Problem 2: For the following frequency modulated signal Ø (t) = cos(200rt) cos(5sin2nt) + 2 sin(100nt) sin(5 sin(2nt)) cos(100nt) a) Show that Ø (t) can be rewritten in the form (t) = cos(200nt – 5sin2nt) b) Find the instantaneous frequency in Hz, and the corresponding bandwidth in Hz using Carson's rule. c) Calculate the maximum frequency deviation.
Problem 2: For the following frequency modulated signal Ø (t) = cos(200rt) cos(5sin2nt) + 2 sin(100nt) sin(5 sin(2nt)) cos(100nt) a) Show that Ø (t) can be rewritten in the form (t) = cos(200nt – 5sin2nt) b) Find the instantaneous frequency in Hz, and the corresponding bandwidth in Hz using Carson's rule. c) Calculate the maximum frequency deviation.
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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Transcribed Image Text:Problem 2:
For the following frequency modulated signal
Ø (t) = cos(200zt) cos(5sin2nt) + 2 sin(100nt) sin(5 sin(2nt)) cos(100nt)
a) Show that 0 (t) can be rewritten in the form O (t) = cos(200nt – 5sin2nt)
b) Find the instantancous frequency in Hz, and the corresponding bandwidth in Hz
using Carson's rule.
c) Calculate the maximum frequency deviation.
Problem 3:
An EM
a sauare law
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