Lectures related to Insulated-gate bipolar transistor

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.

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.

Logic Systems: Karnaugh Maps and TTL Gates

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

Bipolar Transistor Operation: Ebers-Moll Model

Explains the operation of bipolar npn transistors using the Ebers-Moll model in active and reverse modes.

Bipolar Transistor Principles: Historical Context and Functionality

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

Introduction to IC Design

Introduces the design of analog CMOS integrated circuits and emphasizes the importance of good analog design skills.

Bandgap References

Covers the design of bandgap voltage references for various applications.

Analog IC Design: MOSFET Operations, Modeling, and Tradeoffs

Explores MOSFET operations, modeling, and tradeoffs in analog IC design, emphasizing biasing, mode of operation, and small-signal parameters.

VLSI Basics: Design and Technology

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

Transistor Logic Gates: TTL vs CMOS

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

Transistors: Bipolar and MOSFET

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

Darlington Transistor: Small Signal Analysis

Covers the analysis of a Darlington transistor circuit, focusing on small signal parameters.

Delay Models: Resistance, Capacitance, and Inductance

Explores resistance, capacitance, and inductance calculations, MOS transistors, delay models, power dissipation, and PVT variations.

Karnaugh Maps: Grouping Rules and Optimization

Explores Karnaugh map representations, grouping rules, optimization, and TTL gate technology.

Watchmaking Motors

Explores the application of single-phase motors in watchmaking, including dissymmetry, mutual couple, quartz watches, and MEMs technology.

Designing NMOS Amplifiers: Key Parameters and Techniques

Covers the design principles and key parameters for NMOS amplifiers, focusing on transconductance and gain optimization.

Modeling RF MOS Transistors: Nonlinearity Effects

Explores the effects of nonlinearity in RF MOS transistors, covering two-tone input, intermodulation, and the third-order intercept point.

Subthreshold Operation: Semiconductor Device Behavior

Covers the subthreshold operation of NMOS transistors and their current behavior in relation to gate voltage.

Differential Amplifier: Small Signal Analysis

Explores small signal analysis of a bipolar transistor differential amplifier, emphasizing differential and common mode gain.

EKV MOS Transistor Model

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