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PCB & Circuit Designing

“PCB is the building block of any Electronics device & PCB DESIGN is an important phase of product development”.

PCB Design module systematically designed for anyone who wants to know PCB Design procedure from scratch to finish. At the end of the course, you will be able to make parts, building a schematic through OrCAD/Altium Software and build component footprint, design a PCB through OrCAD/Altium Layout software-confidently and generating Gerber files for PCB manufacturing.
The course will provide you a head start to understand the PCB manufacturing and design process. The PCB design skill will gradually develop as you do more projects and practice the software regularly.

PCB & Circuit Design training course involves "Learning by Doing" using state-of-the-art infrastructure for performing hands-on exercises and real-world simulations. This extensive hands-on experience in PCB & Circuit Design training ensures that you absorb the knowledge and skills that you will need to apply at work after your placement in an MNC.

PCB & Circuit Design Training has been designed as per latest industry trends and keeping in mind the advanced PCB & Circuit Design course content and syllabus based on the professional requirement of the student; helping them to get placement in Multinational companies and achieve their career goals.

Pre-Requisites:
Basic knowledge of C \\ C++ Programming.
Basics of Electronics.
Eagerness to learn new innovative things.

Recommendation: It is strongly recommended to bring your own LAPTOP during the training so that you can easily practice the exercises at home.

Who could attend:
Students from B.E/B.Tech/M.Tech/Diploma (ECE/EEE/CSE/IT/MECH) can join this training.
Anyone who have interest in this field and have pre-requisite knowledge.

* Note:The Number of Project will be Covered According to the Duration of that particular Program.
All training modules are based on REAL TIME LIVE PROJECTS.

An individual PCB kit to be given to all participants.


DAY 1
Theory
Introduction to Robotics
• Introduction to Robotics
• Introduction to PCB & Circuit Designing
• Basics of hardware and software
• New and upcoming Technologies

DAY 2
Theory
Introduction to Manual Robotics
• Introduction to Manual Robotics
• Motor principle explained
• Different types manual robots and their applications
• Controlling of motors through switches
• Gear assembly and calculations
• Different types of chassis design
• Concept of robotic events
Practical
• To make a sound connections Designing of remote control
• Manual Robotics practical session
• Assembling of a robotic car

DAY 3
Theory

• Introduction to PCB design software
• Different tools used for PCB designing
• Different circuit on PCB design software
• Schematic of Different circuits
Practical
• Hands on PCB design software
• Masking different circuits
• Designing different circuit
• Checking for errors

DAY 4
Theory
• Soldering Methods.
• Safety Precautions
• Different Methods of Soldering
Practical
• Soldering LED’s on Zero PCB.
• Checking for errors

DAY 5
Theory
• Soldering Techniques
• How to solder different components
Practical
• LED Design Patterns
• Use of Flux in soldering
• Soldering Iron Precautions
• Solder and Solder Materials Precautions
• Checking for errors and de-soldering techniques

DAY 6
Theory
• Introduction to IR sensors
• Op-amp operation.
• Op-amp as a Comparator.
• L293D IC Explanation.
• Core of L293D vis-s-vis H- BRIDGE concept .
• Concept of Embedding L293D IC in MOTOR DRIVER shield
Practical
• Designing of IR Sensors
• Testing of IR sensors
• Detecting white and black surface with digital IR sensors
• Monitoring analog and digital sensors
• Making Connections of L293D IC on BREAD BOARD
• Driving Motors with L293D on Bread Board.

DAY 7
Theory
• Welcoming LINE FOLLOWER CONCEPT.
• Interface Motor Driver with IR sensor.
• Calibration of IR sensors
° What is it?
° Why is it Required? Practical
Practical
• Calibrating IR sensors.
• Make your Own LINE FOLLOWER.
• Make your Own OBSTACLE DETECTOR..
• Make your Own Make your Own EDGE AVOIDER

DAY 8
Theory
Introduction to Manual Robotics
• Microcontrollers and Microprocessor difference
• Introduction to embedded system
• Video sessions on advancements in Technology
• Concepts of hardware and software interface
• Introduction to Arduino
• Arduino IDE and Overview.
• Introduction to different Arduino boards and shields
• Working on digital and analog signal.
• What is Future Technology Devices International Ltd.
• Microcontroller ATMEGA 328.
Practical
• Introduction to BASIC PROGRAMMING.
• Driver and software installation
• Better understanding using the 13th pin internal Connection.

DAY 9
Theory

• Introduction to Basic Shield
• What is the requirement of Basic Shield?
• Operation of Analog and Digital Signals
• 8 Bit and 10 Bit Concept.
Practical
• Interfacing Basic Shield with Arduino.
• Lighting up several LED’s in a Wishful Pattern.
• Working on Switch, BUZZER and implementing with Arduino for better grasping of concepts

DAY 10
Theory
• Different PCB Design Software
• Making circuit on PCB Design Software
• Deploying basic circuits from paper to schematic window
• Testing the schematic for errors
• Making Board Layout
• Checking for errors and finalizing layout
Practical
• Designing circuit on PCB software
• Checking for errors in circuit
• Finalizing circuit schematic

DAY 11
Theory
• Etching process
• Safety precautions before starting the etching process
Practical
• Getting PCB ready for etching
• Etching the PCB
• Checking for errors
• Cleaning the PCB

DAY 12
Theory
• Finalizing PCB and Studying the circuit
• Drilling and Soldering methods of PCB
Practical
• Checking the PCB circuit
• Drilling holes on PCB
• Soldering the Components on PCB
• Testing the finished PCB

DAY 13
Theory
• Arduino and Breadboard
• Operation of Analog and Digital Signals
• Introduction to ADC (theory)
Practical
• Interfacing electronic components with arduino
• Interfacing breadboard circuits and arduino
• 8 bit and 10 bit concept
• Lighting up several LED’s in a Wishful Pattern.
• Working on Switch, BUZZER and implementing with Arduino for better grasping of concepts

DAY 14
Theory
• Serial and Parallel Communication
• Hello to Analog i/p and o/p
• Know How of connection motor driver board with ARDUINO
Practical
• Creating the LED pattern on Bread Board
• Color sensor on breadboard
• Interfacing Motor Driver with ARDUINO
• Controlling motor (Direction of Rotation, ON/OFF)
• Speed Control of Motors using PWM
• Making your own INTELLIGENT LINE FOLLOWER using ARDUINO
DAY 1
Theory
• Introduction to Robotics
• Introduction to PCB & Circuit Designing
• Basics of hardware and software
• New and upcoming Technologies

DAY 2
Theory
Introduction to Manual Robotics
• Introduction to Manual Robotics
• Motor principle explained
• Different types manual robots and their applications
• Controlling of motors through switches
• Gear assembly and calculations
• Different types of chassis design
• Concept of robotic events
• Introduction to soldering
• To make a sound connection through soldering
Practical
• To make a sound connections Designing of remote control
• Manual Robotics practical session
• Assembling of a robotic car

DAY 3
Theory
• Introduction to PCB design software
• Different tools used for PCB designing
• Different circuit on PCB design software
• Schematic of Different circuits
Practical
• Hands on PCB design software
• Masking different circuits
• Designing different circuit
• Checking for errors

DAY 4
Theory
• Soldering Methods.
• Safety Precautions
• Different Methods of Soldering
Practical
• Soldering LED’s on Zero PCB.
• Checking for errors

DAY 5
Theory
• Soldering Techniques
• How to solder different components
Practical
• LED Design Patterns
• Use of Flux in soldering
• Soldering Iron Precautions
• Solder and Solder Materials Precautions
• Checking for errors and de-soldering techniques

DAY 6
Theory
• Introduction to IR sensors
• Op-amp operation.
• Op-amp as a Comparator.
• L293D IC Explanation.
• Core of L293D vis-s-vis H- BRIDGE concept.
• Concept of Embedding L293D IC in MOTOR DRIVER shield
Practical
• Designing of IR Sensors
• Testing of IR sensors
• Detecting white and black surface with digital IR sensors
• Monitoring analog and digital sensors
• Making Connections of L293D IC on BREAD BOARD
• Driving Motors with L293D on Bread Board.

DAY 7
Theory
• Welcoming LINE FOLLOWER CONCEPT.
• Interface Motor Driver with IR sensor.
• Calibration of IR sensors
• What is it?
• Why is it Required? Practical
Practical
• Calibrating IR sensors.
• Make your Own LINE FOLLOWER.
• Make your Own OBSTACLE DETECTOR.
• Make your Own EDGE AVOIDER

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