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Revision as of 06:56, 30 October 2009

CT Fourier Transform Pairs and Properties (frequency $ \omega $ in radians per time unit)
Definition CT Fourier Transform and its Inverse
CT Fourier Transform $ \mathcal{X}(\omega)=\mathcal{F}(x(t))=\int_{-\infty}^{\infty} x(t) e^{-j\omega t} dt $
Inverse DT Fourier Transform $ \, x(t)=\mathcal{F}^{-1}(\mathcal{X}(\omega))=\frac{1}{2\pi} \int_{-\infty}^{\infty}\mathcal{X}(\omega)e^{j\omega t} d \omega\, $
CT Fourier Transform Pairs
$ x(t) $ $ \longrightarrow $ $ \mathcal{X}(\omega) $
CTFT of a complex exponential $ \delta (t) $ $ 1 \! \ $
CTFT of a complex exponential $ e^{jw_0t} $ $ 2\pi \delta (\omega - \omega_0) \ $
CTFT of a complex exponential $ e^{-at}u(t) $, where $ a\in {\mathbb R}, a>0 $ $ \frac{1}{a+j\omega} \ $
CTFT of a cosine $ \cos(\omega_0 t) \ $ $ \pi \left[\delta (\omega - \omega_0) + \delta (\omega + \omega_0)\right] \ $
CTFT of a sine $ sin(\omega_0 t) \ $ $ \frac{\pi}{j} \left[\delta (\omega - \omega_0) - \delta (\omega + \omega_0)\right] \ $
CT Fourier Transform Properties
$ x(t) $ $ \longrightarrow $ $ \mathcal{X}(\omega) $
multiplication property $ x(t)y(t) \ $ $ \frac{1}{2\pi} X(\omega)*Y(\omega) =\frac{1}{2\pi} \int_{-\infty}^{\infty} X(\theta)Y(\omega-\theta)d\theta $
convolution property $ x(t)*y(t) \! $ $ X(\omega)Y(\omega) \! $
time reversal $ \ x(-t) $ $ \ X(-\omega) $
Other CT Fourier Transform Properties
Parseval's relation $ \int_{-\infty}^{\infty} |x(t)|^2 dt = \frac{1}{2\pi} \int_{-\infty}^{\infty} |\mathcal{X}(w)|^2 dw $

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