bandreject filter with a lower cutoff frequency of 400 Hz, an uppercutoff frequency of 4000 Hz, and a passband gain of 0 dB. Use theprototype filter circuits introduced in the design process.2. Draw the circuit diagram of the filter and label all of thecomponents.3. What is the transfer function of the scaled filter?4. Evaluate the transfer function derived in (c) at the center frequencyof the filter. 5. What is the gain (in decibels) at the center frequency?6. Using a computer program of your choice, make a Bode magnitudeplot of the filter transfer function.
bandreject filter with a lower cutoff frequency of 400 Hz, an uppercutoff frequency of 4000 Hz, and a passband gain of 0 dB. Use theprototype filter circuits introduced in the design process.2. Draw the circuit diagram of the filter and label all of thecomponents.3. What is the transfer function of the scaled filter?4. Evaluate the transfer function derived in (c) at the center frequencyof the filter. 5. What is the gain (in decibels) at the center frequency?6. Using a computer program of your choice, make a Bode magnitudeplot of the filter transfer function.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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bandreject filter with a lower cutoff frequency of 400 Hz, an upper
cutoff frequency of 4000 Hz, and a passband gain of 0 dB. Use the
prototype filter circuits introduced in the design process.
2. Draw the circuit diagram of the filter and label all of the
components.
3. What is the transfer function of the scaled filter?
4. Evaluate the transfer function derived in (c) at the center frequency
of the filter.
5. What is the gain (in decibels) at the center frequency?
6. Using a computer program of your choice, make a Bode magnitude
plot of the filter transfer function.
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