Class Central is learner-supported. When you buy through links on our site, we may earn an affiliate commission.

NPTEL

Semiconductor Device Modeling

NPTEL and Indian Institute of Technology Madras via YouTube

Start learning Write review
Corporate Finance Institute Ad

Finance Certifications Goldman Sachs & Amazon Teams Trust

Learn More → Great Learning Ad

Advanced Techniques in Data Visualization - Self Paced Online

Learn More →

Overview

Google, IBM & Meta Certificates — All 10,000+ Courses at 40% Off
One annual plan covers every course and certificate on Coursera. 40% off for a limited time.
Get Full Access

Course Learning Outcomes: At the end of this course, you should be able to

1. Explain the equations, approximations and techniques available for deriving a model with specified properties, for a general device characteristic with known qualitative theory

2. Apply suitable approximations and techniques to derive the model referred to above starting from drift-diffusion transport equations (assuming these equations hold)

3. Offer clues to a qualitative understanding of the physics of a new device and conversion of this understanding into equations

4. Simulate characteristics of a simple device using MATLAB, SPICE and ATLAS /SYNOPSYS

5. Explain how the equations get lengthy and parameters increase in number while developing a compact model

6. List mathematical functions representing various non-linear shapes

Syllabus

Mod-14 Lec-01 DC Model of a Bulk MOSFET: Series R, non-uniform doping and small size effects.
Mod-12 Lec-06 DC Model of a Large MOSFET: Surface Potential and VT Based Solutions of IDS.
Mod-12 Lec-05 DC Model of a Large MOSFET: Surface Potential and VT Based Solutions of IDS.
Mod-12 Lec-02 DC Model of a Large MOSFET: Surface Potential and VT Based Solutions of IDS.
Mod-12 Lec-04 DC Model of a Large MOSFET: Surface Potential and VT Based Solutions of IDS.
Mod-13 Lec-02 DC Model of a Large MOSFET: Testing, Improvement and Parameter Extraction.
Mod-13 Lec-01 DC Model of a Large MOSFET: Testing, Improvement and Parameter Extraction.
Mod-12 Lec-01 DC Model of a Large MOSFET: Surface Potential and VT Based Solutions of IDS.
Mod-11 Lec-01 DC Model of a Large MOSFET: Eqns, Boundary Condns, Approximations.
Mod-12 Lec-03 DC Model of a Large MOSFET: Surface Potential and VT Based Solutions of IDS.
Mod-14 Lec-02 DC Model of a Bulk MOSFET: Series R, non-uniform doping and small size effects.

Taught by

nptelhrd

Tags

Reviews

4.0 rating, based on 2 Class Central reviews

Start your review of Semiconductor Device Modeling

  • Profile image for Midhat
    Midhat @midhat018
    This course was absolutely fantastic! Learned about semiconductor device modeling, mathematical approximation, Non-uniform dropping, various types of semiconductors (intrinsic vs extrinsic), bandgap Engineering fundamentals, Pn-junction (depletion region, built-in potential), MOSFET concepts, channel length modulation.
  • Abhiram Pudari
    The Saylor Semiconductor Devices course offers a clear, structured introduction to device physics and applications, making complex topics easy to understand for beginners and self-learners."
Start learning

Never Stop Learning.

Get personalized course recommendations, track subjects and courses with reminders, and more.

Sign up for free
Someone learning on their laptop while sitting on the floor.