Difference between revisions of "TF EIM Chapt3"

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You know that the circuit, as a high pass filter, will tend to attenuate low frequency (slow changing) voltages and not high frequency (quick changing) voltages.  
 
You know that the circuit, as a high pass filter, will tend to attenuate low frequency (slow changing) voltages and not high frequency (quick changing) voltages.  
  
This means that points a and b in the pulse shown below should pass through the
+
This means that points <math>a</math> and <math>b</math> in the pulse shown below should pass through the
  
 
=Integrator=
 
=Integrator=

Revision as of 17:03, 8 February 2011

Differentiator circuit

Consider the effect of a low-pass filter on a rectangular shaped input pulse with a width [math]\tau[/math] and period [math]T[/math].


TF EIM PulsedRCHighpass.png


The first thing to consider is what happens to the different parts of the square pulse as it travels to the circuit.

You know that the circuit, as a high pass filter, will tend to attenuate low frequency (slow changing) voltages and not high frequency (quick changing) voltages.

This means that points [math]a[/math] and [math]b[/math] in the pulse shown below should pass through the

Integrator

TF EIM PulsedRCLowpass.png

Forest_Electronic_Instrumentation_and_Measurement