A receiver with a 100Ω input resistance operates at a temperature of 27◦C. The received signal...

The input to a receiver with a gain of 31 dB and bandwidth of 5MHz is...

The input to a receiver with a gain of 31 dB and bandwidth of 5MHz is terminated with a matched antenna. The noise out of the receiver is -2dBm. i. Find the receiver’s noise figure.    ii. If the effective area of the receiver antenna is doubled; how does this affect the Noise figure of the system?   

An earth station receiver has an effective noise temperature at its input (call it point A)...

An earth station receiver has an effective noise temperature at its input (call it point A) equal 30K. If an antenna of effective temperature of 50K is connected to the receiver via a lossy waveguide. Find the noise temperature at the point A (in K unit), if the wave guide has a loss of 2.5 dB. Consider T(0) = 290K.

Consider the Voyager spacecraft, transmit frequency 8.4 GHz, transmitter power PT= 21.3 W, transmitting antenna gain...

Consider the Voyager spacecraft, transmit frequency 8.4 GHz, transmitter power PT= 21.3 W, transmitting antenna gain GT is 6.5 x 104 W/W at a distance of 6.8 x 1011m from Jupiter to Earth. Both the Voyager and earth based antennas are parabolic dishes whose cross sectional area can be assumed equal to the effective antenna aperture. a) Calculate the Voyager antenna gain (dB) and diameter b) Calculate the receiver antenna gain (dB) with a dish diameter of 64m. c) Calculate...

A digital signal has four levels. How many bits are needed per level? Draw the digital...

A digital signal has four levels. How many bits are needed per level? Draw the digital signal assume the baud rate is 8 baud per second. Increasing the levels of a signal increases the probability of an error occurring, in other words it reduces the reliability of the system. Why and how can this be resolve? What determines how successful a receiver will be in interpreting an incoming signal? Spectrum of a channel between 5 MHz and 4 MHz; SNRdB...