The analog signal TU x(t) = 2sin(1000πt) — sin (2000nt + is applied to an analog-to-digital converter (ADC) module for converting the signal to digital format. The ADC has 3 bits quantizer with ± 3Vp range. i. Produce the first EIGHT (8) sampled signals when the sampling frequency is 12.5 kHZ ii. Calculate the quantized signal and encoded digital signal to represent the sampled signal obtained in (b) (i) using quantization by rounding. iii. Compute the quantization signal to noise ratio (SNR).
The analog signal TU x(t) = 2sin(1000πt) — sin (2000nt + is applied to an analog-to-digital converter (ADC) module for converting the signal to digital format. The ADC has 3 bits quantizer with ± 3Vp range. i. Produce the first EIGHT (8) sampled signals when the sampling frequency is 12.5 kHZ ii. Calculate the quantized signal and encoded digital signal to represent the sampled signal obtained in (b) (i) using quantization by rounding. iii. Compute the quantization signal to noise ratio (SNR).
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Author:Robert L. Boylestad
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digital signal prossesing
Transcribed Image Text:The analog signal
x(t) =
2sin(1000nt) — sin (2000nt + +7)
2
is applied to an analog-to-digital converter (ADC) module for
converting the signal to digital format. The ADC has 3 bits quantizer
with ± 3Vp range.
i. Produce the first EIGHT (8) sampled signals when the
sampling frequency is 12.5 kHZ
ii.
Calculate the quantized signal and encoded digital signal to
represent the sampled signal obtained in (b) (i) using
quantization by rounding.
iii. Compute the quantization signal to noise ratio (SNR).
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