11-1) similar to Lathi & Ding, Prob. P.6.7-5 Data at a bit rate Rb must be transmitted using either binary NRZ polar signaling or 16-ary PAM NRZ polar signaling. (a) By what factor will the symbol rate be reduced in the 16-PAM case? (b) By what factor will bandwidth required from the (lowpass) channel be reduced in the 16-PAM case? (c) Assuming the minimum spacing between pulse levels must be the same in both cases, by what factor will the average power be increased in the 16-PAM case? [Hint: take the pulse amplitudes to be ±A in the binary case, and ±A, ±3A, ±5A,..., ±154, and recall that scaling pulse amplitude by a factor k scales the pulse energy by a factor R². Assume that the data is random, so that all 16 levels are equally likely, and that the same pulse shape is used in both cases.] Warning: Solutions to the textbook problem that are posted online are mostly wrong. Work it out for yourself.
11-1) similar to Lathi & Ding, Prob. P.6.7-5 Data at a bit rate Rb must be transmitted using either binary NRZ polar signaling or 16-ary PAM NRZ polar signaling. (a) By what factor will the symbol rate be reduced in the 16-PAM case? (b) By what factor will bandwidth required from the (lowpass) channel be reduced in the 16-PAM case? (c) Assuming the minimum spacing between pulse levels must be the same in both cases, by what factor will the average power be increased in the 16-PAM case? [Hint: take the pulse amplitudes to be ±A in the binary case, and ±A, ±3A, ±5A,..., ±154, and recall that scaling pulse amplitude by a factor k scales the pulse energy by a factor R². Assume that the data is random, so that all 16 levels are equally likely, and that the same pulse shape is used in both cases.] Warning: Solutions to the textbook problem that are posted online are mostly wrong. Work it out for yourself.
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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![11-1) similar to Lathi & Ding, Prob. P.6.7-5
Data at a bit rate Rb must be transmitted using either binary NRZ polar signaling or 16-ary PAM NRZ polar signaling.
(a) By what factor will the symbol rate be reduced in the 16-PAM case?
(b) By what factor will bandwidth required from the (lowpass) channel be reduced in the 16-PAM case?
(c) Assuming the minimum spacing between pulse levels must be the same in both cases, by what factor will the
average power be increased in the 16-PAM case? [Hint: take the pulse amplitudes to be ±A in the binary case, and
±A, ±3A, ±5A,..., ±154, and recall that scaling pulse amplitude by a factor k scales the pulse energy by a factor R².
Assume that the data is random, so that all 16 levels are equally likely, and that the same pulse shape is used in both
cases.]
Warning: Solutions to the textbook problem that are posted online are mostly wrong. Work it out for yourself.](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fc9b1561a-d10c-4466-912a-7fdb3d6b573a%2F6ee2cace-3c1a-4e13-b61c-60e8d92268cd%2Fljr8not_processed.jpeg&w=3840&q=75)
Transcribed Image Text:11-1) similar to Lathi & Ding, Prob. P.6.7-5
Data at a bit rate Rb must be transmitted using either binary NRZ polar signaling or 16-ary PAM NRZ polar signaling.
(a) By what factor will the symbol rate be reduced in the 16-PAM case?
(b) By what factor will bandwidth required from the (lowpass) channel be reduced in the 16-PAM case?
(c) Assuming the minimum spacing between pulse levels must be the same in both cases, by what factor will the
average power be increased in the 16-PAM case? [Hint: take the pulse amplitudes to be ±A in the binary case, and
±A, ±3A, ±5A,..., ±154, and recall that scaling pulse amplitude by a factor k scales the pulse energy by a factor R².
Assume that the data is random, so that all 16 levels are equally likely, and that the same pulse shape is used in both
cases.]
Warning: Solutions to the textbook problem that are posted online are mostly wrong. Work it out for yourself.
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