Q4.The transmitted message from Q3 is received at the receiver (Rx) to extract the message, where m(t) = cos (2n x 120t). Rx employs a square law demodulation with the characteristics of the square law device as y(t) = x2(t). Determine (a) y(t), (b) draw the block diagram of the demodulator with correct shape of HB (f), (c) determine m(t).

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**Q4.** The transmitted message from Q3 is received at the receiver (Rx) to extract the message, where \( m(t) = \cos(2 \pi \times 120t) \). Rx employs a square law demodulation with the characteristics of the square law device as \( y(t) = x^2(t) \). Determine:

(a) \( y(t) \),

(b) Draw the block diagram of the demodulator with the correct shape of \( H_B(f) \),

(c) Determine \( \hat{m}(t) \).
Transcribed Image Text:**Q4.** The transmitted message from Q3 is received at the receiver (Rx) to extract the message, where \( m(t) = \cos(2 \pi \times 120t) \). Rx employs a square law demodulation with the characteristics of the square law device as \( y(t) = x^2(t) \). Determine: (a) \( y(t) \), (b) Draw the block diagram of the demodulator with the correct shape of \( H_B(f) \), (c) Determine \( \hat{m}(t) \).
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