Consider a standard system shown below consisting of a C/D converter, a discrete-time system, and a D/C converter. Suppose that the Fourier transform X,(jN) of x, (1) obeys for |2|2 27.500, and that the discrete-time system is squarer, i.e. y[n] =x°[n]. What is the largest value of T such that y, (1) = x²(1)? xe(t) a[n] y[n] Ye(t) C/D y = 2? D/C
Consider a standard system shown below consisting of a C/D converter, a discrete-time system, and a D/C converter. Suppose that the Fourier transform X,(jN) of x, (1) obeys for |2|2 27.500, and that the discrete-time system is squarer, i.e. y[n] =x°[n]. What is the largest value of T such that y, (1) = x²(1)? xe(t) a[n] y[n] Ye(t) C/D y = 2? D/C
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![Consider a standard system shown below consisting of a C/D converter, a discrete-time system, and
a D/C converter. Suppose that the Fourier transform X_(jN) of x, (1) obeys for 22 2.500, and
that the discrete-time system is squarer, i.e. y[n] =x*[n]. What is the largest value of T such
that y,(1) = x²(1)?
xe(t)
[n]
y[n]
Ye(t)
C/D
y = x2
D/C](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F298af9f6-6f2a-447c-b570-07155c6e82cb%2Fd9baa4af-2e56-415f-bda6-ea7a445a7aa1%2F4kqrp35_processed.png&w=3840&q=75)
Transcribed Image Text:Consider a standard system shown below consisting of a C/D converter, a discrete-time system, and
a D/C converter. Suppose that the Fourier transform X_(jN) of x, (1) obeys for 22 2.500, and
that the discrete-time system is squarer, i.e. y[n] =x*[n]. What is the largest value of T such
that y,(1) = x²(1)?
xe(t)
[n]
y[n]
Ye(t)
C/D
y = x2
D/C
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