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Lecture
Electrical Circuits and Systems Fundamentals
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Related lectures (31)
Signal Processing Fundamentals
Covers the basics of signal processing and electric circuits.
Signal Processing Fundamentals
Covers signal processing, electric circuits, Fourier Transform, Kirchhoff's laws, and practical applications in various fields.
Kirchhoff's Laws and DC Circuits
Explores Kirchhoff's laws in DC circuits, resistor analysis, and capacitor behavior.
Three-Phase Circuits: Power and Step Response Analysis
Explores power in three-phase systems and step response analysis of RC and RL circuits.
S-Domain Circuit Analysis: Part 2
Delves into s-domain circuit analysis, covering theorems, analysis methods, and stability concepts.
Electric Circuits: Analysis and Applications
Covers the analysis of electric circuits using Kirchhoff's laws and Ohm's law to determine currents, voltages, and power.
Basic Concepts: Electric Circuits
Introduces the fundamental concepts of electric circuits, including basic elements and Kirchhoff's laws.
Fourier Transform: Circuit Analysis
Explores the Fourier transform applied to circuit analysis and its properties.
Fourier Transform: Concepts and Applications
Covers the Fourier transform, its properties, applications in signal processing, and differential equations, emphasizing the concept of derivatives becoming multiplications in the frequency domain.
Analog Circuits and Systems: The Laplace Transform
Covers the basics and applications of the Laplace transform in analyzing linear analog circuits.
Electric Circuits: Analysis and Applications
Covers the analysis and applications of electric circuits, focusing on circuit components and behavior.
Laplace Transforms: Circuit Analysis
Explores Laplace transforms in circuit analysis, emphasizing pole-zero diagrams and s-domain concepts.
Three-Phase Sinusoidal Circuits
Explores three-phase sinusoidal circuits, power additivity, balanced loads, and triangle-star conversions.
Kirchhoff's Laws: Circuits Analysis
Covers Kirchhoff's laws for circuit analysis, emphasizing conservation of charge and energy.
Maximum Power Transfer Theorem and Analysis Methods
Explores the Maximum Power Transfer Theorem and Analysis Methods in linear circuits with practical examples.
Frequency Analysis of Linear Circuits: Passive Linear Circuits (Frequency Analysis 1)
Covers the analysis of analog signals, complex impedance, and Fourier series in linear circuits.
Electric Circuits: Ideal Sources and Circuit Elements
Explores ideal sources, circuit elements, and circuit analysis in electric circuits.
AC Circuits Analysis: Impedance and Admittance
Explores AC circuits analysis, focusing on impedance, admittance, phasors, and sinusoidal quantities.
Circuit Analysis: Thevenin and Norton Theorems
Explores circuit analysis using Thevenin and Norton theorems to simplify complex circuits for analysis.
Electrical Circuit: Fixed Point Methods
Explores applying fixed point methods to solve electrical circuit equations and find diode voltage.
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