Consider the QAM signal: m(t) = m1(t) cos(wt) + ma(t) sin(wt) with the carrier frequency w being much higher than the bandwidths of m(t) and ma(t). The in-phase part, m1(t) is recovered by multiplying the signal, m(t), with a frequency- imperfect carrier c(t) = cos(w+ dw)t and passing through a low-pass filter. Find the recovered signal. 1 zm(t) cos dut + ma(t) sin durt 1 b. zma(t) cos dut +m(t) sin dut 1 zmalt) cos but -m() sin dut с. Swt d. None
Consider the QAM signal: m(t) = m1(t) cos(wt) + ma(t) sin(wt) with the carrier frequency w being much higher than the bandwidths of m(t) and ma(t). The in-phase part, m1(t) is recovered by multiplying the signal, m(t), with a frequency- imperfect carrier c(t) = cos(w+ dw)t and passing through a low-pass filter. Find the recovered signal. 1 zm(t) cos dut + ma(t) sin durt 1 b. zma(t) cos dut +m(t) sin dut 1 zmalt) cos but -m() sin dut с. Swt d. None
Introductory Circuit Analysis (13th Edition)
13th Edition
ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
Chapter1: Introduction
Section: Chapter Questions
Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...
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