1.

In the equation SQNR = 6.02b + 16.81 – \(20log_{10} ⁡\frac{R}{σ_x}\), for R = 6σx the equation becomes?(a) SQNR = 6.02b-1.25 dB(b) SQNR = 6.87b-1.55 dB(c) SQNR = 6.02b+1.25 dB(d) SQNR = 6.87b+1.25 dBI got this question in examination.This interesting question is from Analysis of Quantization Errors in portion Discrete Time Systems Implementation of Digital Signal Processing

Answer»

Correct option is (c) SQNR = 6.02b+1.25 dB

The explanation: For example, if we assume that X(n) is Gaussian distributed and the RANGE o f the quantizer extends from -3σx to 3σx (i.e., R = 6σx), then less than 3 out o f every 1000 input SIGNAL amplitudes would result in an overload on the average. For R = 6σx, then the equation becomes

SQNR = 6.02b+1.25 dB.



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