Video 1: Fast Analytical Techniques for Electrical and Electronic Circuits
A series of lectures comprising a total of 12 videos based on my book "Fast Analytical Techniques for Electrical and Electronic Circuits". These lectures will teach you a revolutionary way of solving and understanding circuits. You will be able to derive analytical solutions to the most complex circuits containing reactive elements and dependent sources by breaking down the complex circuit into a group of purely resistive circuits devoid of dependent sources and reactive elements. You will then assemble the solution of the complex circuit from the simple resistances and gains obtained from the group of reduced and purely resistive circuits described above. This method is extremely expeditious and yields the most insightful analytical answers unlike those obtained from the matrix algebra of nodal or loop analysis. Once you learn these techniques, you will never ever have to write another nodal or loop equation no matter how complex the circuit may be.

Video 2: Fast Analytical Techniques for Electrical and Electronic Circuits

Bipolar Junction Transistors (BJT) Current Sources - Current Mirror (084b)

Noise and Distortion - Ali Sheikholeslami | A-SSCC 2024 | Circuit Insights (1)

Video 7: Fast Analytical Techniques in Electrical and Electronic Circuits

Webinar: Driving Power MOSFETs

Engineering Degrees Ranked by Difficulty (Tier List)

Video 16: Fast Analytical Techniques in Electrical and Electronic Circuits

PSRR of LDOs: An intuitive analysis

Video 1: Feedback Amplifier Analysis - The Middlebrook approach

Lecture 1: Introduction to Power Electronics

Small Signal Amplifiers

Nodal Analysis for Circuits Explained

Common mode chokes: There is more than meets the eye

Understanding Kirchhoff's Voltage Law

Extra Element Theorem Introduction

Is the AfD a threat to Germany? Mehdi Hasan & Maximilian Krah | Head to Head

But what is the Fourier Transform? A visual introduction.

#19 Finding number of poles and zeros in passive circuits

Zener Diodes

