Question 1 (a) A series RLC tuning circuit is excited at its resonant frequency of 50 MHz by 10V peak amplitude. The maximum current passing through the circuit is 10 mA. i. Plot the RLC circuit diagram with proper components values to operate at given resonant frequency.
Question 1 (a) A series RLC tuning circuit is excited at its resonant frequency of 50 MHz by 10V peak amplitude. The maximum current passing through the circuit is 10 mA. i. Plot the RLC circuit diagram with proper components values to operate at given resonant frequency.
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![Question 1
(a) A series RLC tuning circuit is excited at its resonant frequency of 50 MHz by 10V peak
amplitude. The maximum current passing through the circuit is 10 mA.
L. Plot the RLC circuit diagram with proper components values to operate at given
resonant frequency.
ii. Find the circuits quality factor and bandwidth.
iii.
iv.
What would be the current / passing through the circuit if the input frequency
was 30MHz?
Calculate the change in quality factor Q if the coil internal resistance is reduced
by a factor of 10. What effect would that have on the Bandwidth?](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fef95746a-567d-4706-be3f-534f7eabc937%2F4d0e996c-352e-4524-95b4-d3963721c1bc%2F6yy88x2_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Question 1
(a) A series RLC tuning circuit is excited at its resonant frequency of 50 MHz by 10V peak
amplitude. The maximum current passing through the circuit is 10 mA.
L. Plot the RLC circuit diagram with proper components values to operate at given
resonant frequency.
ii. Find the circuits quality factor and bandwidth.
iii.
iv.
What would be the current / passing through the circuit if the input frequency
was 30MHz?
Calculate the change in quality factor Q if the coil internal resistance is reduced
by a factor of 10. What effect would that have on the Bandwidth?
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