4. (8 points) A noise signal ni(t) with power spectrum density (PSD) S () = k...
Q.2 ICO2]10 Marks] The signal g(t) forms the input to the LPF circuit shown in the figure, where R l,and y(Dis the output. If the power spectral density (PSD) of the signal ge) is (a) The autocorrelation of g(t) (b) The 3-dB bandwidth of the LPF (c) The power of g(t) and y(t) (d) Based on your answers above, will it be better if the signal has more or less bandwith? (e) If a white noise of PSD No/2 is...
8 8.6-4 For a DSB-SC system with a channel noise PSD of Sn() 10-12 and a baseband signal of bandwidth 5 kHz, the receiver output SNR is required to be at least 47 dB. The receiver is as shown in Fig. 8.30. (a) What must be the signal power Si received at the receiver input? (b) What is the receiver output noise power No? (c) What is the minimum transmitted power Sr if the channel transfer function is He)10-3 over...
An input noise process n;(t) having a PSD that is constant between 200 and 700 rad/s (the power density is 106W/Hz in the passband 200 to 700 rad/s) is the input to a lowpass filter whose bandwidth is 500 rad/sec and gain is 1. Do not forget that the spectrum and the frequency response are symmetrical between-oo and +00. Sketch the PSD of noſt), the noise process at the output of the lowpass filter. Show all relevant details Find the...
Answer quickly An input noise process n;(t) having a PSD that is constant between 200 and 700 rad/s (the power density is 10-W/Hz in the passband 200 to 700 rad/s) is the input to a lowpass filter whose bandwidth is 500 rad/sec and gain is 1. Do not forget that the spectrum and the frequency response are symmetrical between-co and +00. Sketch the PSD of noſt), the noise process at the output of the lowpass filter. Show all relevant details...
Will rate, answer quickly An input noise process n;(t) having a PSD that is constant between 200 and 700 rad/s (the power density is 10-W/Hz in the passband 200 to 700 rad/s) is the input to a lowpass filter whose bandwidth is 500 rad/sec and gain is 1. Do not forget that the spectrum and the frequency response are symmetrical between-co and +00. Sketch the PSD of noſt), the noise process at the output of the lowpass filter. Show all...
Find the power of the signal conponent of a P is the Fourice t of s,(0)(2.5 points) edf,where S.f density of pu nose (2.5 points) . Consider the RL circuit shown below. Assume that R-10 and L-IN. Hint : Use Parseval's relationship if necessary i(t) e. What is the input signal-o-oise (SNR,ratio, defined as: SNR, 1olog..C)as polnts d. Find the output power spectral density of noise N,00 N,( HP, where HU) is the frequency response of the circuit, and N,(n)...
Please show all work, will rate immediately ?? An Input noise Process nilt) having a PSD that is constant between 200 and 700 rads (the power density is 100 W/Hz) is the input to a lowpass filter whose bandwidth is 500 rada and gain is l. a) Sketch the PSD of no (+), the noise process at the output of the lowpass filter b) Find the average power of ni(t) and nolt)
Consider additive white Gaussian noise with a double-sided noise power spectral density (PSD) 12-90 dBm/Hz 1E-12 W/Hz. This noise corrupts a baseband polar NRZ signal with rectangular pulses, like that 1 mV and the pulse duration is Tb such that the symbol rate is Rb 1/Tb. Since this is binary signaling, the symbol rate equals the bit rate of the incoming baseband pulse train: B Rt. The signal is then sampled at the center of the noisy shown in the...
Q1. A DSB-SC signal is transmitted over a noisy channel with power spectral density of noise given as, 0, otherwise with B-200 kHz and N 10W Hz. The message bandwidth is 10 kHz and its average power is 10 W. Assume A,-1, 100kHz, and the channel attenuates signal power by a factor of 1000 (-30 dB). Assume that a suitable band-pass filter is used at the receiver to limit out-of-band noise. (a) Determine the average signal power at the receiver...
Power Spectral Density of Signal A signal s(t) can be expressed as the following equation: L-1 where L is a positive integer. {An}n=0 are independent and identically distributed (i.i.d.) discrete random variables. The probability mass function (PMF) of An is An() 0 otherwise, where A is a positive constant in volt. To is a uniformly distributed random variable with probability density function (PDF) defined by 0. otherwise. L-1 To and {An}n=d are independent. The signal p(t) is a pulse and...