Columbia University - MOS Transistors
- Offered byCoursera
- Public/Government Institute
MOS Transistors at Coursera Overview
Duration | 18 hours |
Total fee | Free |
Mode of learning | Online |
Schedule type | Self paced |
Official Website | Explore Free Course  |
Credential | Certificate |
MOS Transistors at Coursera Highlights
- 100% online Start instantly and learn at your own schedule.
- Flexible deadlines Reset deadlines in accordance to your schedule.
- Approx. 18 hours to complete
- English Subtitles: French, Portuguese (European), Russian, English, Spanish
MOS Transistors at Coursera Course details
- PLEASE NOTE: This version of the course has been formed from an earlier version, which was actively run by the instructor and his teaching assistants. Some of what is mentioned in the video lectures and the accompanying material regarding logistics, book availability and method of grading may no longer be relevant to the present version. Neither the instructor nor the original teaching assistants are running this version of the course. There will be no certificate offered for this course.
- Learn how MOS transistors work, and how to model them. The understanding provided in this course is essential not only for device modelers, but also for designers of high-performance circuits.
MOS Transistors at Coursera Curriculum
About This Course and Overview of the MOS Transistor
About This Course
Intuitive Overview of the MOS Transistor
Read First: Course Information
CMOS Processes
Semiconductors - Part 1
Semiconductors - Part 2
Semiconductors - Part 3
Conduction ? Part 1
Conduction ? Part 2
Contact Potentials
pn Junctions ? Zero and Forward Bias
pn Junctions ?Under Reverse Bias ? Part 1
pn Junctions ?Under Reverse Bias ? Part 2
Problem Set 1
The Two-Terminal and Three-Terminal MOS Structures
The Two-Terminal MOS Structure ? Flatband Voltage
The Two-Terminal MOS Structure ? Surface Condition
The Two-Terminal MOS Structure ? General Analysis
The Two-Terminal MOS Structure ? Inversion
The Two-Terminal MOS Structure ? Strong Inversion
The Two-Terminal MOS Structure ? Weak Inversion
The Two-Terminal MOS Structure ? Small-Signal Capacitance
The Three-Terminal MOS Structure ? Part 1
The Three-Terminal MOS Structure ? Part 2
Problem Set 2
The Long-Channel MOS Transistor ? Part 1
Introduction
Complete All-Region Model
Simplified All-Region Models
Strong Inversion Models ? 1
Strong Inversion Models ? 2
The Long-Channel MOS Transistor ? Part 2
Strong Inversion Models
Weak Inversion Models
Source Reference vs. Body Reference
Effective Mobility
Additional Topics
Problem Set 3
Small-Dimension Effects 1
Small-Dimension Effects - Velocity Saturation
Small-Dimension Effects ? Channel Length Modulation
Small-Dimension Effects - Charge Sharing
Small-Dimension Effects ? Drain-Induced Barrier Lowering
Small-Dimension Effects ? Combining Several Effects Into One Model
Small-Dimension Effects ? Hot Carrier Effects
Small-Dimension Effects - Velocity Overshoot and Ballistic Operation
Small-Dimension Effects - Polysilicon Depletion
Midterm
Small-Dimension Effects 2; Modeling for Circuits Simulation
Small-Dimension Effects - Quantum-Mechanical Effects; Gate Current
Small-Dimension Effects ? Junction Leakage
Small-Dimension Effects - Scaling and New Technologies
Modeling for Circuit Simulation ? Approaches and Properties of Good Models
Modeling for Circuit Simulation ? Model Formulation Considerations
Modeling for Circuit Simulation ? Parameter Extraction 1
Modeling for Circuit Simulation ? Parameter Extraction 2
Modeling for Circuit Simulation ? Representative Compact Models
Modeling for Circuit Simulation ? Benchmark Tests
Large-Signal Dynamic Operation
Large-Signal Dynamic Operation ? Quasi-Static Operation
Large-Signal Dynamic Operation ? Terminal Currents in QS Operation
Large-Signal Dynamic Operation ? Charging Currents in QS Operation
Large-Signal Dynamic Operation ? Evaluation of Charges
Large-Signal Dynamic Operation ? Transit Time
Large-Signal Dynamic Operation ? Transient Response Using QS Modeling
Large-Signal Dynamic Operation ? Non-Quasi-Static Operation
Large-Signal Dynamic Operation ? Extrinsic Parasitics
Small-Signal Modeling I
Small-Signal Modeling ? Conductance Parameter Definitions and Equivalent Circuits
Small-Signal Modeling ? Conductance Parameters Due to Gate and Body Leakage
Small-Signal Modeling ?Transconductance
Small-Signal Modeling ? Source-Drain and Output Conductance
Small-Signal Modeling ? Capacitance Definitions and Equivalent Circuits
Small-Signal Modeling ? Capacitance Evaluation and Properties
Small-Signal Modeling II
Small-Signal Modeling ? Complete Capacitance Parameter Set
Small-Signal Modeling ? Complete Quasi-Static Model
Small-Signal Modeling ? y-Parameter Model
Small-Signal Modeling ? Non-Quasi-Static Model
Small-Signal Modeling ? Model Comparison
Small-Signal Modeling ? RF Models
Problem Set 9 Preamble
Problem Set 4
Final Exam
Final Exam
End of Course
Noise - Introduction
Noise - Thermal Noise
Noise - High-Frequency Considerations
Noise - Flicker Noise
Ion Implantation ? Threshold Adjust Implant
Halo Implants
Well Proximity Effect
Stress Effects
Statistical Variability
Epilogue
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