Given a variable capacitor that can be adjusted over the range of 40pf to 365pf we want to tune the AM band over the range of 540kHz to 1.6MHZ. We will need to find the value of an inductor L that, when placed in parallel with this variable capacitor, will allow us to tune the entire AM radio band. Assume the inductor is ideal (has zero internal resistance). A. When the variable capacitor is set to 365pf find the value of L that will tune a center 1 frequency of 540 kHz. Remember fo= 2.n V LC B. What is that maximum center frequency that can be turned when the variable capacitor is set to its minimum value of 40pf? C. What will the value of Q be for this tuner with a simple 2000 ohm resistance in parallel? Assume a tuned center frequency of 1MHZ. What will be the value Q be if the parallel resistance were reduced to 8 ohms (this is a common impedance value for speakers)? R Remember Q, =

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Long
Wire Antenna
Old Style
Crystal Radio
Tuning
Stage
Detector
(demodulator)
stage
High
Impedance
Headphones
Earth
Ground
Transcribed Image Text:Long Wire Antenna Old Style Crystal Radio Tuning Stage Detector (demodulator) stage High Impedance Headphones Earth Ground
Given a variable capacitor that can be adjusted over the range of 40pf to 365pf we want to
tune the AM band over the range of 540kHz to 1.6MHZ. We will need to find the value of an
inductor L that, when placed in parallel with this variable capacitor, will allow us to tune the
entire AM radio band. Assume the inductor is ideal (has zero internal resistance).
A. When the variable capacitor is set to 365pf find the value of L that will tune a center
1
27 V LC
B. What is that maximum center frequency that can be turned when the variable capacitor
frequency of 540 kHz. Remember fo=
is set to its minimum value of 40pf?
C. What will the value of Q be for this tuner with a simple 2000 ohm resistance in parallel?
Assume a tuned center frequency of 1MHz. What will be the value Q be if the parallel
resistance were reduced to 8 ohms (this is a common impedance value for speakers)?
R
Remember Qp
2n foL
Transcribed Image Text:Given a variable capacitor that can be adjusted over the range of 40pf to 365pf we want to tune the AM band over the range of 540kHz to 1.6MHZ. We will need to find the value of an inductor L that, when placed in parallel with this variable capacitor, will allow us to tune the entire AM radio band. Assume the inductor is ideal (has zero internal resistance). A. When the variable capacitor is set to 365pf find the value of L that will tune a center 1 27 V LC B. What is that maximum center frequency that can be turned when the variable capacitor frequency of 540 kHz. Remember fo= is set to its minimum value of 40pf? C. What will the value of Q be for this tuner with a simple 2000 ohm resistance in parallel? Assume a tuned center frequency of 1MHz. What will be the value Q be if the parallel resistance were reduced to 8 ohms (this is a common impedance value for speakers)? R Remember Qp 2n foL
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