For the system shown below: a) Find Vms of noise at system output. b) If f(t) = 5 cos 2000nt volt, find signal-to-thermal noise ratio at system input & output, to calculate noise power assume the following values of system bandwidth: 54 (CH 3) Noise By Dr. Hikmat Al-Shamary & Dr. Tariq M. Salman 1- Entire frequency band 1kQ 2kQ 2- -3dB bandwidth 3- Equivalent noise BW 4- BW=100 kHz. f(t) 1µf g(t)
For the system shown below: a) Find Vms of noise at system output. b) If f(t) = 5 cos 2000nt volt, find signal-to-thermal noise ratio at system input & output, to calculate noise power assume the following values of system bandwidth: 54 (CH 3) Noise By Dr. Hikmat Al-Shamary & Dr. Tariq M. Salman 1- Entire frequency band 1kQ 2kQ 2- -3dB bandwidth 3- Equivalent noise BW 4- BW=100 kHz. f(t) 1µf g(t)
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Type your question here For the system shown below:
a) Find Vrms of noise at system output.
b) If ?(?) = 5 cos 2000?? volt, find signal-to-thermal noise ratio at system
input & output, to calculate noise power assume the following values of
system bandwidth:
1- Entire frequency band
2- -3dB bandwidth
3- Equivalent noise BW
4- BW=100 kHz
Transcribed Image Text:For the system shown below:
a) Find Vrms of noise at system output.
b) If f(t) = 5 cos 2000nt volt, find signal-to-thermal noise ratio at system
input & output, to calculate noise power assume the following values of
system bandwidth:
54
(CH 3) Noise
By Dr. Hikmat Al-Shamary & Dr. Tariq M. Salman
1- Entire frequency band
1kQ
2kQ :
2- -3dB bandwidth
3- Equivalent noise BW
4- BW=100 kHz.
f(t)
1uf
g(t)
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