Lectures related to MOSFET Analysis: Small Signal Model

MOS Transistor Operation: Triode vs Saturation

Explains MOS transistor operation in triode and saturation regions, focusing on transconductance and layout.

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

MOS Small-Signal Model: Simplifying Analog Circuit Analysis

Simplifies MOS device analysis with the small-signal model, including body effect.

Review of BJT and MOS

Provides a detailed review of Bipolar Junction Transistor (BJT) and Metal-Oxide-Semiconductor (MOS) devices.

MOS Parasitics

Covers the MOS I/V characteristics, including triode and saturation regions, deep triode, and second-order effects.

Basic Electronics: PN Junction and BJT

Introduces the PN junction, BJT operation modes, and MOS transistor basics.

MOSFET Operation: Understanding NMOS Behavior

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

Voltage References: Zener Diode vs Band-Gap

Explains voltage references using Zener diodes and band-gap circuits, covering polarization methods, thermal stability, and overall negative reaction.

Electronic Circuits and Systems

Covers the basics of electronics, amplifiers, transistors, and small signal models for transistors.

CS Stage: Load and Gain Optimization

Explores load and gain optimization in CS stages for amplifier circuits.

MOS Transconductance: Saturation

Explains MOS transistors in saturation, focusing on transconductance and different operation regions.

CG: IC Design I

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

Neural Amplifiers: Circuit Block Diagram and Design Requirements

Discusses the circuit block diagram and design requirements for neural amplifiers.

MOS Transistor Modeling: EKV Charge-based Model

Explores the EKV charge-based model for MOS transistors, emphasizing its application in low-voltage and low-power circuit design.

CMOS Gates and Logic Systems

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

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.

JFET Amplifier Design: Key Concepts and Applications

Covers the design and application of JFET amplifiers, focusing on biasing, gain characteristics, and practical examples involving photodiodes.

CMOS Technology: Evolution and MOSFET Analysis

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

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.