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your transfer function should be something like H(s) = A/(s+ 1/w)
i think u have a cap and res. in parallel in the feedback branch, and another resistor into the inverting input
calculate the transfer function of that configuration and see if the form matches what i said above (i.e., 1 pole)
I'm too lazy to figure it out now
I found the transfer function to be R2/(R1+R1jwCR2). How would I proceed?
I want to build a first order low pass filter using an inverting opamp with a gain of 10 below the bandwidth, which should be about 1.7kHz. How do I calculate suitable values of the two resistors and 1 capacitor?(Only these three components will be in the filter)?
but why setting the bandwidth at 15.9kHz instead of 15.9Hz won't yield a constant gain of 10?
I mean it maintains a gain around 10 (7.something, 8.something) but not 10 with a 10nF capacitor unless it's not the correct one
OK. I understand what you mean. What about measuring the gain at a particular frequency? I derived the voltage transfer function but how do I use it to derive the gain in dB at a particular frequency?