This book will cover linear circuits, and linear circuit elements. This book will expect the reader to have a firm understanding of Calculus specifically, and will not stop to explain the fundamental topics in Calculus.įor information on Calculus, see the wikibook: Calculus. This leaves time for a more intuitive understanding of poles, zeros, transfer functions, and Bode plot interpretation.įor those who have already had differential equations, the Laplace transform equivalent will be presented as an alternative while focusing on phasors and calculus. Sinusoidal is then replaced by the more simple step function and then the convolution integral is used to find an analytical solution to any driving function. 1st and 2nd order differential equations can be solved using phasors and calculus if the driving functions are sinusoidal. Phasors are used to avoid the Laplace transform of driving functions while maintaining a complex impedance transform of the physical circuit that is identical in both. It is assumed that students are in a Differential Equations class at the same time. This is designed for a first course in Circuit Analysis which is usually accompanied by a set of labs.
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