Laplace Transform of a Triangle Wave: Difference between revisions

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<math>\int_{-.5}^{.5}{4te^{-st}}=\; \frac{4e^{.5s}-2se^{.5s}-2se^{-.5s}-4e^{-.5s}}{s^{2}}</math>
<math>\int_{-.5}^{.5}{4te^{-st}}=\; \frac{4e^{.5s}-2se^{.5s}-2se^{-.5s}-4e^{-.5s}}{s^{2}}</math>


<math>\int_{}^{}{-4te^{-st}}=\; L\left\{ -4t \right\}=-\frac{4}{s^{2}}</math>
<math>\int_{.5}^{1.5}{-4te^{-st}}=\frac{6se^{-1.5s}+4e^{-1.5s}-2se^{-.5s}-4e^{-.5s}}{s^{2}}</math>


<math>\int_{}^{}{4.5e^{-st}}=\; L\left\{ 4.5 \right\}=\frac{4.5}{s}</math>
<math>\int_{}^{}{4.5e^{-st}}=\; L\left\{ 4.5 \right\}=\frac{4.5}{s}</math>

Revision as of 13:00, 25 January 2010

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Triangle wave with period T=2 and amplitude A=2

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Introduction

This article explains how to transform a periodic function (in this case a triangle wave). This is especially useful for analyzing circuits which contain triangle wave voltage sources.

Define F(t)

m1=2+2.5+.5=4

m2=221.5.5=4 So,

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Using the theorem for the transform of a periodic function,

L{F(t)}=11e2s[.5.54testdt+.51.5(4t+4.5)estdt]

L{F(t)}=11e2s[.5.54testdt+.51.54testdt+.51.54.5estdt]

.5.54test=4e.5s2se.5s2se.5s4e.5ss2

.51.54test=6se1.5s+4e1.5s2se.5s4e.5ss2

4.5est=L{4.5}=4.5s

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