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Question # B.4 An RF system having a RF-bandwidth of 1 MHz, has a front-end preamplifier of gain ...
Noise-related problems Question # B.4 An RF system having a RF-bandwidth of 1 MHz, has a front-end preamplifier of gain (A) equal to 20 dB and a noise-figure (NF) of 4 dB. The preamplifier is followed by a mixer stage with a NF 18 dB. Suppose the signal-to-noise ratio (SNR) at the mixer output is 30 dB, find the SNR at the preamplifier input. Hint: Use Friis formula: Answer hints: NF (Total) 4.96 dB)
12 oblem # 6 The front-endof has a a radio receiver has a preamplifier followed by a mixer stage. The mixer stage with lactorN2-100 and the pre amplifier has NF, 9 dB. The overall noise factor of the 11.04. Suppose a signal of power-level equal to 5 dBm is watts,h imput of the preamplifier. Determine the output power-level of the preamplifier in Useful hint-Friis formula: SOLUTION 12 oblem # 6 The front-endof has a a radio receiver has a preamplifier...
Question # B.5 (a) In a communication system, suppose the associated operating temperature is doubled. Then, what is the corresponding change in the system capacity (C), if the signal power-level at the input is kept constant? Is C a linear function of temperature? Justify (b) A mixer-stage in a radio receiver has a NF 20 dB and this mixer-stage is preceded by a preamplifier with a NF - 9 dB. The available power-gain ratio of the amplifier is equal to...
Question # B.5 signal power-level at the coresponding change in is signal power-level at the input is kept constant? Is C a linear function of temperature? Justify (a) In a communication system, suppose the associated operating temperature is doubled. Then, what is the corresponding change in the system capacity (C), if the (b) A mixer-stage in a radio receiver has a NF-20 dB and this mixer-stage is preceded by a preamplifier with a NF 9 dB. The available power-gain ratio...
Problem 3 A receiver has a bandwidth of 1 MHz and a noise figure of 10 dB. The receiver sensitivity is -90 dBm. The Boltzmann constant is k=1.38x10-23 Joule/deg K, and the room temperature is 300 deg Kelvin. a) What is the ratio of the SNR at the input to the receiver (computed over the bandwidth of interest) to the SNR at the output of the receiver? b) What is the noise power at output of the receiver? c) Find...
3. The noiseless amplifier below has a bandwidth of 1 MHz at a temperature of 0°C. If the signal noise radio is 66 dB at the output, find the signal input voltage in HV. vi o 15dB o Vo 12K
Question #2: Consider the wireless local area network (WLAN) receiver front-end shown below, where the bandwidth of the bandpass filter is 100 MHz centered at 2.4 GHz. If the system is at room temperature, find the noise figure of the overall system. What is the resulting signal-to-noise ratio at the output if the input signal power level is-90 dBm? la TLalSdB G-= 20dB Question #2: Consider the wireless local area network (WLAN) receiver front-end shown below, where the bandwidth of...
4) The average noise power per unit bandwidth measured at the front end of an AM receiver is 10-watt/Hz. The modulating signal is sinusoidal, with a carrier power of 80 watts and a sideband power of 10 watts per sideband. The message bandwidth is 4 kHz. a) Assuming the use of an envelope detector in the receiver, determine the output signal-to-noise ratio of the system. b) By how many decibels is this system inferior to a DSB-SC modulation system?
Complete the following table of link-budget analysis. The system bandwidth is 10 MHz. Show all required calculations. [Hint: Some of the values may not be required for calculating the final link margin. But you are requested to calculate all unknown values on the second column of the table.] 30 Transmit power (dBW) Transmit circuit losses (dB) Transmit antenna gain (dBi) EIRP (dBW) Path loss (dB) Received isotropic signal power (dBW) Received antenna gain (dBi) Received signal power P (dBW) System...
1. Suppose log10(x) = 25. Calculate log2 (x) by calculating x and then calculating log2 (x). Be sure to show the instructions you gave to R, as well as the value of x and the final result. 2. Find log2 (x), as in (1) without calculating x, by multiplying by something. 3. Suppose log2 (x) = 25. Calculate log10(x) for y = 25 by calculating x and then calculating log10(x). Be sure to show the instructions you gave to R,...