Intergrator/Differential Op-Amp Frequency

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Different frequencies affect the output amplitude of integrator and differentiator op-amp circuits due to their inherent filtering properties; integrators act as low-pass filters while differentiators function as high-pass filters. When a square wave input is applied, the output of an integrator ideally produces a triangular wave, with output amplitude inversely proportional to frequency, especially if the fundamental frequency is within the op-amp's bandwidth. Conversely, a differentiator's response to a square wave results in narrow pulses, which may not reach full amplitude at higher frequencies due to limited slew rates and edge speeds. The op-amp's frequency range also plays a crucial role, as components like the 741 can struggle with higher frequency harmonics, leading to reduced output amplitude. Understanding these principles is essential for effectively utilizing op-amps in various applications.
big_tobacco
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Hello,

I'm baffled as to why different frequencies affects the output (amplitude) of a integrator and differentiator op-amp circuit.

I'm using a variety of frequencies (100 Hz - 10Khz), with a fixed 1V square wave input? Why does the frequency cause a change in the amplitude?

This isn't a homework question, I work with simple op-amps all the time and it's about time that I should know the principles.

Any help would be greatly appreciated.

Regards
 
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Also another factor could be the op-amp's frequency range.

For example, a 741 works up to 20 KHz,

but a square wave is composed of odd order harmonics. So if you apply a 10 KHz square wave, then there is a frequency component at 30 KHz, which would likely be killed by the op-amp like the 741 - and hence signal amplitude is reduced.
 
Another way to look at this is that with a square-wave input, an integrator should give a triangular-wave output. Thus the output amplitude is inversely proportional to frequency. Provided that the fundamental frequency of the square wave lies well within the bandwidth of your op-amp, the practical result should be a fair approximation to this.

The situation for a differentiator is more complicated. In fact, a perfect square-wave input applied to a perfect differentiator would give an output consisting of infinitely narrow and high pulses. In the real world, a square-wave will have limited edge speeds, and an integrator will have limited maximum output amplitude and limited slew rate.

If the frequency of a square-wave input to a practical differentiator is increased from a low value, the output will most likely be a series of alternating narrow pulses of roughly constant amplitude, which get closer in time as the frequency increases. If the frequency is increased sufficiently, there will not be enough time for each pulse to reach full height, and the output amplitude will begin to drop off if the frequency is increased further.
 

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