A signal m(t) band-limited to 9 kHz is sampled at a rate of 33.33% higher than the Nyquist rate. The maximum acceptable error in the sample amplitude (the maximum quantization error) is 0.5% of the peak amplitude mp. The quantized samples are binary coded. Find the minimum bandwidth of a channel required to transmit the encoded binary signal. If 24 such signals are time-division- multiplexed, determine the minimum transmission bandwidth required to transmit the multiplexed signal.

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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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A signal m(t) band-limited to 9 kHz is sampled at a rate of 33.33% higher than the Nyquist rate. The
maximum acceptable error in the sample amplitude (the maximum quantization error) is 0.5% of the
peak amplitude mp. The quantized samples are binary coded. Find the minimum bandwidth of a
channel required to transmit the encoded binary signal. If 24 such signals are time-division-
multiplexed, determine the minimum transmission bandwidth required to transmit the multiplexed
signal.
Transcribed Image Text:A signal m(t) band-limited to 9 kHz is sampled at a rate of 33.33% higher than the Nyquist rate. The maximum acceptable error in the sample amplitude (the maximum quantization error) is 0.5% of the peak amplitude mp. The quantized samples are binary coded. Find the minimum bandwidth of a channel required to transmit the encoded binary signal. If 24 such signals are time-division- multiplexed, determine the minimum transmission bandwidth required to transmit the multiplexed signal.
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