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7.2 A sinusoid with 1-V peak amplitude is applied at the input of a filter having...
1. A Sinusoidal waveform of 14 V peak to peak, frequency 3.5 KHz is applied as...
1. A Sinusoidal waveform of 14 V peak to peak, frequency 3.5 KHz is applied as an input to the circuit having Silicon diode as shown in Figure 1. Draw the approximate input and output wave forms for different V. voltages (-4V, -6Vand -8 V) and answer the interpretation questions Figure 1 Output Wave form at V=-4 V 11 Mark] volts, volts Output Wave form at V.--4 V 11 Mark] Positive peak amplitude Negative peak amplitude - Frequency = Hz...
10. An input signal x(t) is processed by a filter with an amplitude | H(f) |...
10. An input signal x(t) is processed by a filter with an amplitude | H(f) | and phase θ(f) response given below H(f) 90 70 50 30 10 10 θ(f) 25 -50 70 05 35 -3-252 -15105 0 05 115 2 25 3 35 -35-3-25-2-15-1-05 0 0.5 15 2 25 35 frequency (kHz) frequency (kHz) a) For x,(t)-2cos(22500t) find output signal ya(t) b) For x,(t) 4cos(27750t) find output signal yb(t) c) For x,(t)=2cos(2π500t) +4cos(2π750t) find output signal ye(t) d) For...
A system is excited by a sinusoid whose amplitude is 1 uV and the response is...
A system is excited by a sinusoid whose amplitude is 1 uV and the response is a sinusoid of the same frequency with an amplitude of 5 V. What is the magnitude of the transfer function of the system at the frequency of the sinusoid, expressed in decibels (dB)?
Question 3: a.) A signal with frequency of 9 kHz and amplitude of 200 µV is input...
Question 3: a.) A signal with frequency of 9 kHz and amplitude of 200 µV is input to a low pass filter with cutoff frequency of 700 kHz. What are the frequency and amplitude of the output signal? b.) A signal with frequency of 7 Hz and amplitude of 6 V is input to a low pass filter with cutoff frequency of 1 kHz. What are the frequency and amplitude of the output signal?
4.20 Consider the PLL block diagram of Figure 4-28 with a loop filter having the transfer functio...
4.20 Consider the PLL block diagram of Figure 4-28 with a loop filter having the transfer function F(s) = K| s + 1.1 a. Determine the value of K that would yield a lock range with an upper bound of 21. b. Determine if the PLL circuit is stable. c.Calculate the PLL bandwidth. few2 4.21 Consider the frequency sythesizer circuit shown in Figure 4-30. The input frequency is 2 GHz and the output frequency is 50 kHz with increments of...
volem 2. SINUSOIDAL MULTIPLICATION PROBLEM Consider the multiplication of a 10 kHz sinusoid W and 2kHz....
volem 2. SINUSOIDAL MULTIPLICATION PROBLEM Consider the multiplication of a 10 kHz sinusoid W and 2kHz. The respective amplitudes are given in the figure below. Picauon of a 10 kHz sinusoid with a signal consisting of the sum of two sinusoid V1(t)=5cos[21*10kHz*t] wo sinusoids having frequencies of: 3kHz - > Vor=V1(t)xV2(t) V2(t)=cos[21*3kHz"t]+4cos[2*2kHz*t) a. Accurately draw the entire input amplitude-frequency spectrum ACCURATELY and CLEARLY. b. Accurately draw the entire output amplitude-frequency spectrum ACCURATELY and CLEARLYTT. Note: You may use the front...
Figure 2.4 shows a block diagram that consists of Device A with a transfer function of Vo1(t) = 1 + vi(t)2 and a Band P...
Figure 2.4 shows a block diagram that consists of Device A with a transfer function of Vo1(t) = 1 + vi(t)2 and a Band Pass Filter that has a cutoff frequency of 6 kHz and 12 kHz. The input signal to the device is a 8 V sinusoidal signal Amplitude 8V Vot(t) Band Pass Device A Vo2(t) Time Vo1(t) 1vi(t) Filter 0.2ms Input signal, vi(t) Fiqure 2.4 State the expression of the input signal, vi(t) given that the signal is...
5) Consider the following second-order bandpass filter. As input voltage, apply V(t) 100Ω, C-4.7 μF. and L-10mH. sin(wt).R in Vout Fig 9: Second-order band-pass filter a) Determine the frequenc...
5) Consider the following second-order bandpass filter. As input voltage, apply V(t) 100Ω, C-4.7 μF. and L-10mH. sin(wt).R in Vout Fig 9: Second-order band-pass filter a) Determine the frequency response function H(ju) Ve-ju) / Vm(ju) and sketch the magnitude and phase characteristics versus w by calaulation. Calculate the theoretical cutoff frequency of the filter Using PSpice AC analysis, plot magnitude lHju)l and phase ф characteristics of the filter, between 1 Hz-100 KHz b) c)
5) Consider the following second-order bandpass...
Ans: A sinusoidal voltage having a maximum peak amplitude of 625 V is applied to the...
Ans: A sinusoidal voltage having a maximum peak amplitude of 625 V is applied to the terminals of a 509 resistor.Find the average power delivered o he resistor. (3 pts)
3. The following output data are recorded from a test on a filter circuit when an...
3. The following output data are recorded from a test on a filter circuit when an input sinusoidal signal having an amplitude of 2V is applied with frequencies shown below. Complete the following: a. Draw the frequency response graph. b. Calculate the cut-off frequency from the graph and calculate the roll-off rate. c. Determine minimum filter order necessary to achieve the response. Explain. d. Draw the input and output waveforms on the same graph if the gain of the filter...
1. A Sinusoidal waveform of 14 V peak to peak, frequency 3.5 KHz is applied as an input to the circuit having Silicon diode as shown in Figure 1. Draw the approximate input and output wave forms for different V. voltages (-4V, -6Vand -8 V) and answer the interpretation questions Figure 1 Output Wave form at V=-4 V 11 Mark] volts, volts Output Wave form at V.--4 V 11 Mark] Positive peak amplitude Negative peak amplitude - Frequency = Hz...
10. An input signal x(t) is processed by a filter with an amplitude | H(f) | and phase θ(f) response given below H(f) 90 70 50 30 10 10 θ(f) 25 -50 70 05 35 -3-252 -15105 0 05 115 2 25 3 35 -35-3-25-2-15-1-05 0 0.5 15 2 25 35 frequency (kHz) frequency (kHz) a) For x,(t)-2cos(22500t) find output signal ya(t) b) For x,(t) 4cos(27750t) find output signal yb(t) c) For x,(t)=2cos(2π500t) +4cos(2π750t) find output signal ye(t) d) For...
A system is excited by a sinusoid whose amplitude is 1 uV and the response is a sinusoid of the same frequency with an amplitude of 5 V. What is the magnitude of the transfer function of the system at the frequency of the sinusoid, expressed in decibels (dB)?
4.20 Consider the PLL block diagram of Figure 4-28 with a loop filter having the transfer function F(s) = K| s + 1.1 a. Determine the value of K that would yield a lock range with an upper bound of 21. b. Determine if the PLL circuit is stable. c.Calculate the PLL bandwidth. few2 4.21 Consider the frequency sythesizer circuit shown in Figure 4-30. The input frequency is 2 GHz and the output frequency is 50 kHz with increments of...
volem 2. SINUSOIDAL MULTIPLICATION PROBLEM Consider the multiplication of a 10 kHz sinusoid W and 2kHz. The respective amplitudes are given in the figure below. Picauon of a 10 kHz sinusoid with a signal consisting of the sum of two sinusoid V1(t)=5cos[21*10kHz*t] wo sinusoids having frequencies of: 3kHz - > Vor=V1(t)xV2(t) V2(t)=cos[21*3kHz"t]+4cos[2*2kHz*t) a. Accurately draw the entire input amplitude-frequency spectrum ACCURATELY and CLEARLY. b. Accurately draw the entire output amplitude-frequency spectrum ACCURATELY and CLEARLYTT. Note: You may use the front...
Figure 2.4 shows a block diagram that consists of Device A with a transfer function of Vo1(t) = 1 + vi(t)2 and a Band Pass Filter that has a cutoff frequency of 6 kHz and 12 kHz. The input signal to the device is a 8 V sinusoidal signal Amplitude 8V Vot(t) Band Pass Device A Vo2(t) Time Vo1(t) 1vi(t) Filter 0.2ms Input signal, vi(t) Fiqure 2.4 State the expression of the input signal, vi(t) given that the signal is...
5) Consider the following second-order bandpass filter. As input voltage, apply V(t) 100Ω, C-4.7 μF. and L-10mH. sin(wt).R in Vout Fig 9: Second-order band-pass filter a) Determine the frequency response function H(ju) Ve-ju) / Vm(ju) and sketch the magnitude and phase characteristics versus w by calaulation. Calculate the theoretical cutoff frequency of the filter Using PSpice AC analysis, plot magnitude lHju)l and phase ф characteristics of the filter, between 1 Hz-100 KHz b) c)
5) Consider the following second-order bandpass...
Ans: A sinusoidal voltage having a maximum peak amplitude of 625 V is applied to the terminals of a 509 resistor.Find the average power delivered o he resistor. (3 pts)
3. The following output data are recorded from a test on a filter circuit when an input sinusoidal signal having an amplitude of 2V is applied with frequencies shown below. Complete the following: a. Draw the frequency response graph. b. Calculate the cut-off frequency from the graph and calculate the roll-off rate. c. Determine minimum filter order necessary to achieve the response. Explain. d. Draw the input and output waveforms on the same graph if the gain of the filter...
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