Q1- What are the differences between ideal and practical sampling.

Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
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Q1- What are the differences between ideal and practical sampling.
Q2- drive a formula for S/N of sinusoidal signal has been sampled and
quantized.
Q3- In a binary PCM system with uniform distribution signal, the average
output signal-to-quantization-noise ratio is to be held to a minimum of 45
dB. Determine the number of required quantized levels when using (M -
law).
Q4- Determine the number of required quantized levels when using (A -
law) in a binary PCM system with full-scale sinusoidal signal, the output
average signal-to-quantization-noise ratio is to be held to a minimum of
45dB.
Q5- By wave form and block diagram explain the generation of PAM, PPM
and PWM.
Q7- If an information signal m(t)=10cos (2000 7t t) has been sampled find
the Nyquist interval.
Q8- A binary channel with a bit rate R=50000 bits per second is available for
PCM voice transmission. Find the appropriate values of the sampling rate (
fs), the number of quantized levels( L), and the length of the code( n) for
the voice signal
09- drive a formula for S/N of uniform distribution has been sampled and
quantized.
Q10-what is the sampling in digital communication, drive a formula for
ideal sampling.
Q11- In a binary PCM system with full-scale sinusoidal signal, the output
average signal-to-quantization-noise ratio is to be held to a minimum of
Transcribed Image Text:Q1- What are the differences between ideal and practical sampling. Q2- drive a formula for S/N of sinusoidal signal has been sampled and quantized. Q3- In a binary PCM system with uniform distribution signal, the average output signal-to-quantization-noise ratio is to be held to a minimum of 45 dB. Determine the number of required quantized levels when using (M - law). Q4- Determine the number of required quantized levels when using (A - law) in a binary PCM system with full-scale sinusoidal signal, the output average signal-to-quantization-noise ratio is to be held to a minimum of 45dB. Q5- By wave form and block diagram explain the generation of PAM, PPM and PWM. Q7- If an information signal m(t)=10cos (2000 7t t) has been sampled find the Nyquist interval. Q8- A binary channel with a bit rate R=50000 bits per second is available for PCM voice transmission. Find the appropriate values of the sampling rate ( fs), the number of quantized levels( L), and the length of the code( n) for the voice signal 09- drive a formula for S/N of uniform distribution has been sampled and quantized. Q10-what is the sampling in digital communication, drive a formula for ideal sampling. Q11- In a binary PCM system with full-scale sinusoidal signal, the output average signal-to-quantization-noise ratio is to be held to a minimum of
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