Type your question here An Am communication system with m = 0.707 operates in the presence of white noise with two- sided power spectral density 0.25 x. 10-14 watt/Hz, and with total path losses of 90 dB. The input bandwidth is 10 kHz. Calculate the minimum required carrier amplitude of the transmitter for al0KHz sinusoidal input and 40 dB output SNR. Assume that resistance level is one ohm. Q27: An Am communication system with m = 0.707 operates in the presence ofwhite noise with two- sided power spectral density 0.25 x. 10-14with total path losses of 90 dB. The input bandwidth is 10 kHz. Calculate theminimum required carrier amplitude of the transmitter for a10KHz sinusoidalinput and 40 dB output SNR. Assume that resistance level is one ohm.watt/Hz, andAns: 63.254 volt.

Given : Mass m = 0.707 power spectral density d = 0.25 x 10-14 watt/Hz total path loss = 90 dB The…

Type your question here An Am communication system with m = 0.707 operates in the presence of white noise with two- sided power spectral density 0.25 x. 10-14 watt/Hz, and with total path losses of 90 dB. The input bandwidth is 10 kHz. Calculate the minimum required carrier amplitude of the transmitter for al0KHz sinusoidal input and 40 dB output SNR. Assume that resistance level is one ohm.

Type your question here An Am communication system with m = 0.707 operates in the presence of white noise with two- sided power spectral density 0.25 x. 10-14 watt/Hz, and with total path losses of 90 dB. The input bandwidth is 10 kHz. Calculate the minimum required carrier amplitude of the transmitter for al0KHz sinusoidal input and 40 dB output SNR. Assume that resistance level is one ohm.

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Question

Q27: An Am communication system with m = 0.707 operates in the presence of
white noise with two- sided power spectral density 0.25 x. 10-14
with total path losses of 90 dB. The input bandwidth is 10 kHz. Calculate the
minimum required carrier amplitude of the transmitter for a10KHz sinusoidal
input and 40 dB output SNR. Assume that resistance level is one ohm.
watt/Hz, and
Ans: 63.254 volt.

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