Inverse Fourier transform Of a triangular impulse

I have to find the expression of this graphic and after find the inverse Fourier transform of it. First of all I found that the expression of the graphic is $$X(f) = \frac{1}{2} tri (\frac{f+f_0}{B}) - \frac{1}{2} tri(\frac{f-f_0}{B})$$. Now to find inverse Fourier transform , my book give me the advice to multiply numerator and denominator for i. But $$i=e^{i \frac{\pi}{2}}$$ and $$-i=e^{-i \frac{\pi}{2}}$$. Now I know that the Fourier transform of a triangular impulse is $$(sinc(f)^{2})$$ and that $$\frac{d}{dt} tri(t) = rect ( t + \frac{1}{2}) - rect ( t - \frac{1}{2})$$ but I don’t know how to apply correctly integration property of my x(t). Thank you so much

• What book is it Elena ? – Isma007 Feb 2 at 17:37
• “Segnali analogici e sistemi lineari” by Armando Vannucci , my teacher – Elena Martini Feb 2 at 18:43
• Thank you Elena. – Isma007 Feb 2 at 18:44

It's nice to see alternative paths, like this one: First of all, properties:

• Frequency shifting: $$x(t)e^{j2\pi f_0 t} \longleftrightarrow X(f-f_0)$$
• Duality: if $$x(t) \longleftrightarrow X(f)$$ then $$X(t) \longleftrightarrow x(-f)$$

You have correctly expressed the depicted transform: $$X(f) = \frac{1}{2}\mathrm{tri}\Big(\frac{f+f_0}{B}\Big) - \frac{1}{2}\mathrm{tri}\Big(\frac{f-f_0}{B}\Big)$$

As you said, $$\mathrm{tri}\Big(\frac{t}{B}\Big) \longleftrightarrow B\mathrm{sinc}^2(fB)$$. From the duality property, you have $$B\mathrm{sinc}^2(tB) \longleftrightarrow \mathrm{tri}\Big(\frac{-f}{B}\Big)$$ but since $$\mathrm{tri(\cdot )}$$ is an even function, you can write $$B\mathrm{sinc}^2(tB) \longleftrightarrow \mathrm{tri}\Big(\frac{f}{B}\Big)$$

Now you have your FT-pair you need. If you apply the frqeuency shifting property on $$\mathrm{tri}\Big(\frac{f\pm f_0}{B}\Big)$$, you can easily get... what? :-) You can continue from this point.

• Finally, after two hours 🙈, I obtained the correct result also with this method! And this give me the opportunity to improve with Fourier properties ! Thank you! – Elena Martini Feb 3 at 17:59

Hints: X It is quite likely that your book contains a formula (either as a solved example or as a theorem or property of Fourier transforms) that looks like $$\mathcal F\{x(t)\sin 2\pi f_0 t\} = \frac{X(f-f_0)-X(f+f_0)}{2i} \tag{1}$$ where $$i$$ is a square root of unity. So, copy the formula into your notebook, and then use the hint given in your book (multiply and divide by $$i$$) to arrive at \begin{align}\frac ii\cdot\left[\frac{1}{2}\operatorname{tri}\left(\frac{f+f_0}{B}\right) - \frac{1}{2} \operatorname{tri}\left(\frac{f-f_0}{B}\right)\right] &= i\cdot \frac{\operatorname{tri}\left(\frac{f+f_0}{B}\right)-\operatorname{tri}\left(\frac{f-f_0}{B}\right)}{2i}\\ &= -i \cdot \frac{\operatorname{tri}\left(\frac{f-f_0}{B}\right)-\operatorname{tri}\left(\frac{f+f_0}{B}\right)}{2i}.\tag{2}\end{align} Then stare very hard at the right sides of $$(1)$$ and $$(2)$$ to see if there are any similarities that might be exploited to complete the solution.

• Thank you so much !!!! I’ll write it on my notebook ! – Elena Martini Feb 3 at 13:48