Problem 1: In a broadcasting communication system, the transmitter power P, is so KW, the channel attenuation is 80 dB (the attenuation in dB between P; and the received signal power Pais computed as 10lo9,0(Pr/Pa)), and the noise power spectral density is 10-11 WHz. The message signal has a bandwidth W = 100KH. I) Find the prodetection signal-to-noise ratio for the cases when the modulations are DSB-SC, DSB-LC and SSB, respectively. 2) Find the output signal-to-noise ratio (), if the modulation is DSB. 3) Find the output signal-to-noise ratio (). if the modulation is SSB. 4) Find the output signal-to-noise ratio E), if the modulation is DSB-LC (assume coherent detector is used in demodulation) with a modulation index 0.8

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Problem 1: In a broadcasting communication system, the transmitter power P, is 80 KW, the channel attenuation is 80 dB (the attenuation in dB between Pr and the received signal power Pgis computed as 10log,o(Pr/Pa)), and the noise power spectral density is 10-11 W/Hz. The message signal has a bandwidth W = 100KHZ. 1) Find the predetection signal-to-noise ratio (), for the cases when the modulations are DSB-SC, DSB-LC and SSB, respectively. 2) Find the output signal-to-noise ratio (), if the modulation is DSB. 3) Find the output signal-to-noise ratio () if the modulation is SSB. 4) Find the output signal-to-noise ratio A if the modulation is DSB-LC (assume coherent detector is used in demodulation) with a modulation index 0.8. Problem 2: Based on the figure below, which represents the spectrum of a DSB-LC signal, find the following. 4n s00 900 1000 100 1200 (a) What is the carrier and message signal frequencies in rad/sec. 1200 -1100 -1000 s00 400 (b) Find the value of modulation index. (c) What is the message signal m/t). (d) Calculate the average power for both the carrier (P.) and side bands (P.). (e) Find the modulation efficiency (u)