Question 1.1.8: Consider the signal s(t) = m(t) cos (2π fct) + mˆ (t) sin (2...

Gate Graduate Aptitude Test in Engineering Electronics & Communication Engineering 2020 [EXP-722]

Consider the signal $s(t)=m(t) \cos \left(2 \pi f_{c} t\right)+\hat{m}(t)\sin \left(2 \pi \cdot f_{c} \cdot t\right)$ where $\hat{m}(t)$ denotes the Hilbert transform of m(t) and the bandwidth of m(t) is very small compared to $f_{c} .$ . The signal s(t) is a

(A) high-pass signal

(B) low-pass signal

(C) band-pass signal

(D) double sideband suppressed carrier signal

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