details of the internship - nielitpatnaonline.in
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राष्ट्र ीय इलेक्ट्र ॉनिकी एवं सूचिा प्रौद्योनिकी संस्थाि National Institute of Electronics & Information Technology
Near IIT Patna, Amhara, Bihta, Patna(Bihar) -801106
Details of the Internship
Name of The Course: Internship program on Circuit Design and Simulation.
Duration (in Hrs.): 4 Weeks (30 Hrs)
Fee (in Rs.): Rs 1416/-
Eligibility: Diploma/B.Sc./B.Tech/ ITI/ BSc. In Electronics, Electrical, Instrumentation
Engineering or its equivalent. (Completed or Pursuing).
Mode of Training: Online
Course Coordinator: Sunil Kumar (Scientist B)
Contact No.: 9475636752
Email ID: [email protected]
Course Content:
UNIT I :Introduction to Designing and Testing of Electronics Circuit elements(1st Week) Day Topic Sub Topic Duration (in Min.)
Theory Practical Total
1 Basic Concept of Electrical And Electronics Components
• Electrical Theory
45 45 90
• Basics of Current Voltage and Resistance • Types of Resistor • Types of Capacitors
2 Semiconductor Introduction to Semiconductor 60 30 90 • Semiconductor devices like Diode
Transistor Amplifier Etc. 3 Diode • V-I Characteristics of Silicon &
Germanium PN Junction diodes 15 30 45
Rectifier • Half Wave rectifier. 15 30 45
4 Identification and Testing of Semiconductors Device
• Identification of Semiconductors Devices
30 60 90 • Testing of Semiconductors Device
5 Basic Circuit Building and Error Detection
•Basic Building and error detection of circuit board . 30 60 90
•Fault finding.
UNIT II: Virtual Lab on Basic Electronics and Analog communication (2nd Week)
Day Topic Sub Topic Duration (in Min.)
Theory Practical Total
PART-A (About LabVIEW) 1 LabVIEW:
Introduction
• What Is LabVIEW?
30 15 45 • Introduction • Installation
Navigating LabVIEW
Virtual Instruments (VI) & its Parts
30 15 45 • Front Panel and Block Diagram • VIs, Functions & Data Flow • Building a Simple VI
2 Implementing a VI • Front Panel Design
30 15 45 • Timing a VI • Object Styles
PART B (BASIC ELECTRONICS) Basic Circuit Analysis
• Verification of Ohm's Law. 15 30 45 • Circuit designing and Graphical
analysis of Voltage Divider Circuit. 3 Diode • V-I Characteristics of Silicon &
Germanium PN Junction diodes 15 15 30
Filters Graphical analysis of filters
15 15 30
Rectifier •Graphical analysis of Half Wave rectifier without filters.
20 10 30
PART C (COMMUNICATION)
4 Analog Communication
• Amplitude Modulation 30 60 90 • Spectrum Analysis of Amplitude
Modulation 5 •Frequency Modulation
30 60 90 •Spectrum Analysis of Frequency Modulation
UNIT III : Introduction to Printed Circuit Board Design(3rd Week) Day Topic Sub Topic Duration (in Min.)
Theory Practical Total
PART-A (About PCB & OrCAD) 1 PCB:
Introduction
• What Is PCB?
30 15 45 • Introduction • Types of PCB
OrCAD: Introduction
15 30 45 • What is OrCAD?
• Installation 2 Study Of
Packages Of Electronic Components
• Different Types of IC Packages
60 30 90 • Through-Hole Mount Packages • Surface Mount Packaging
3
PART B (PRINTED CIRCUIT BOARD DESIGN METHODS USING ORCAD)
Creating A Schematic Design & Simulation
• Creating a project
15
30 45 • Creating a flat design • Simulation using PSpice • Viewing Output Waveforms
15 30 45 • Running the simulation
PART C ( OrCAD PCB Editor)
4 Board Design Using OrCAD PCB Editor
• Creating PCB Editor netlist
30 60 90 • Creating a board • Creating a board outline • Routing
5 Gerber file and G-code generation
•Gerber file generation 30 60 90
•DRL file generation
UNIT IV : VLSI Design with Verilog HDL(4th Week)
Day Topic Duration (in Min)
Theory Practical Total
1 Introduction to VLSI Description of
Hardware Description Languages, VLSI
Design Flow, Applications of VLSI,
Introduction VHDL
60 30 90
2 Basics of VHDL 30 60 90
3 Introduction to Verilog HDL, Design
Process and Steps, Lexical Conventions &
Data Types, Modules, Ports and Module
Instantiation Methods
30 60 90
4 Difference between Verilog HDL & VHDL. Design Simulation, Design Synthesis, Design Methodology, Modelling methods
60 30 90
5 Design Verification using Test benches,
Program
30 60 90