2.15. A signal in the frequency range 300 to 3300 Hz is limited to a peak-to-peak swing of 10 V. It is sampled at 8000 samples/s and the samples are quantized to 64 evenly spaced levels. Calculate and compare the bandwidths and ratio of peak signal power to rms quantization noise if the quantized samples are transmitted either as binary pulses or as four-level pulses. Assume that the system bandwidth is defined by the main spectral lobe of the signal.
2.15. A signal in the frequency range 300 to 3300 Hz is limited to a peak-to-peak swing of 10 V. It is sampled at 8000 samples/s and the samples are quantized to 64 evenly spaced levels. Calculate and compare the bandwidths and ratio of peak signal power to rms quantization noise if the quantized samples are transmitted either as binary pulses or as four-level pulses. Assume that the system bandwidth is defined by the main spectral lobe of the signal.
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Author:Robert L. Boylestad
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Transcribed Image Text:2.15. A signal in the frequency range 300 to 3300 Hz is limited to a peak-to-peak swing of
10 V. It is sampled at 8000 samples/s and the samples are quantized to 64 evenly
spaced levels. Calculate and compare the bandwidths and ratio of peak signal power
to rms quantization noise if the quantized samples are transmitted either as binary
pulses or as four-level pulses. Assume that the system bandwidth is defined by the
main spectral lobe of the signal.
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