A/ Design a non-inverting active low pass filter circuit that has a gain of ten at low frequencies, given that the resistor of the filter is 10 k 2, the feedback resistor is 9 k 2, and a high-frequency cut-off or corner frequency of 159 Hz. Find R1 and C1. Low Pass Fiter Stage Amplification 10 km2 Av C1 Vout Vin Liv 9kQ
A/ Design a non-inverting active low pass filter circuit that has a gain of ten at low frequencies, given that the resistor of the filter is 10 k 2, the feedback resistor is 9 k 2, and a high-frequency cut-off or corner frequency of 159 Hz. Find R1 and C1. Low Pass Fiter Stage Amplification 10 km2 Av C1 Vout Vin Liv 9kQ
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![A/ Design a non-inverting active low pass filter circuit that has a gain of ten at low frequencies, given that
the resistor of the filter is 10 k 2, the feedback resistor is 9 k 2, and a high-frequency cut-off or corner
frequency of 159 Hz. Find R1 and C1.
Low Pass
Fiter Stage
Amplification
10 ks2
Av
Vin
Vout
9 kn
C1
HH
R1](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fb0fc1fd6-0229-4fba-88ea-86876a0bd6df%2F58efe134-8db5-4aae-9eb0-5d9a67ecaca5%2F78clj3_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A/ Design a non-inverting active low pass filter circuit that has a gain of ten at low frequencies, given that
the resistor of the filter is 10 k 2, the feedback resistor is 9 k 2, and a high-frequency cut-off or corner
frequency of 159 Hz. Find R1 and C1.
Low Pass
Fiter Stage
Amplification
10 ks2
Av
Vin
Vout
9 kn
C1
HH
R1
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