a. A Gaussian noise voltage with a mean value of 0 V has an RMS noise voltage of 25 mV. For what percentage of the time is the voltage between 0 V and -25 mV? b. For what percentage of the time will the noise voltage in (a) lie between 0 V and 50 mV? c. Using the graph in Book 1, p. 79, Figure 5.9, estimate the signal-to-noise ratio corresponding to a bit error probability of 1 bit in 107 bits in binary unipolar pulses with a decision level midway between the symbols. d. For a bit error probability of 1 bit in 10' bits, how many errors could be expected in 60 GB of data? (Take 1 GB to be 109 bytes.)
a. A Gaussian noise voltage with a mean value of 0 V has an RMS noise voltage of 25 mV. For what percentage of the time is the voltage between 0 V and -25 mV? b. For what percentage of the time will the noise voltage in (a) lie between 0 V and 50 mV? c. Using the graph in Book 1, p. 79, Figure 5.9, estimate the signal-to-noise ratio corresponding to a bit error probability of 1 bit in 107 bits in binary unipolar pulses with a decision level midway between the symbols. d. For a bit error probability of 1 bit in 10' bits, how many errors could be expected in 60 GB of data? (Take 1 GB to be 109 bytes.)
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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