A summary of the results is as follows:

Frequency = 10.06 Hz: Input = 1.52 V; Output = 420 mV

Frequency = 101.1 Hz: Input = 1.50 V; Output = 1.37 V

Frequency = 1.00 kHz: Input = 1.50 V; Output = 1.42 V

Frequency = 10.03 kHz: Input = 1.20 V; Output = 0.50 V

For the low pass stage the resistor was measured to be 150.1 Ω and the capacitor to be 233.6 nF, and for the high pass stage the capacitor was measured to be 21.69 nF and the resistor to be 222.3 kΩ. Suppose that the goal for this band-pass filter is to transfer at least 85% of the signal between 100 Hz and 1 kHz but to transfer 25% or less of the signal at frequencies below 10 Hz and above 10 kHz. (4) Does the band-pass filter meet the goal in all the ways just stated? Support your answer based on the measurements. 

 

 A summary of the results is as follows:

Frequency = 10.12 Hz: Input = 1.52 V; Output = 320 mV

Frequency = 101.7 Hz: Input = 1.51 V; Output = 1.30 V

Frequency = 1.01 kHz: Input = 1.48 V; Output = 1.31 V

Frequency = 10.09 kHz: Input = 1.33 V; Output = 290 mV

For the low pass stage the resistor was measured to be 331.4 Ω and the capacitor to be 233.6 nF, and for the high pass stage the capacitor was measured to be 21.69 nF and the resistor to be 151.0 kΩ. The goal with the changed resistor values is for the band-pass filter to transfer at least 85% of the signal between 100 Hz and 1 kHz but to transfer 25% or less of the signal at frequencies below 10 Hz and above 10 kHz. (5) Does the modified band-pass filter meet the goal in all the ways just stated? Support your answer based on the measurements. Explain for each of the two changes made how it specifically resulted in better achievement of the stated goal, making sure that your explanation is clear and thoughtful.

Transcribed Image Text:

Band-Pass Filter Vin R₁ C₁1 Low Pass Stage C₂ R₂ High Pass Stage Vout A band-pass filter should attenuate signals with frequencies that fall outside a certain frequency