I have heard my teacher saying** that low pass filter is more commonly used than high pass filter because in high pass filter, frequency increases with gain and thus noise also increases and thus it distorts the output. In case of low pass filter, frequency decreases with gain and thus noise decreases and thus output is less distorted.
I was skeptical about this explanation as I thought that low pass filter is used as much as high pass filter according to needs and there is no such thing that 'this' filter is more often than used than 'that'. I thought of doing a bit of research and I found that there are two types of noise- whiter noise and pink noise. White noise increases linearly with frequency and pink noise is inversely proportional to frequency. Generally, white noise is more dominant than pink noise and it is said that pink noise is still not exhibited for frequency as low as \$10^{-6}\$ Hz. So, I am assuming that white noise is exhibited and for higher frequency, white noise is dominant and thus distort the output. I found this forum of help and it says how to eliminate noise in low pass filter. So, my question is – Is low pass filter more often used than high pass filter? Is there any reason for this or is a false claim?
**My teacher said this statement during we were doing circuit analysis using simulink. He said to always use integrator instead of differentiator because in the laplace transform of differentiation is \$sX(s)-x(0)\$ whereas the laplace transform of integration is \$\frac{X(s)}s – x(0)\$ where \$s=j\omega\$. So, in differentiator, frequency increase and so is noise(act as high pass filter) and in integrator, frequency decreases and so is noise(act as low pass filter). So, eventually he made the statement of using low pass filter than high pass filter.
Best Answer
It's neither a true claim, nor a false one. It is irrelevant to the understanding of filters. It is also poorly posed, what exactly do you count as a filter?
It might be possible somehow to count all filters used in the world, and come up with two numbers, and decide which was biggest. And when you'd done that exercise, you'd still understand no more about filters.
A filter is used when you need the energy in part of the spectrum to be reduced for some reason. Often that part is down at low frequency, where DC offsets, 1/f noise, drifts, mains hum are unwanted. Often that part is up at high frequency, where broadband noise, aliasing signals, radio reception on unshielded wires are unwanted. As an engineer, you will be called to design and deploy many of each type.