You are given a dual-mixer AM demodulator as designed below: x(t) z(t) LPF ()' cos(mt) Σ y(t) AM y(t), f(t), LPF ()' sin(@t) The blocks immediately following the low-pass filters (LPF) are squaring components and the block following the summing node is a square root component (with only the positive root being selected). Given an input AM signal of the form, ØAM (t) = [A. + m(t)]cos (w.t + 0) Find:
You are given a dual-mixer AM demodulator as designed below: x(t) z(t) LPF ()' cos(mt) Σ y(t) AM y(t), f(t), LPF ()' sin(@t) The blocks immediately following the low-pass filters (LPF) are squaring components and the block following the summing node is a square root component (with only the positive root being selected). Given an input AM signal of the form, ØAM (t) = [A. + m(t)]cos (w.t + 0) Find:
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![You are given a dual-mixer AM demodulator as designed below:
x(t)
z(t)
LPF
cos(o,t)
y(t)
am(t)
y(t)
f(t)
LPF
sin(@ t)
The blocks immediately following the low-pass filters (LPF) are squaring
components and the block following the summing node is a square root component
(with only the positive root being selected). Given an input AM signal of the form,
ØAM (t) = [A. + m(t)]cos (wet + 0)
Find:](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F1ac7ee54-b437-493c-b984-9d5d5d4068d3%2Fb8140019-fd4b-42c0-b537-5cfe9dd659c4%2Ffme0rbo_processed.png&w=3840&q=75)
Transcribed Image Text:You are given a dual-mixer AM demodulator as designed below:
x(t)
z(t)
LPF
cos(o,t)
y(t)
am(t)
y(t)
f(t)
LPF
sin(@ t)
The blocks immediately following the low-pass filters (LPF) are squaring
components and the block following the summing node is a square root component
(with only the positive root being selected). Given an input AM signal of the form,
ØAM (t) = [A. + m(t)]cos (wet + 0)
Find:
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