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| Parseval's Relation | | Parseval's Relation | ||
− | | | <math>\int_{-\infty}^{\infty} |x(t)|^2 dt = \frac{1}{2\pi} \int_{-\infty}^{\infty} |\mathcal{X}(w)|^2 dw</math> | + | | | <math>\int_{-\infty}^{\infty} |x(t)|^2 dt = |
+ | | \frac{1}{2\pi} \int_{-\infty}^{\infty} |\mathcal{X}(w)|^2 dw</math> | ||
|- | |- |
Revision as of 15:31, 14 November 2018
CTFT of periodic signals and some properties with proofs
Function | CTFT | Proof | |
---|---|---|---|
$ sin(\omega_0t) $ | $ \frac{\pi}{j}(\delta(\omega - \omega_0) - \delta(\omega+\omega_0)) $ | ||
$ cos(\omega_0t) $ | $ \pi(\delta(\omega - \omega_0) + \delta(\omega+\omega_0)) $ | ||
$ e^{j\omega_0t} $ | $ 2\pi\delta(\omega - \omega_0) $ | ||
$ \sum_{k=-\infty}^{\infty}u(t+5k) - u(t-1+5k) $ |
Name | $ x(t) \longrightarrow \ $ | $ \mathcal{X}(\omega) $ | |
---|---|---|---|
Linearity | $ ax(t) + by(t) \ $ | $ a \mathcal{X}(\omega) + b \mathcal{Y} (\omega) $ | |
Time Shifting | $ x(t-t_0) \ $ | $ e^{-j\omega t_0}X(\omega) $ | |
Frequency Shifting | $ e^{j\omega_0 t}x(t) $ | $ \mathcal{X} (\omega - \omega_0) $ | |
Conjugation | $ x^{*}(t) \ $ | $ \mathcal{X}^{*} (-\omega) $ | |
Scaling | $ x(at) \ $ | $ \frac{1}{|a|} \mathcal{X} (\frac{\omega}{a}) $ | |
Multiplication | $ x(t)y(t) \ $ | $ \frac{1}{2\pi} \mathcal{X}(\omega)*\mathcal{Y}(\omega) |- | Convolution | <math>x(t)*y(t) \ $ | $ \mathcal{X}(\omega)\mathcal{Y}(\omega) \! $ |
Differentiation | $ tx(t) \ $ | $ j\frac{d}{d\omega} \mathcal{X} (\omega) $ | |
Parseval's Relation | $ \int_{-\infty}^{\infty} |x(t)|^2 dt = | \frac{1}{2\pi} \int_{-\infty}^{\infty} |\mathcal{X}(w)|^2 dw $ |