Diode Clamper (Clippers) with Capacitors

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A diode clamper with a capacitor was used in a lab to smooth the output of a triangle wave input. The capacitor functions as a low-pass filter, effectively reducing higher frequencies and softening the waveform's sharp edges. This smoothing occurs because the voltage across a capacitor cannot change instantaneously, allowing it to buffer and stabilize the output. Consequently, the tops of the output wave appear flat. Understanding this principle is essential for effective signal processing in electronic circuits.
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Hey all, I have a diode clamper (1 diode) and I had to use a capacitor in lab to smooth out the output (the input was a triangle wave - without the capacitor the output was still a bit triangular at the tips). This is just curiosity - can anyone explain to me how the capacitor managed to smooth out the output wave (the tops of the output wave were flat). I need to figure out how to post pictures on here :P
 
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theuserman said:
Hey all, I have a diode clamper (1 diode) and I had to use a capacitor in lab to smooth out the output (the input was a triangle wave - without the capacitor the output was still a bit triangular at the tips). This is just curiosity - can anyone explain to me how the capacitor managed to smooth out the output wave (the tops of the output wave were flat). I need to figure out how to post pictures on here :P

If you've taken signal processing, the capacitor acts as a low-pass filter, filtering out the higher frequencies and thus reducing the "sharpness" of the triangle wave.

If you haven't, then remember that the voltage in a capacitor can't change instantaneously, and acts as a voltage "buffer", and smoothing out input waveforms.
 
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