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Microelectronics circuits
This lecture note covers the following topics: Conduction in Semiconductors, Classification of Conductors, Conduction in Metals, Conduction in Intrinsic Semiconductors, The Junction Diode, Diode Clipper Circuits, The MOSFET Bias Equation, Modeling the MOSFET Body Effect, The Common-Source Amplifier, The MOSFET Differential Amplifier, The Bipolar Junction Transistor, The BJT Differential Amplifier and the Complimentary Common Collector Amplifier.
Author(s): Dr. W. Marshall Leach
NA 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
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 Processes
The target audience of this note is undergraduate chemical engineering and electronics and communication engineering students. The focus will be on the various modules relevant for chip manufacturing. Topics covered includes: Lithography, Depostion Techniques, Removal Techniques, FEOL, Diffusion, Ion Implantation, Oxidation, , process Integration, Testing, Yield, Tools and Techniques.
Author(s): Dr. S. Ramanathan
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
Introduction to Microelectronic Theory
Understanding semiconductor devices is critical in designing and improving many types of systems. This note provides an understanding of the most fundamental aspects of semiconductor materials and provide the mathematical formulation for understanding how advanced devices work.
Author(s): Alan Doolittle
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