Q10: The FM signal (in volts): Ø(t) = 20cos(2n10’t + 10 sin 2n10³ t) is present across a 502 resistive load. (a)What is the total average power? (b) What percentage of this power is at 10 MHz ? (c) Find the peak frequency deviation. (d) Determine the approximate bandwidth of ø(t) using Carson's rule. (e) Can you determine from ø(t) wether this is FM or PM? Explain. Ans: (a) 4 watt (b) 6.25% (c) 10 kHz (d) 22 kHz.

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Q10: The FM signal (in volts): Ø(t) = 20cos(2n10't + 10 sin 2m103 t) is
%3D
present across a 502 resistive load.
(a)What is the total average power?
(b) What percentage of this power is at 10 MHz ?
(c) Find the peak frequency deviation.
(d) Determine the approximate bandwidth of ø(t) using Carson's rule.
(e) Can you determine from ø(t) wether this is FM or PM? Explain.
Ans: (a) 4 watt (b) 6.25% (c) 10 kHz (d) 22 kHz.
Transcribed Image Text:Q10: The FM signal (in volts): Ø(t) = 20cos(2n10't + 10 sin 2m103 t) is %3D present across a 502 resistive load. (a)What is the total average power? (b) What percentage of this power is at 10 MHz ? (c) Find the peak frequency deviation. (d) Determine the approximate bandwidth of ø(t) using Carson's rule. (e) Can you determine from ø(t) wether this is FM or PM? Explain. Ans: (a) 4 watt (b) 6.25% (c) 10 kHz (d) 22 kHz.
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