Undergraduate course on semiconductor device Physics-II

🌟 Course Title: Undergraduate Course on Semiconductor Device Physics-II: Quantitative & Qualitative Analysis of MOS Capacitor, MOSFET, and BJT

🎉 Course Headline: Dive Deeper into the World of Semiconductors: Master the MOS Capacitor, MOSFET, and BJT!

Course Description

Welcome to the second part of our comprehensive undergraduate course on semiconductor device physics. This course is designed to build upon the foundational knowledge you gained in our first course, providing an advanced understanding of critical semiconductor devices.

Why Take This Course?

• Understanding Transport Phenomena: Gain insight into how charge carriers move within a semiconductor, including drift and diffusion currents.
• Energy Band Theory: Delve deep into the physics behind energy bands in semiconductors and the formation of electron-hole pairs (EHPs).
• Junction Formation & Device Physics: Explore the principles of junction formation in diodes and extend your knowledge to three-terminal devices like BJTs and MOSFETs.
• Three-Terminal Devices: Learn about the various structures of MOSFETs, including enhancement and depletion types, and understand their operation up to threshold control.
• BJT Characteristics: Analyze the characteristics and parameters of BJTs with respect to input and output characteristics.

Course Highlights:

• MOS Capacitor Understanding: Master the concepts of an ideal MOS capacitor, including threshold voltage and charge storage characteristics (CV). We'll also touch upon non-idealities for a comprehensive view.
• Focus on Ideal MOSFETs: Explore the transport of charge carriers in MOSFET transistors, gaining a complete picture of their structures and operations.
• BJT Exploration: Study the operation of BJTs, learning how to interpret their characteristics and parameters.

Prerequisite: Before diving into this course, it is essential to have completed our previous course "Undergraduate Course on Semiconductor Device Physics-I." This ensures you have the necessary background to fully grasp the advanced concepts covered in this course.

🏫 Instructor Profile: Learn from the expertise of Mr. Udaya Bhaskar, an experienced university level faculty and GATE teaching faculty with over 15 years of dedicated teaching experience. His areas of interest are semiconductors, electronic devices, signal processing, digital design, and other fundamental subjects of electronics. With a track record of training thousands of students for GATE and ESE examinations, Mr. Bhaskar is well-equipped to guide you through this course with clarity and depth.

Join us on this electrifying journey into the world of semiconductors! Let's unlock the mysteries of MOS capacitors, MOSFETs, and BJTs together. Enroll now and elevate your understanding of semiconductor device physics to new heights. 🔬⚡️

Course Outline:

1. Review of Semiconductor Physics Concepts
   • Energy band theory
   • Electron-hole pairs (EHPs)
2. MOS Capacitor In-Depth Analysis
   • Ideal MOS capacitor characteristics
   • Threshold voltage and charge storage (CV)
   • Non-ideal MOS capacitor considerations
3. Deep Dive into MOSFETs
   • Various types of MOSFETs (enhancement, depletion)
   • P-type and N-type substrate variations
   • Threshold voltage control mechanisms
4. BJT Characteristics and Operation
   • BJT transistor structures
   • Input and output characteristics analysis
5. Practical Applications and Real-World Implications
   • Design considerations for semiconductor devices
   • Device scaling and performance optimization

📆 Enroll Now and Transform Your Understanding of Semiconductor Devices! 🚀