Course Details
Subject {L-T-P / C} : EE6179 : PCB Design and Fabrication Lab { 0-0-3 / 2}
Subject Nature : Practical
Coordinator : Rakesh Sinha
Syllabus
| Module 1 : |
Design and Simulation of Transmission Lines: Microstrip-Line, Strip-Line, Coplanar Waveguide (CPW), SIW Line. 6 hours |
| Module 2 : |
Inductor and Capacitor Design: Spiral Inductor, Interdigital Capacitor 3 Hours |
| Module 3 : |
Equivalent Transmission Line Design: T-structure and ?-Structure for single and dual-band designs 3 hours |
| Module 4 : |
Coupler Design: Rat-race Coupler, Branch Line Coupler, Coupled Line Coupler 6 hours |
| Module 5 : |
Power Divider and Combiner: Wilkinson Power Divider, Gysel Power Dividers. 3 hours |
| Module 6 : |
Filter Design: Coupled Line Filter, Hairpin Filter, Step Impedance Low Pass Filter 6 hours |
Course Objective
| 1 . |
To make students familiar with the PCB design process. |
| 2 . |
To make students well-educated on the PCB fabrication process. |
| 3 . |
To prepare students for design of RF sub-components. |
Course Outcome
| 1 . |
On completion of this course students are expected to be able to Design passive sub networks like matching networks, power divider, couplers. |
| 2 . |
On completion of this course students are expected to be able to Analyze PCB components using full-wave simulator. |
Essential Reading
| 1 . |
Michael Steer, Microwave & RF Design: A Systems Approach, SciTech Publishing Inc , 2nd edition , 2013. |
| 2 . |
David M. Pozar, Microwave engineering, John wiley & sons , 2011 |
Supplementary Reading
| 1 . |
Mathworks, RF PCB Toolbox , Mathworks , https://in.mathworks.com/products/rf-pcb.html |
Journal and Conferences
| 1 . |