Lectures related to Introduction to Electronics: Basics and Components

Introduction to Electronics: Passive and Active Components

Introduces passive and active electronic components and their behavior in circuits.

Circuits: LC Oscillator and Filters

Explores LC oscillators, filters, resonance, and energy losses in circuits with inductors and capacitors.

AC Circuits: Complex Impedance Analysis

Covers the analysis of AC circuits, focusing on complex impedance and phase differences between current and voltage.

AC Circuits: Reactances, Impedance, Rotating Vectors

Explores reactances, impedance, and rotating vectors in AC circuits.

Transistor Amplifiers: NPN Configuration and Characteristics

Discusses the principles and characteristics of NPN transistors used as voltage amplifiers.

Capacitors and Inductors

Explores capacitors, inductors, energy storage, and continuous duty behavior in electrical circuits.

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Index Responses and Unit Jumps

Explains index responses, unit jumps, and step responses of inductors and capacitors.

Electrical Engineering: Function Generator

Covers function generators, AC/DC coupling, voltage measurements, and frequency behavior in electrical engineering.

Linear Circuits in Sinusoidal Regime

Explores linear circuits in sinusoidal regime, covering phasors, frequency analysis, and Bode diagrams.

Thermal and Shot Noise: Analysis in Diodes and Transistors

Covers the origins and calculations of thermal and shot noise in diodes and transistors, emphasizing their implications in electronic components.

Dynamic Losses in CMOS Inverters: Analysis and Design

Covers dynamic losses in CMOS inverters, focusing on energy dissipation and design considerations for efficient operation.

Continuous Circuits: Kirchhoff Laws and Elements Connection

Explores Kirchhoff laws in continuous circuits and series/parallel element connections.

Electric Circuits: Analysis and Modeling

Covers the analysis and modeling of electric circuits, focusing on resistors, capacitors, inductors, and circuit simplification techniques.

Electrical Engineering Applications

Explores applications of electrical engineering, including voltage boosters and spot welding.

Differential Amplifiers: Op-Amps and Comparators

Covers the design and function of differential amplifiers, focusing on operational amplifiers and comparators, including their gain characteristics and circuit configurations.

Sinusoidal Circuits: Examples and Impedances

Covers examples in electrical engineering, impedance properties, and circuit components like resistance and reactance.

Analysis and Resolution of Linear Circuits

Covers the analysis and resolution of linear circuits with a focus on parallel and serial elements, equivalent dipoles, and series connections.

Delay Models: Resistance, Capacitance, and Inductance

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

MOS Structures: Charge Dynamics and Circuit Design

Covers MOS structures, charge dynamics, and the design of CMOS circuits.