Submitted by **MEGA_AEOIU792** t3_10kgr8r
in **headphones**

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**blutfink**
t1_j5vz4wj wrote

Reply to comment by **No-Tune-9435** in **what information an impulse response graph provides about headphones?** by **MEGA_AEOIU792**

Proper decaying/windowing is performed via element-wise multiplication with a window function. All we want is that the signal is smoothly approaching zero at the edges. Since this is approximately the case for typical impulse responses of audio systems, it won’t change the result that much if you don’t window it at all.

To help your intuition, convince yourself that the FT of a centered Gaussian bell curve is itself a Gaussian bell curve. Note that the “low frequencies” in this graph are near the center.

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**No-Tune-9435**
t1_j5vzhjj wrote

You didn’t answer my question at all though. If we want to represent an FR from 20-20khz, what time window would be appropriate for the impulse response? Or have you actually not done this math before?

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**TaliskerBay22**
t1_j5w0hju wrote

Look here is an example, the time domain lasts for a ms and the Fourier response extends from 0 to some tens of KHz. Plug it in Matlab and tweak it as you like

% Define time-domain signal

dt = 0.000001; % time step (s)

t = 0:dt:0.001; % time vector (s)

x = cos(50000.*t-0.0004).*exp(-(t-0.0003).^2/0.00006^2); % time-domain signal

% Perform FFT

X = fft(x); % FFT of time-domain signal

f = (0:length(X)-1)/(dt*length(X)); % frequency vector (Hz)

% Plot results

figure;

subplot(2,1,1);

plot(t,x);

xlabel('Time (s)');

ylabel('Amplitude');

title('Time-domain signal');

subplot(2,1,2);

Amplitude=abs(X);

semilogy(f(1:length(X)/20),Amplitude(1:length(X)/20));

xlabel('Frequency (Hz)');

ylabel('Amplitude');

title('Frequency-domain signal (FFT)');

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**blutfink**
t1_j5w0fke wrote

In the extreme case? Infinitesimally short time. The FT of a Dirac pulse is a flat, constant response from 0 Hz to infinity Hz (or, in the case of DFT, Nyquist frequency).

As I said, the FT of a Gaussian is a Gaussian. Really sharp in the time domain means really wide in the frequency domain. If you do not understand why that is, your intuition about FTs will be flawed.

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**[deleted]**
t1_j5w2sn4 wrote

[deleted]

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**blutfink**
t1_j5w2dc2 wrote

Maybe this helps: The impulse response in OPs post image basically does not have to be windowed at all, it’s decently close to zero at the edges. Plug it into a FT and you’ll get a decently accurate FR.

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