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Introduction to Microelectronic Circuits Lecture Notes
This note covers the following topics: Fundamental circuit concepts and analysis techniques , First and second order circuits, impulse and frequency response, Op Amps, Diode and FET: Device and Circuits, Amplification, Logic, Filter.
Author(s): Prof. C. Chang-Hasnain
103 Pages 
Introduction to Microelectronic Circuits Lecture Notes
This note covers the following topics: Fundamental circuit concepts and analysis techniques , First and second order circuits, impulse and frequency response, Op Amps, Diode and FET: Device and Circuits, Amplification, Logic, Filter.
Author(s): Prof. C. Chang-Hasnain
103 Pages
Microelectronics Manufacturing
This note focuses on CMOS manufacturing. Topics covered includes: CMOS process technology, work in progress tracking, CMOS calculations, process technology, long channel and short channel MOSFET, isolation technologies, back-end processing and packaging.
Author(s): Dr. Lynn Fuller
NA Pages
Notes for Microelectronics Fabrication
This note covers the following topics: Semiconductor and Solid State Physics, Crystal Structure and Growth, Defects in Semiconductors and Internal Gettering, Silicon Dioxide and Thermal Oxidation, Current-Voltage Analysis, Thickness Measurement, Ultra Thin Oxides, Impurity Diffusion, Sheet Resistance and Diffusion Profiles, Electrical Characteristics of pn-Junctions, Atomic Processes of Diffusion, Ion Implantation, Implanted and Diffused Profiles.
Author(s): David R. Evans
242 Pages
Fundamentals of Microelectronics Lecture Note
This note covers the following topics: Basic Physics of Semiconductors, Diode Circuits, Physics of Bipolar Transistors, Bipolar Amplifiers, Physics of MOS Transistors, CMOS Amplifiers, Operational Amplifier as a Blac Box.
Author(s): Seoul National University
NA Pages
Introduction to Microelectronic Fabrication
This lecture note provides an introduction to the theoretical background and application of each major IC fabrication processes: eg. oxidation, doping, depositions, photolithography and etching. The prerequisites are the students need are an understanding of basic transistor and diode operation. Topics covered includes: Clean Room Technology Silicon Wafer Production, Thermal Oxidation, Lithography, Advanced Lithography, Etching , Diffusion Processes and Ion Implantation, Thin Film Deposition, Packaging, Yields, Processing Silicon Foundries, CMOS and Bipolar Process Integration in practice, Photolithography: resists, coating and mask aligners, CVD epitaxy and Plasma etching.
Author(s): Prof. Glenn Chapman
NA Pages
This lecture notes teach the fundamentals of non-linear circuit elements including diodes, and transistors (BJT and FET) , how they are used in circuits and real world applications.
Author(s): Alan Doolittle
NA Pages