Course Details
Subject {L-T-P / C} : EE6171 : Electronic Devices and Systems Laboratory { 0-0-3 / 2}
Subject Nature : Practical
Coordinator : Prof. Prasanna Kumar Sahu
Syllabus
1. Demonstration of overview and need of nanoscale MOSFET.
2. Modeling of Semiconductor Devices in SDE (Sentaurus structure editor).
3. Simulation of SDE device using device codes and models (Introduction to S- Device and Inspect)
4. Study of Energy Band diagram of MOS-Transistor.
5. To observe the formation and investigation of Inversion layer, on current (ION), off current (IOFF), threshold voltage (VTH) from the simulated curve at different drain biases of a Bulk MOSFET.
6. Study of Short Channel Effects (SCEs), for Nano MOSFET by Inversion layer, on current (ION), off current (IOFF), threshold voltage (VTH) from the simulated curve at different drain biases.
7. Study of characteristics of SOI MOSFET in single gate.
8. Design and analysis of SOI MOSFET (1) Partially Depleted(PD-SOI) and (2) Fully Depleted(FD-SOI)
9. (a) Study of Klystron Tube Characteristics
(b) Study of VI characteristic of Gunn Diode using Gunn Power Supply.
10. Frequency and Wavelength Measurement using Klystron Tube/ Gunn Diode based Microwave bench setup.
11. Unknown load measurement using Microwave bench Setup.
12. (a) Design of Microstrip Line on FR4 substrate using Octave/Matlab and Fullwave circuit simulator.
(b) Design of equivalent Microstrip T structure on FR4 substrate using Octave/Matlab and Full wave circuit simulator.
(c) Design of dual-band Microstrip T structure on FR4 substrate using Octave/Matlab and Full wave circuit simulator.
Course Objectives
- Students to understand the concept of Microwave Techniques read in theory
- To provide some knowledge on Antenna Analysis and Design using HFSS tools.
- Explore of TCAD SENTAURUS for Semiconductor Devices Modeling and Simulation
- Realization of analog and digital circuits using nanoscale device(s) models.
Course Outcomes
• Students learn to design and simulate RF and Microwave circuits and antennas. <br />• Students use HFSS (High Frequency Structural Simulator) to simulate, verify, and optimize their design. <br />• This Lab predicts the electrical properties of devices. Device simulations will be primarily used as virtual measurements of the electrical behavior of semiconductor devices.
Essential Reading
- David M. Pozar, Microwave Engineering, John Wiley , 4th. Edition
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Supplementary Reading
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