Lectures related to AC Circuits: Impedances, Filters, and Power Analysis

AC Circuits: Complex Impedance Analysis

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

Frequency Response: Network Functions

Explores network functions, frequency-response descriptors, Bode diagrams, and RLC circuit frequency responses.

AC Circuits Analysis: Maxwell's Equations to Impedance

Explores AC circuits analysis, from Maxwell's equations to impedance and experimental phase shifts verification.

Frequency Response: Descriptors and Bode Diagrams

Explores frequency-response descriptors, Bode diagrams, first-order responses, and RLC circuits.

Circuits: LC Oscillator and Filters

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

Apparent and True Power: Transformer

Explains apparent and true power in circuits, power factor, transformers without load resistors, and transformers with load resistors.

AC Circuits: Reactances and Complex Impedances

Explores AC circuits, Ohm's law, Kirchhoff's laws, phase shifts, filters, and power consumption in AC circuits.

Basic Concepts: Electric Circuits

Introduces the fundamental concepts of electric circuits, including basic elements and Kirchhoff's laws.

Filters: High-pass and Low-pass

Covers high-pass and low-pass filters, analyzing signal blocking for specific frequencies and relating circuit elements to filter functionality.

Frequency Response of RLC Circuits

Explores the frequency response of RLC circuits, Bode diagrams, OPAMP history, and modern engineering applications.

The Frequency Response of RLC Circuits

Explores the frequency response of RLC circuits, operational amplifiers, and linear dependent sources, highlighting the historical significance of operational amplifiers.

Impedance and Kirchhoff Laws

Introduces impedance and Kirchhoff's laws for circuits, transfer functions, and filters.

AC Circuits: RLC Circuit, Power Analysis, Transformer

Covers the analysis of AC circuits, phase shifts, and power factor optimization.

Filters Fundamentals: Chebyshev Polynomials and Filter Design

Covers Chebyshev polynomials, all-pole filter design, RLC filters, and active-RC and OTA-C filter implementations.

Electrical Circuits Basics

Introduces the basics of electrical circuits, covering elements, laws, Ohm's law, and series/parallel connections.

Band-Pass Filters: Design and Application

Explores band-pass filter design, impedance characteristics, and practical circuit realization for heart activity measurement.

Filters Fundamentals: Chebyshev Approximation

Explores the fundamentals of Chebyshev approximation in filters, covering polynomials, pole locations, order determination, and design procedures.

Inductance Coil and Accumulated Energy

Explores inductance coil, accumulated energy, coils in series, and RL circuits.

Energy in Inductance & Capacitance

Explores energy storage in coils, magnetic fields, and capacitors, emphasizing the oscillation and decay of energy in circuits.

Electricity Fundamentals: Inductance and Complex Impedance

Explores the relationship between current and voltage, sinusoidal signals, and impedance in electrical circuits.