Q. Suppose that you have an angle modulation system with an input signal ) as a triangle wave of fundamental frequency 5 kHz and its most power is concentrated in the first third harmonics, the maximum and minimum voltage are I and -1, respectively. where one period equation of the input is 10°t-1 x(e) = {2- 1 0

Q. Suppose that you have an angle modulaton system with an input signal £01) s wiangle wave of fundamental frequency 5 kiz and its most power is concentrated in the frst third harmonics, the masimum and minimu voltage ae | and -1 espectively. where one period equation of theinput s o[BIl 0

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Q. Suppose that you have an angle modulation system with an input signal x) as a triangle wave of fundamental frequency 5 kHz and its most power is concentrated in the first third harmonics, the maximum and minimum voltage are I and -1, respectively, where one period equation of the input is x(t) = {2. 10°t -1 O<t<i/2 {-2. 10*t +3 T/2<t<T If carrier frequency f. = 10° Hz, Kf = 2000m, and Kp = T. Find the following: 1-What is the third harmonic frequency of the input signal? 2- Sketch the waveform of the input signal in the time domain. 3- Find the frequency deviation in case of FM and PM modulation. 4-What is the minimum and maximum frequency in the modulated signal for FM and PM? S-Estimate the bandwidth of the modulated signal for FM and PM. 6-Is the modulated FM signal is narow band or wideband? Why? 7-Sketch the waveform of the modulated signal for FM and PM. 8- How can you generate FM for this system using indirect method? Suggest a method for that and discuss the advantages and disadvantages of your suggestion. 9-Propose any receiver (demodulator) system to receive the modulated signal in case of FM. [(Hint: your proposed system consists only a block diagram and the required equations].