Two LTI systems that are connected in parallel are specified by the following difference equations: S : Y1 [n] = x1[n] + 2¤1[n – 1] + 3x1[n – 3] S2 : Y2 [n] = x2[n] – 2x2[n – 3] – x2[n – 4] %3D - | | One difference equation that defines the overall system in terms of input æ[n] and output y[n] is given by:
Two LTI systems that are connected in parallel are specified by the following difference equations: S : Y1 [n] = x1[n] + 2¤1[n – 1] + 3x1[n – 3] S2 : Y2 [n] = x2[n] – 2x2[n – 3] – x2[n – 4] %3D - | | One difference equation that defines the overall system in terms of input æ[n] and output y[n] is given by:
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![Two LTI systems that are connected in parallel are specified by the following difference equations:
S : Y1 [n] = x1[n] + 2x1 [n – 1] + 3x1[n – 3]
S2 : Y2 [n] = x2[n] – 2x2[n – 3] – x2[n – 4]
One difference equation that defines the overall system in terms of input a n] and output y n] is given by:
Select one:
y[n] = 2x[n – 1] – 2¤[n – 2] – 2r[n – 3] – ¤[n – 4]
y[n] = x[n] + 2x[n – 1] – 20[n – 2) – 2r[n – 3] – 2r[n – 4] – 6z[n – 5] – 3r[n – 6]
|
O y[n] = 2x[n] + 2x[n – 1] + ¤[n – 2] – ¤[n – 3]
O y/n] = 2x[n] + 2x[n – 1] + ¤[n – 3] – e[n – 4]
O y(n] = 2x[n] + 2æ[n – 1] + æ[n – 3] – ¤[n – 5]](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F245da8b8-c018-48cc-b5f1-380e26f41ef7%2F728b3c70-2b7c-4acc-be71-89a9cf81250d%2Faj1myp6_processed.jpeg&w=3840&q=75)
Transcribed Image Text:Two LTI systems that are connected in parallel are specified by the following difference equations:
S : Y1 [n] = x1[n] + 2x1 [n – 1] + 3x1[n – 3]
S2 : Y2 [n] = x2[n] – 2x2[n – 3] – x2[n – 4]
One difference equation that defines the overall system in terms of input a n] and output y n] is given by:
Select one:
y[n] = 2x[n – 1] – 2¤[n – 2] – 2r[n – 3] – ¤[n – 4]
y[n] = x[n] + 2x[n – 1] – 20[n – 2) – 2r[n – 3] – 2r[n – 4] – 6z[n – 5] – 3r[n – 6]
|
O y[n] = 2x[n] + 2x[n – 1] + ¤[n – 2] – ¤[n – 3]
O y/n] = 2x[n] + 2x[n – 1] + ¤[n – 3] – e[n – 4]
O y(n] = 2x[n] + 2æ[n – 1] + æ[n – 3] – ¤[n – 5]
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