Table of Contents available below.
This video is part of the course "Fundamentals of Transistors" taught by Mark Lundstrom at Purdue University. The course can be found on nanoHUB.org at [ Ссылка ] or on edX at [ Ссылка ] The transistor has been called the greatest invention of the 20th century - it enabled the electronics systems that have shaped the world we live in.
Today's nanotransistors are a high volume, high impact success of the nanotechnology revolution. This is a course on how this scientifically interesting and technologically important device operates. The course is designed for anyone seeking a sound, physical, intuitive understanding of how modern transistors operate. Important technology considerations and applications of transistors are also discussed. The focus is on MOSFETs for digital logic, but analog applications and other types of transistors are briefly considered.
This course is broadly accessible to students with only a very basic knowledge of semiconductor physics and electronic circuits. Topics include device metrics for digital and analog circuits, traditional MOSFET theory, the virtual source model, 1D and 2D electrostatics, Landauer/transmission approach to nanotransistors, the limits of MOSFETs, as well as a quick look at HEMTs, bipolar transistors, and compact circuit models. The course should be useful for advanced undergraduates, beginning graduate students, as well as practicing engineers and scientists.
Table of Contents:
00:00 Lecture 5.6: A Second Look at Compact Circuit Models
00:33 Compact models for circuit simulation
04:53 Why should the core model be physics-based?
06:21 MVS for circuit simulation?
07:27 MVS vs. BSIM CMG
08:27 BSIM: An industry standard MOSFET model
09:21 Three types of MOSFET models
09:43 Threshold voltage based models
10:21 Threshold voltage based models
11:28 Capacitance based models
13:34 Charge-based models
14:17 Surface potental based models
15:28 Practical issues
15:37 MOSFETs are symmetrical
16:13 Source referenced models
16:53 "Gummel symmetry test"
17:38 Practical aspects of compact modeling
17:54 The art and science of compact modeling
18:09 Writing your own compact model
18:52 Summary
20:43 Next lecture
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