generate AM wave Vm (t) = Vm Sin (t), the AM Bandwidth is equal to 10 KHz, modulation index m = 0.6 and the spectrum frequency for AM is shown figure: -100-5fm -100 -100+5fm 100-5fm 100 100+5fm KHZ 1- determine Wc, Wm, fm, f 2- draw the AM wave in time domain 3. determine Vm. Vc. +-determine the power at carrier of the antenna resistance one ohm (1 Q) 5- Write the AM equation with all values.
generate AM wave Vm (t) = Vm Sin (t), the AM Bandwidth is equal to 10 KHz, modulation index m = 0.6 and the spectrum frequency for AM is shown figure: -100-5fm -100 -100+5fm 100-5fm 100 100+5fm KHZ 1- determine Wc, Wm, fm, f 2- draw the AM wave in time domain 3. determine Vm. Vc. +-determine the power at carrier of the antenna resistance one ohm (1 Q) 5- Write the AM equation with all values.
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:If the carrier signal is Ve (t) = Ve Sin (Wst). And the information signal is used to
generate AM wave Vm (t) = Vm Sin (t), the AM Bandwidth is equal to 10 KHz,
modulation indexm = 0.6 and the spectrum frequency for AM is shown figure:
4
4
-100-5fm -100 -100+5fm
100-5fm 100 100+5fm
KHZ
1- determine Wc., Wm, fm, fe
2- draw the AM wave in time domain
3. determine Vm. Vc.
4-determine the power at carrier of the antenna resistance one ohm (1 2)
5- Write the AM equation with all values.
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