This lecture note covers the following topics: CMOS Technology and Passive Devices, MOS Models for Analog Design, MOS
Small-Signal Models for Design , Electronic Noise, Electronic Noise, Noise
Analysis, Amplifiers, Single-Ended and Differential OTA, Folded Cascode OTA,
Common-Mode Feedback, Multistage Amplifiers, Comparators, MOS Sample and Hold,
Biasing, Offset Cancellation.
This lecture note explains the following topics: Sets, probability,
Bayes theorem,Set operations, logic operations, Bernoulli Trials, Cumulative
Distribution Function, Thermal distributions, Coupled Systems , Boltzmann Law ,
random variables and Expectations, random processes, Shot Noise , DC current and
Noise Current, Diffusion Noise , Bipolar Transistor Noise, noise of other
devices, FETnoise, circuit noise analysis, 2-port noise, mixers and frequency
conversion, baseband, AM, FM receivers, Phase noise in oscillators, sensitive
measurements, digital communications, Optical receiver sensistivity and sketch
of information theory.
This lecture note covers the
following topics: CMOS Circuits, CMOS logic design and design representations,
Circuit and System Representation, Structural and Physical Representation,
Operating Principles of MOS Transistors, Fabrication of CMOS Integrated Circuits
and Circuit Characterization.
This note covers the following topics: Optical Communications,
Elemental Semiconductors, Metal semiconductor contacts, Electron Microscopy and
Analysis, Magnetic Storage Technology, Scanning Probe Microscopy.