Design a bandstop filter using the quadrature method satisfying the following specifications: [begin{aligned}A_{mathrm{p}} & =0.2 mathrm{~dB} A_{mathrm{r}}
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Design a bandstop filter using the quadrature method satisfying the following specifications:
\[\begin{aligned}A_{\mathrm{p}} & =0.2 \mathrm{~dB} \\A_{\mathrm{r}} & =60 \mathrm{~dB} \\\omega_{\mathrm{p}_{1}} & =0.33 \pi \mathrm{rad} / \mathrm{sample} \\\omega_{\mathrm{r}_{1}} & =0.34 \pi \mathrm{rad} / \text { sample } \\\omega_{\mathrm{r}_{2}} & =0.46 \pi \mathrm{rad} / \text { sample } \\\omega_{\mathrm{p}_{2}} & =0.47 \pi \mathrm{rad} / \text { sample. }\end{aligned}\]
Compare your results with the standard minimax filter.
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Related Book For
Digital Signal Processing System Analysis And Design
ISBN: 9780521887755
2nd Edition
Authors: Paulo S. R. Diniz, Eduardo A. B. Da Silva , Sergio L. Netto
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