Lectures
- 1. Introduction to Semiconductors
- 2. Uniform Excitation
- 3. Solving The Five Equations
- 4. p-n Junctions
- 5. p-n Junction Injection and Flow
- 6. p-n Junctions I-V Relationship
- 7. Bipolar Junction Transistors
- 8. BJTs Wrap-up, Solar Cells, LEDs
- 9. MOS Capacitors I
- 10. MOS Caps II, MOSFETs I
- 11. MOSFETs II, Large Signal Models
- 12. Sub-threshold MOSFET Operation
- 13. Linear Equivalent Circuits
- 14. Digital Circuits - Inverter Basics
- 15. Digital Circuits - CMOS
- 16. CMOS scaling, The Roadmap
- 17. Linear Amplifier Basics, Biasing
- 18. Single Transistor Amplifier Stages
- 19. Differential Amplifier Stages
- 20. Diff-Amp Anal. I
- 21. Diff-Amp Anal. II
- 22. Diff-Amp Anal. III
- 23. Circuits at High Frequencies
- 24. Intrin. Freq. Limits
- 25. Beyond Si
Microelectronic Devices and Circuits - Lecture 14
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Lecture 14 - Digital Circuits - Inverter Basics
Logic inverter basics. Introduction to CMOS: transfer characteristics, noise margins, optimal device sizing.
Prof. Clifton Fonstad, Jr.
6.012 Microelectronic Devices and Circuits, Fall 2009 (Massachusetts Institute of Technology: MIT OpenCourseWare) http://ocw.mit.edu Date accessed: 2011-09-25 License: Creative Commons BY-NC-SA |
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