Lectures related to Excitonic Devices: Gate Electrostatics

Excitonic Devices: Modeling and Applications

Covers excitonic device modeling and exciton control using 2D materials.

Analog CMOS Integrated Circuits: Fundamentals

Covers the fundamentals of analog CMOS integrated circuits, emphasizing transistor-level design principles and the historical impact of CMOS technology.

Static Logic Fundamentals

Covers the fundamentals of static logic, including noise immunity, noise margins, and various logic gate designs.

Logic Systems: Karnaugh Maps and TTL Gates

Explores Karnaugh maps, TTL gates, analog aspects of digital logic, and prime implicants.

VLSI Basics: Design and Technology

Covers VLSI design basics, including scaling, technology, MOSFET operation, and logic circuit implementation.

Transistor MOS and CMOS Logic

Introduces MOSFET transistors and CMOS logic circuits, highlighting the impact of miniaturization on semiconductor technology.

Transistor Logic Gates: TTL vs CMOS

Compares BJT and MOSFET in logic systems, focusing on TTL vs CMOS technologies.

Transistor Bipolar Modeling: Small Signal Linear Model

Explains the small signal linear model of a bipolar transistor in operation.

CMOS Gates and Logic Systems

Covers the basics of CMOS gates and Logic Systems, highlighting the advantages of CMOS over TTL gates.

MOSFET Operation: Understanding NMOS Behavior

Explains the operation of NMOS structures and their behavior in various regimes, including sub-threshold, linear, and saturation.

CG: IC Design I

Covers BJT and MOS transistors, amplifiers, differential pairs, practical exercises, and cascode stages in IC design.

Karnaugh Maps: Grouping Techniques

Explores Karnaugh maps, grouping rules, and transistor logic in logic systems.

Bipolar Transistor Principles: Historical Context and Functionality

Covers the principles and historical development of bipolar transistors, detailing their operation and significance in electronics.

Modeling of MOS Transistor for Low-power Design

Revisits the modeling of the MOS transistor for low-voltage and low-power analog circuit design, focusing on the EKV charge-based model.

MOS Transistor: Quick Recap of a Simple Model

Covers the Shockley MOS transistor model, CMOS logic gates, transistor operation, design parameters, and I-V characteristics.

MOSFET Basics: NMOS and PMOS Characteristics

Provides an overview of MOSFET operation, focusing on NMOS and PMOS characteristics, including current equations and channel modulation effects.

Low-power Analog IC Design

Covers the design of low-power analog CMOS integrated circuits and the challenges of technology scaling in semiconductor industry.

EKV MOS Transistor Model

Covers the EKV MOS Transistor Model, focusing on the charge-based model and its applications.

Transistors: Bipolar and MOSFET

Explores the fabrication processes of silicon wafers and the operation of NPN bipolar transistors and MOSFETs.

CMOS Technology: Evolution and MOSFET Analysis

Explores the historical evolution of CMOS technology, MOSFET analysis, and its applications in digital and analog electronics.