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displays the pole-zero plot of a system that has re 56-5 Figure second-order real causal LTID s Figure P5.6-5 Determine the five constants k bi b2 aj and a2 that specify the transfer

displays the pole-zero plot of a system that has re 5.6-5 Figure second-order real, causal LTID s Figure P5.6-5 (a) Determine the five constants k, bi, b2, aj, and a2 that specify the transfer function (b) Using the techniques of Sec. 5.6, accurately hand-sketch the system magnitude response lH[eill over the range (-π π) (c) A signal x(t) = cos(2πft) is sampled at a rate Fs 1 kHz and then input into the above LTID system to produce DT output ln]. Determine, if possible, the frequenoy or frequencies f that will produce zero output, yIn] 0 P5.6-3 displays the pole-zero plot of a system that has re 5.6-5 Figure second-order real, causal LTID s Figure P5.6-5 (a) Determine the five constants k, bi, b2, aj, and a2 that specify the transfer function (b) Using the techniques of Sec. 5.6, accurately hand-sketch the system magnitude response lH[eill over the range (-π π) (c) A signal x(t) = cos(2πft) is sampled at a rate Fs 1 kHz and then input into the above LTID system to produce DT output ln]. Determine, if possible, the frequenoy or frequencies f that will produce zero output, yIn] 0

Apr 27 2020 View more View Less

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