DESICOLAB
Course in Circuit Design & Simulation using Multisim, Proteous software and PCB Design & Fabrication (Single & Double side)
Duration
40 Hours
About the Course
The course is focused on practical skill development for students so that with this skill-sets they are able to enter in working professional. Who want to learn the art of Electronics fundamentals to design Industrial Applications, the course offers in-depth learning of Electronics Circuit Design and Simulation using NI Multisim & Proteous software with PCB designing & Fabrication (Single & Double side).
The students will understand about circuit designing, simulation and performing analysis on the circuits with various CAD software (Multisim, Proteous). Also various CAD software for PCB designing also. They can draw PCB Layout and fabricate their own project with single/double side and use them practically.
Your Instructor
Vaibhav Bachuwar
Learning Objectives
Circuit Design and Simulation Basics
1. To familiar with NI Multisim and Proteus - a tool widely used in the industry
2. Hands-on experience of Circuit Design, Simulation & Analysis
3. Understand various dimensions of PCB layouts & design
4. Realize the fabrication process of PCB
5. Hands-on experience of working with PCB Layout Design & Fabrication
6. Acquire skills to do better Minor/Major electronic Projects
Learning Outcomes
Upon the completion of the course students will be able to;
- Develops the prototype circuit on NI Multisim and Proteus platform
- Acquires the knowledge of Circuit Design with Simulation
- Design and analyze various circuits for specific application
- Identify scopes of electronic components for PCB layouts using CAD
- Hands-on experience of Circuit Design, Simulation and PCB layout with fabrication
- Develop innovative electronic project as crucial development
Prerequisites
Minimum eligibility criteria to enroll in this course-
Pursuing / Passed BE / B. Tech / MCA / BCA / BSc / MSc /Polytechnic Diploma in the field of Electrical/Electronics/Instrumentation/Biomedical/Compute Science/Information Technology.
This course is intended for enthusiastic students having basic knowledge of Electronics domain, here we assume that candidate is already familiar with basic understanding of microcontrollers and its programming with electronic sensors is also expected.
Syllabus
1. Analogue Circuit Simulation Techniques with NI Multisim
- Introduction to NI MultiSim Environment
- Design Process and Setting environment preferences
- Multisim GUI - Schematic capture of circuits, Placing components, Wiring components
- Circuit simulation, result display and analysis in MultiSim
- Electronic Circuit Design Using Multisim - Bridge rectifier, Voltage regulator, DC transfer curve
analysis, Transistor based circuits, Op-amp based circuits and Filter circuits
2. Digital Circuit Simulation with PROTEUS
- Introduction to PROTEUS Software Environment
- Description to Proteus simulator tool and Concept of Schematic designing
- Hands on practice on available library of components working through wiring & schematic
designing
- Electronic Circuit Design Using Proteus - Power supply, IC 555 based circuits, ADC, DAC,
Digital electronics circuits, TLL IC 74XX series (F/F, latch, MUX and De-MUX, Shift registers,
Counters),
- Customize component and package design as per application
3. Basics of PCB
- Electronics components (discrete, ICs, \SMDs etc.) Their symbol, dimension, package etc.
- Types of PCBs, PCB Materials
- Rules for Track and Study of IPC standards
- Overview of CAD software’s in PCB Design
4. PCB Design using Proteus
- Fundamentals of printed circuit board designing process - Layout planning, general rules & parameters, ground conductor considerations, thermal issues
- PCB Designing Flow chart, The Schematic, Keywords & their description, Imperial and Metric Working to Grids, Working from the top, Tracks, Pads, Vias, Polygons and Clearances
- PCB Layers - Silkscreen, Solder Mask Mechanical Layer, Keep out, Layer Alignment, Net-lists, Rats Nest, Design Rule Checking
- Forward and Back Annotation, Power Planes, Good Grounding, Good Bypassing, High Frequency Design Techniques
- Component Placement and Design using Proteus - Component packages, Basic Routing, Auto Routing. Finishing Touches
- Single Sided and Double Sided PCB Design.
5. PCB Fabrication process
- Overview of GERBER FILE and its Generation
- Screen printing technique of PCB fabrication
- PCB manufacturing process
6. Project and Case Studies
- Design Power supply PCB
- Design electronic experiment PCB
- Design 8051 microcontroller board
- Design an embedded system for Temperature / Humidity control / Traffic Light Controller
Projects
Making it a reality (PCB Design & Fabrication)
After successful completion of the course participant can be involve in PCB Design & Fabrication. Use different open source software for preparing PCB layouts. Transfer layout on laminates - pattern transfer or photo printing, Use etching techniques, Drilling and mounting techniques, Testing and troubleshooting.
Students can make their own projects PCB
Few are suggested for Designing and developing as below;
- Transistor Amplifier (Two stage)
- Wien Bridge Oscillator
- Amplitude modulation/ Demodulation
- L293D Motor driver design
- 7SEGMENT AND LCD PCB design
- IR Sensor PCB design
- 8-bit DAC/ADC Interface card PCB
- Unipolar Stepper Motor Driver interface card PCB.
- 4×4 matrix Keyboard Interface card PCB
- PWM based DC motor drive card PCB.
- DTMF based device control card PCB