Free Download Solid State Devices
Published 5/2026
MP4 | Video: h264, 1920x1080 | Audio: AAC, 44.1 KHz, 2 Ch
Language: English | Duration: 6h 0m | Size: 4.52 GB
Fundamentals of Semiconductor Physics and Modern Electronic Devices
What you'll learn
Understand the fundamental concepts of semiconductor physics, crystal structures, and energy band theory.
Explain the properties of intrinsic and extrinsic semiconductors and carrier transport mechanisms.
Analyze the operation and characteristics of PN junction diodes under different biasing conditions.
Interpret the working principles and applications of semiconductor devices such as Zener diodes, BJTs, FETs, and MOSFETs.
Evaluate current-voltage characteristics, switching behavior, and equivalent circuit models of electronic devices.
Requirements
Fundamental understanding of Physics concepts such as atomic structure, electricity, magnetism, and electronic properties of materials.
Introductory knowledge of Electronic Devices and Circuits, including voltage, current, resistance, and basic circuit analysis.
Description
The Solid State Devices course provides a detailed understanding of the semiconductor materials, the device physics, and the operation of electronic devices that are fundamental to modern electronics and communication systems. The course begins with the study of crystal structures, atomic bonding, energy band theory, intrinsic and extrinsic semiconductors, and the charge carrier transport mechanisms. These concepts form the basis for understanding semiconductor device behavior.
The course covers the construction, operation, and characteristics of important semiconductor devices such as PN junction diodes, Clipper, Clamper, Zener diodes, Schottky diodes, Bipolar Junction Transistors (BJTs), Field Effect Transistors (FETs), MOSFETs, and the optoelectronic devices. Students will learn about depletion a regions, carrier diffusion, drift currents, biasing techniques of diode, breakdown mechanisms, capacitance effects, switching characteristics, and equivalent circuit models of semiconductor electronics devices.
Special emphasis is placed on understanding device operation using energy band diagrams and current-voltage characteristics. Practical applications of solid-state devices in integrated circuits, communication systems, solar cells, sensors, microelectronics, and renewable energy technologies are also discussed.
By the end of the course, the students will be able to the analyze semiconductor device performance, interpret device characteristics, and apply solid-state concepts to electronics, VLSI systems, communication engineering, and sustainable technological development.
Who this course is for
Undergraduate and postgraduate students in Electronics and Communication Engineering, Electrical Engineering, and related disciplines.
Students preparing for careers in semiconductor industries, VLSI design, embedded systems, communication engineering, and microelectronics.
Learners interested in understanding the fundamentals of semiconductor devices and modern electronic systems.
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