Anti-Alisaing Filter - Brain Waves.avi

That's a beautiful drawing of a sine wave.

KiraPlaysGuitar

I hope you really understand how great a public service you provide with a channel like this. Thank you.

Kaldurahm

I have to thank you for making me clearly understand this simple concept for the very first time

sunnyboy

Excellent explanation. Better than most of the attempts of my local professors. Thank you : )

xnlpLUKAS

Best (most simple) explanation I have seen. Kudos to you.

dsmith

I dont know if you read this, but great video! Thanks a lot. Good explanation in a really dry subject, at least if you are a beginner.

tombstoneecho

Very nice and instructive video. Thank you ! Just one small mistake due to hurry, result should be 4 nanofarad instead of 4 picofarad

agstechnicalsupport

Very well presented and explained. Although the filter commits to the requirements, it's not complying to basic rules of design. When designing various parts you should give the most expensive component a fixed commercially available value, then design the rest to fit as much as possible under more commercially available components. In this case, you should have picked the capacitor first, then calculate the resistor. It's easier to find many resistors than capacitor values on real life design.

Tunatunatun

Please correct me if i'm wrong. The result at 12:40 should read
~ 4 nF = 0, 004 uF
If i'm wrong, please just delete comment...
Best regards

antadefector

omg thank you so much this is the first time this stuff's made sense to me D:

sdfzhy

Dude you are really good. Natural teacher!! Thanks!!

derejehailemariam

Well done. Nice and super efficient movie

andreymarinov

you cannot exactly sample at 2f rate, because its Nyquist frequency. data will be lost

waqarhaq

super video

would you also try to explain reconstruction filters?

stefanhoelzl

Very informative I liked a lot, but you actualy made a little mistake in a hurry I guess. 3.9*10^-9 supposed to be ~4nano farads.

zeRandomName

"Fewest number of samples per cycle is two". But how do you know you're sampling the peak and the trough?

jacobvandijk

If fs=10kHz and the input signal has fmax=5kHz, then the cutoff frec. cannot be less than 5kHz, because then you 'filter' the 5kHz signal. An anti-aliasing filter tries to delete the high frec. signals in order to allow the computer read the signal we want. It is usually used in AD Converters. Anyway, fs is usually 10-20 times higher than the signal frec. and also 10 times higher than the cutoff frec.
Sorry for the English... ;)

JMGP

Something was wrong in your video. Sampling frequency should be larger than double of maximum frequency not equal.

AzamalsadatMousavian

I like this, but you really look like adam sandler, and should capitalize on that,

heretikmusic