
Illinois ECE 440 Solid State Electronic Devices, Lecture 37: MOSFET Analog Amplifier and Digital Inverter
02 Mar 2010   Contributor(s):: Eric Pop
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Illinois ECE 440 Solid State Electronic Devices, Lecture 33: MOS Capacitance
02 Mar 2010   Contributor(s):: Eric Pop
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ECE 606 Lecture 38: Modern MOSFET
07 May 2009   Contributor(s):: Muhammad A. Alam

ECE 606 Lecture 40: Looking Back and Looking Forward
30 Apr 2009 

ECE 606 Lecture 37b: Nonideal Effects in MOSFET II
28 Apr 2009   Contributor(s):: Muhammad A. Alam

ECE 606 Lecture 36: MOSFET IV Characteristics II
28 Apr 2009   Contributor(s):: Muhammad A. Alam

ECE 606 Lecture 37a: Nonideal Effects in MOSFET I
28 Apr 2009   Contributor(s):: Muhammad A. Alam

ECE 606 Lecture 35: MOSFET IV Characteristics I
16 Apr 2009   Contributor(s):: Muhammad A. Alam

ECE 612 Lecture 26: Heterostructure FETs
10 Dec 2008   Contributor(s):: Mark Lundstrom
Outline:1) Introduction,2) Heterojunction review,3) Modulation doping,4) IV characteristics,5) Device Structure / Materials,6) Summary.

ECE 612 Lecture 18B: CMOS Process Flow
18 Nov 2008   Contributor(s):: Mark Lundstrom
For a basic, CMOS process flow for an STI (shallow trench isolation process), see: http://www.rit.edu/~lffeee/AdvCmos2003.pdf.This lecture is a condensed version of the more complete presentation (listed above) by Dr. Fuller.

ECE 612 Lecture 18A: CMOS Process Steps
12 Nov 2008   Contributor(s):: Mark Lundstrom
Outline: 1) Unit Process Operations,2) Process Variations.

ECE 612 Lecture 8: Scattering Theory of the MOSFET II
08 Oct 2008   Contributor(s):: Mark Lundstrom
Outline: 1) Review and introduction,2) Scattering theory of the MOSFET,3) Transmission under low VDS,4) Transmission under high VDS,5) Discussion,6) Summary.

ECE 612 Lecture 7: Scattering Theory of the MOSFET I
08 Oct 2008   Contributor(s):: Mark Lundstrom
Outline: 1) Review and introduction,2) Scattering theory of the MOSFET,3) Transmission under low VDS,4) Transmission under high VDS,5) Discussion,6) Summary.

Introductory Comments
29 Sep 2008   Contributor(s):: Muhammad A. Alam

Lecture 7: Connection to the Bottom Up Approach
23 Sep 2008   Contributor(s):: Mark Lundstrom
While the previous lectures have been in the spirit of the bottom up approach, they did not follow the generic device model of Datta. In this lecture, the ballistic MOSFET theory will be formally derived from the generic model for a nanodevice to show the connection explicitly.

Lecture 3A: The Ballistic MOSFET
10 Sep 2008   Contributor(s):: Mark Lundstrom
The IV characteristic of the ballistic MOSFET is formally derived. When Boltzmann statistics are assumed, the model developed here reduces to the one presented in Lecture 2. There is no new physics in this lecture  just a proper mathematical derivation of the approach that was developed...

Lecture 3B: The Ballistic MOSFET
10 Sep 2008   Contributor(s):: Mark Lundstrom
This lecture is a continuation of part 3A. After discussion some bandstructure considerations, it describes how 2D and subthreshold electrostatics are included in the ballistic model.

Physics of Nanoscale Transistors: An Introduction to Electronics from the Bottom Up
10 Sep 2008   Contributor(s):: Mark Lundstrom
Transistor scaling has pushed channel lengths to the nanometer regime, and advances in nanoscience have opened up many new possibilities for devices. To realize these opportunities, our traditional understanding of electronic devices needs to be complemented with a new perspective that begins...

Lecture 2: Elementary Theory of the Nanoscale MOSFET
08 Sep 2008   Contributor(s):: Mark Lundstrom
A very simple (actually overly simple) treatment of the nanoscale MOSFET. This lecture conveys the essence of the approach using only simple mathematics. It sets the stage for the subsequent lectures.

Lecture 4: Scattering in Nanoscale MOSFETs
08 Sep 2008   Contributor(s):: Mark Lundstrom
No MOSFET is ever fully ballistic  there is always some carrier scattering. Scattering makes the problem complicated and requires detailed numerical simulations to treat properly. My objective in this lecture is to present a simple, physical picture that describes the essence of the problem and...