B) Repeat part (a) if the reeelvel Wlll 10-7e-lala W/Hz, where 5.6.1 A noise waveform with a powe...
b) Repeat part (a) if the reeelvel Wlll 10-7e-lala W/Hz, where 5.6.1 A noise waveform with a power spectral density S,(a) a 2T x 10'/sec, is passed through an ideal BPF with unity gain, unity resistane levels, and a bandwidth of 200 kHz centered at 10 MHz. a) Determine the mean-square values of the in-phase and quadrature components of the bandpass time representation given in Eq. (5.59). b) Repeat part (a) assuming that S,() is constant (at the center fre c) Repeat parts (a) and (b) for a bandwidth of 2 MHz. equency value across the bandwidth of the filter.
b) Repeat part (a) if the reeelvel Wlll 10-7e-lala W/Hz, where 5.6.1 A noise waveform with a power spectral density S,(a) a 2T x 10'/sec, is passed through an ideal BPF with unity gain, unity resistane levels, and a bandwidth of 200 kHz centered at 10 MHz. a) Determine the mean-square values of the in-phase and quadrature components of the bandpass time representation given in Eq. (5.59). b) Repeat part (a) assuming that S,() is constant (at the center fre c) Repeat parts (a) and (b) for a bandwidth of 2 MHz. equency value across the bandwidth of the filter.