diploma / Degree holders in Engineering (any stream)

  • Bachelor's Degree holders in any stream

  • Students with exposure to the automobile industry

  • Professionals working in the automobile / IT industry    

What you will learn

Module 1: Basic Concept of Networks

Types of Network Elements
Analysis of Passive Elements - 

          Analysis of Resistor

          Analysis of Inductor

          Analysis of Capacitor

Series and Parallel Equivalent of -

          Resistor

          Inductor

          Capacitor

Absorbed and Delivered Power
Kirchoff's Law -

           KVL

           KCL
Example & Application of KVL

Example & Application of KCL
Voltage Divider Rule

Example & Application of Voltage Divider Rule

Current Divider Rule

Example & Application of Current Divider Rule
Start to Delta Conversion

Example & Application of Start to Delta Conversion

Delta to Star Conversion

Example & Application of Delta to Star Conversion
Representation of Voltage Source

           Ideal Voltage Source

           Practical Voltage Source

Representation of Current Source

           Ideal Current Source

           Practical Current Source
Example & Application based on Voltage and Current Source 
Important Equivalent Circuit
Source Transformation

Voltmeter and Ammeter
Question-based on Voltmeter and Ammeter
Concept of Supernode with Example
Question-based on Supernode
Concept of Supermesh with Example
Question-based on Supernode and Supermesh

Module 2 - DIGITAL ELECTRONICS

Basic gates-AND, OR & NOT
Universal gates-NAND
Designing using Minimum number of NAND gates
Universal gates-NOR
Designing using Minimum number of NOR gates
Switching Circuit Representation-basic & universal gates
Special Purpose Gates-XOR
Special Purpose Gates-XNOR

Introduction to Combinational Circuits 

                 2:1 Multiplexer

                 4:1 Multiplexer

                 8:1 Multiplexer
Procedure to find the output of Multiplexer

Designing Multiplexer
                Designing of 2:1 Multiplexer
                Designing of 4:1 Multiplexer
                Designing of 8:1 Multiplexer
Encoder

Module 3 - SENSOR & ACTUATORS

What is Sensor?

What is Actuator?
Different types of Sensors & working principle

         - Light  sensor
         - Motion  sensor
         - Temperature  sensor
         - Magnetic fields  sensor
         - Gravity  sensor
         - Humidity  sensor
         - Moisture  sensor
         - Vibration  sensor
         - Pressure  sensor
         - Electrical fields sensor
         - Sound sensor
         - Position sensor

Different types of Actuators & working principle

According to Type of Motion

         Linear Actuator

         Rotary Actuator

According to Type of Power 

         Mechanical

         Electrical

         Hydraulic

         Pneumatic

         Magnetic

Application of Sensors & Actuators

Module 4 - Microprocessor & Microcontroller

Introduction and a brief history of Microprocessor and a Microcontroller.

Introduction to assembly language, the brief concept of compiler, assembler, linker, and debugger

What is a Microprocessor and a Microcontroller
Basic Parts of Microprocessor and Microcontroller
Difference between Microprocessor and Microcontroller

Processor Core and Functional Block Diagram
Description  of memory organization
Applications of Microprocessors and Microcontrollers

Introduction to ATMEGA 328P 

ATMEGA 328P Architecture

Timing Diagram

Instruction Formats 

ATMEGA 328P Features

I/O & Memory Interfacing

 

Module 5 - Embedded C Programming

Embedded C Programming 

Comments
Directives of Processor
Configuration of Port
Global variables

Local variables
Core Function/Main Function
Declaration of Variable
The logic of the Program
If-else Statement

Nested If-else Statement
For Loop
While Loop
Do-While Loop
Switch Statement
Polling based Software Development
Interrupt based Software Development

Module 6 - Integrated development environment

Introduction of IDE

Arduino IDE Software
Installation of Arduino IDE
USB to Serial Driver
Installation of USB to Serial Driver

Module 7 - Introduction to Microcontroller

Introduction of ARDUINO as Microcontroller

   - Arduino Uno (R3)
   - Arduino Nano
   - Arduino Micro
   - Arduino Due
   - LilyPad Arduino Board
   - Arduino Bluetooth
   - Arduino Diecimila
   - RedBoard Arduino Board
   - Arduino Mega (R3) Board
   - Arduino Leonardo Board

Features of Arduino Microcontroller
Architecture  Arduino Microcontroller
PINOUTs of Arduino Microcontroller

Module 8 - Input/Output Ports of Arduino

Digital Pins 

Analog Pins 

PWM Pins 

Rx-Tx Pin

PinMode Setup
Digital Read & Write

Analog Read & Write
Pull-up & Pull-Down Resistors
How to enable internal pull-up in Arduino?
Power Supply 

Module 9 - Peripheral Input Devices

Circuit Diagram of Switch Interfacing 
Switch Matrix Interfacing with Arduino
4X4 Keypad Interfacing and Serial Monitor
4X4 Keypad Interfacing with LCD Display
Keyboard Interfacing 

Module 10 - Peripheral Output Devices

Introduction to 7 Segment 

7 Segment Interfacing

7 Segment Applications 

Introduction to 16X2 Alphanumeric LCD

16X2 Alphanumeric LCD Interfacing

16X2 Alphanumeric LCD Applications

Introduction to GLCD

GLCD Interfacing

GLCD Applications 

Introduction to OLED

OLED Interfacing

OLED Applications

Module 11 - INTRODUCTION OF DIFFERENT I/O

HC- SR04 Ultrasonic Module
IR Infrared Obstacle Avoidance sensor
Soil Hygrometer Detection Module
Soil Moisture Sensor
Microphone sensor
Digital Barometric Pressure Sensor
Photoresistor sensor
Digital thermal sensor – Temperature sensor
Rotary Encoder Module
MQ-2 Gas sensor
SW-420 Motion sensor
Humidity and Rain Detection  sensor
Passive Buzzer Module
Speed sensor Module
IR Infrared Flame Detection sensor
5V 2- Channel Relay module
Breadboard Power Supply Module 3.3V
HC- SR501 Pyroelectric Infrared Sensor
Accelerometer Module
DHT11 Temperature and Humidity sensor
RF 433MHz Transmitter/Receiver

JoyStick
Flame Sensor
RGB LED
Heartbeat Sensor
Light Cup
Hall Magnetic Sensor
Linear Hall Sensor
SMD RGB
7 Color Flash
Tilt Switch
Temperature Sensor
Big Sound Sensor
Touch Sensor
Two-Color LED
Laser Emitter
Ball Switch
Analog Temperature Sensor
Small Sound Sensor
Digital Temperature Sensor
Two-Color LED 
Button
Photoresistor
IR Emission
Tracking Sensor
Buzzer
Reed Switch
Shock Sensor
Temperature And Humidity Sensor
IR Receiver
Avoidance Sensor
Passive Buzzer
Mini Reed
Rotary Encoders
Analog Hall Sensor
Tap Module
Light Blocking

Module 12 - Actuators & Drivers

What is a DC Motor?
Different types of Motor

   - DC Gear Motor

   - Johnson Motor

   - Box Type Motor

   - Stepper Motor

   - Servo Motor
Drivers

   - L293D

   - L298N

   - A4988

   - PCA9685

Module 13 - ADC & DAC

Introduction to Analog to Digital Converter(ADC) 

Introduction to Analog to Digital Converter(DAC) 
The circuitry of ADC & DAC
Working Principle of ADC & DAC

Application of ADC & DAC

Interfacing of ADC & DAC with Controller

Module 14 - Wireless Technology

433MHz RF Tx-Rx

     HT12D Decoder and HT12E Encoder

     Circuit Diagram of RF Transmitter and Receiver

     RF Transmitter and Receiver

     Application of RF Communication

Dual-tone multi-frequency (DTMF)

Bluetooth Technology
WI-FI Technology

Module 15 - Universal Synchronous and Asynchronous Receiver and Transmitter (USART) and Arduino

Introduction Communication Protocols

Type of Communication Protocols
          Serial Communication

          Parallel Communication
Simplex, Half Duplex, and Full Duplex Communication
Universal Synchronous and Asynchronous Receiver and Transmitter 
Serial Monitor 

Module 16 - PC communication 

PC to Arduino Communication
Arduino to PC Communication
Full Duplex Communication 

 

Module 17 - Relay & Power Electronics

Introduction of Relay

Working principle

Relay Driving Circuit
Circuit Diagram of Relay Driving Circuit
Relay interfacing
Application of Relay

Length:             2 Weeks

Level:               Advanced

Course Type:     Offline

Language:         English

Price:                Rs. 8000

Certification:     PDF & Printed

Technology:      Embedded
 
Contact Us:       tech@logiczap.in

 

Get Hired As Embedded  Engineer

With aVerified Certificate highlight your knowledge and skills as Embedded  Engineer

Receive a professional certificate  to verify your achievement and increase your job prospect

Scope of learning

  • In-depth Theory discussion

  • In-depth discussion on basics

  • Practical demonstration of all module

  • One to one doubt clearing sessions

  • Discussion on industrial scenario and demand at the International level

  • Module wise activities & demonstrations

  • Expert trainers with several years of Industrial experience

  • Get support in writing a research paper

  • Get support on published research papers

  • Get support on carrying out research activity on selected ideas

  • Get support on PATENTS Filling on selected ideas

  • Get support on Placement

  • Selected candidates will get Internship opportunities

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Industrial Training
on Embedded system 
Design & Development