Given the following message, m(t), carrier, c(t), and Kvco=4500(Hz/v), determine the FM modulated signal equation and FM index. m(t)=2cos(2π3500t), c(t)=4cos(2π5MHzt). With explain a. s(t)=2cos(2π5E6t + 1.56sin(2π3500t)), β=1.56 b. s(t)=2cos(2π3500t + 1.56sin(2π5E6t)), β=1.56 c. s(t)=4cos(2π5E6t + 2.57sin(2π3500t)), β=2.57 d. s(t)=4cos(2π3500t + 2.57sin(2π5MHz*t)), β=2.57
Given the following message, m(t), carrier, c(t), and Kvco=4500(Hz/v), determine the FM modulated signal equation and FM index. m(t)=2cos(2π3500t), c(t)=4cos(2π5MHzt). With explain a. s(t)=2cos(2π5E6t + 1.56sin(2π3500t)), β=1.56 b. s(t)=2cos(2π3500t + 1.56sin(2π5E6t)), β=1.56 c. s(t)=4cos(2π5E6t + 2.57sin(2π3500t)), β=2.57 d. s(t)=4cos(2π3500t + 2.57sin(2π5MHz*t)), β=2.57
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
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Given the following message, m(t), carrier, c(t), and Kvco=4500(Hz/v), determine the FM modulated signal equation and FM index. m(t)=2cos(2π3500t), c(t)=4cos(2π5MHzt). With explain
a. s(t)=2cos(2π5E6t + 1.56sin(2π3500t)), β=1.56
b. s(t)=2cos(2π3500t + 1.56sin(2π5E6t)), β=1.56
c. s(t)=4cos(2π5E6t + 2.57sin(2π3500t)), β=2.57
d. s(t)=4cos(2π3500t + 2.57sin(2π5MHz*t)), β=2.57
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