Group, After 40 years of doing PID control for industrial processes, I'm used to an error tolerance of 10E-3. So I couldn't understand an integrator with a 10 K resistor and a 5 mfd capacitor.
But this is time nuts, and the tolerance is more like 10E-13. An integrator as a controller takes any deviation from zero error voltage and moves the output in a direction that will return the error to zero. In this case, 10 K is the practical lower limit to the input resistor for the desired time constant, with 5 mfd as a practical upper limit. Any current flowing in that resistor changes the value of zero error, which causes the output to move when the actual error is zero. This makes the frequency wander. The current can come from the opamp bias or capacitor leakage when the output is not zero. Similarly, a change in the opamp zero offset causes a false error which makes the output move when it shouldn't. So I withdraw my comment about aluminum electrolytics, which was made without a timenuts perspective. Determining maximum error currents and offsets is simply a matter of mathematics, which is left as an exercise for the student. Regards, Bill Hawkins _______________________________________________ time-nuts mailing list -- [email protected] To unsubscribe, go to https://www.febo.com/cgi-bin/mailman/listinfo/time-nuts and follow the instructions there.
