3.7 Consider a PAM wave transmitted through a channel with white Gaussian noise and minimum bandwidth BT 1/2T, where T, is the sampling period. The noise is of zero mean and power spectral density No/2. The PAM signal uses a standard pulse g(t) with its Fourier transform defined by 1 Is|< Br Ifl > Br G(f) 2BT By considering a full-load sinusoidal modulating wave, show that PAM and baseband- signal transmission have equal signal-to-noise ratios for the same average transmited power. Jtiplexed The
3.7 Consider a PAM wave transmitted through a channel with white Gaussian noise and minimum bandwidth BT 1/2T, where T, is the sampling period. The noise is of zero mean and power spectral density No/2. The PAM signal uses a standard pulse g(t) with its Fourier transform defined by 1 Is|< Br Ifl > Br G(f) 2BT By considering a full-load sinusoidal modulating wave, show that PAM and baseband- signal transmission have equal signal-to-noise ratios for the same average transmited power. Jtiplexed The
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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Transcribed Image Text:3.7 Consider a PAM wave transmitted through a channel with white Gaussian noise and
minimum bandwidth BT 1/2T, where T, is the sampling period. The noise is of zero
mean and power spectral density No/2. The PAM signal uses a standard pulse g(t) with
its Fourier transform defined by
1
Is|< Br
Ifl > Br
G(f)
2BT
By considering a full-load sinusoidal modulating wave, show that PAM and baseband-
signal transmission have equal signal-to-noise ratios for the same average transmited
power.
Jtiplexed The
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