Principles of Semiconductor Devices Lecture

Solid State Devices Handouts

This note covers the following topics: Geometry of Crystals, Elements of Quantum Mechanics, Solution of Schrodinger Equation, Energy Bands, Energy Bands in 3D Crystals, Density of States, Fermi-Dirac Statistics, Charge, field, potential, Donor or Acceptor, Equilibrium Statistics,Recombination-Generation, SRH formula, Surface Recombination, PN Junction Diode Electrostatics, I-V Characteristics, I-V Characteristics, BJT Nonideal effects , BJT Design, MOS-C Electrostatics.

Author(s): Purdue University

NA Pages

Solid State Electronic Devices Class notes

This note explains the following topics: Carrier Modeling, Carrier types and Carrier Properties, Types of Semiconductors, ACCEPTOR, DONORS and AMPHOTERIC atoms in III-V semiconductors, Carrier Densities, Carrier action – motion, recombination and generation.

Author(s): Matthew Goeckner

79 Pages

Introduction to Solid State Power Electronics (PDF 111P)

This book explains the following topics: Introduction to Power Electronics, Diodes and Uncontrolled Rectifiers, Thyristors, Ac/dc Converters and Other Naturally Commutated Circuits, Turn-off Devices and Self Commutated Circuits.

Author(s): John William Motto

111 Pages

Principles of Semiconductor Devices Lecture

This note covers the following topics: Negative-Capacitor Landau Transistors, Physics of Nanoelectromechanical (NEMS) Switches, Sequencing a Genome by a Torrent of Ions, Geometry of Diffusion and Performance Limits of Nanobiosensors, Computational Modeling, Device Options and Trade-offs for 5 nm CMOS Technology.

Author(s): Muhammad A. Alam

NA Pages