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3. The noiseless amplifier below has a bandwidth of 1 MHz at a temperature of 0°C....
Problem 3 A receiver has a bandwidth of 1 MHz and a noise figure of 10...
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...
Question # B.4 An RF system having a RF-bandwidth of 1 MHz, has a front-end preamplifier of gain ...
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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 F21F (Answer hints: NF (Total)...
Noise-related problems Question # B.4 An RF system having a RF-bandwidth of 1 MHz, has a...
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)
The temperature data acquisition system which uses a thermocouple for o. Analyze measuring temper...
the temperature data acquisition system which uses a thermocouple for o. Analyze measuring temperature shown below. Answer the following questions. Show your work. (25 points) 0.2HF Front End 10ko Themocoupio Amplifier 12 bit ADGC Front End Amplifier Gain Bandwidth Product GBW 500kHz Gain 100 Input referred voltage noise v Thermocouple sensitivity107 oC The ADC operates from 0 to 3.3volts on the input a. What is the best type of amplifier to use to amplify the small differential voltage from the...
4. A sinusoidal signal was used as the input to the inverting amplifier below. The op...
4. A sinusoidal signal was used as the input to the inverting amplifier below. The op amp is ideal except for its open-loop gain. It has an open loop de gain (Ao) of 100dB and a unity-gain bandwidth (f) of 100 MHz. a) Find the transfer function, H(o), including the non-ideal open loop gain, A. b) Find the 3-dB frequency for the op amp, and sketch the |Al vs. frequency graph. Label the open loop de gain, 3-dB frequency, and...
14.4 An amplifier with a bandwidth of 1 GHz has a gain of 15 dB and...
14.4 An amplifier with a bandwidth of 1 GHz has a gain of 15 dB and a noise tem perature of 250° K. If it is used as a preamplifier in a cascade, preceding a microwave amplifier of 20 dB gain and 5 dB noise figure, determine the over all noise temperature.
A. The amplifier shown below is constructed with auA741 opamp with R-10kg 2. It is to have (GBP) ...
A. The amplifier shown below is constructed with auA741 opamp with R-10kg 2. It is to have (GBP) of 1 MHz a closed-loop gain of 100. Assume the op-amp has a gain-bandwidth product i. Specify the value of Ro ii. What will be the gain (in both dB and actual magnitude) at 100.kHz? ii. How many cycles will the output signal trail the input signal at 100kHz Co Noh-Inverting R Op-Amp vi Curde 1. B. A transducer measures a sinusoidal...
Problem 3: a) For the inverting amplifier designed using low noise amplifier AD743 shown on the...
Problem 3: a) For the inverting amplifier designed using low noise amplifier AD743 shown on the bottom of the page with Ri=10kOhm and Rf=220kOhm, what should be the value of the resistor connected to the non-inverting input (R2) to minimize the output offset due to input bias current? b.) Even if the R2 value you calculated is used, could there be an output offset due to a difference between the two input bias currents? What is the maximum value of...
Photodiode Detectors
Consider the transimpedance amplifier optical receiver shown in Fig. 14-19. Thefeedback resistance is 10 k_ and the feedback capacitance is 0.2 pF. The diode’s capacitance is 5 pF, and its responsivity is 0.5 A/W. The incident optical power is 0.5 mW. (a) Compute the signal current. (b) Compute the receiver’s output voltage. (c) Compute the receiver’s 3 dB electrical bandwidth. (d) Compute the rms thermal-noise current generated in the feedback resistor, assuming a temperature of 300K. (e) Assuming no dark...
A communication receiver has an effective noise temperature of 150 kelvin and a 300-MHz bandwidth. Computer...
A communication receiver has an effective noise temperature of 150 kelvin and a 300-MHz bandwidth. Computer the thermal noise level at the receiver's output compute in terms of decibel/watts per hertz
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...
WRITE LEGIBLY OR TYPE THE ANSWERS WITH EXPLANATIONS
THANKS!!!
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 F21F (Answer hints: NF (Total)...
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)
the temperature data acquisition system which uses a thermocouple for o. Analyze measuring temperature shown below. Answer the following questions. Show your work. (25 points) 0.2HF Front End 10ko Themocoupio Amplifier 12 bit ADGC Front End Amplifier Gain Bandwidth Product GBW 500kHz Gain 100 Input referred voltage noise v Thermocouple sensitivity107 oC The ADC operates from 0 to 3.3volts on the input a. What is the best type of amplifier to use to amplify the small differential voltage from the...
4. A sinusoidal signal was used as the input to the inverting amplifier below. The op amp is ideal except for its open-loop gain. It has an open loop de gain (Ao) of 100dB and a unity-gain bandwidth (f) of 100 MHz. a) Find the transfer function, H(o), including the non-ideal open loop gain, A. b) Find the 3-dB frequency for the op amp, and sketch the |Al vs. frequency graph. Label the open loop de gain, 3-dB frequency, and...
14.4 An amplifier with a bandwidth of 1 GHz has a gain of 15 dB and a noise tem perature of 250° K. If it is used as a preamplifier in a cascade, preceding a microwave amplifier of 20 dB gain and 5 dB noise figure, determine the over all noise temperature.
A. The amplifier shown below is constructed with auA741 opamp with R-10kg 2. It is to have (GBP) of 1 MHz a closed-loop gain of 100. Assume the op-amp has a gain-bandwidth product i. Specify the value of Ro ii. What will be the gain (in both dB and actual magnitude) at 100.kHz? ii. How many cycles will the output signal trail the input signal at 100kHz Co Noh-Inverting R Op-Amp vi Curde 1. B. A transducer measures a sinusoidal...
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