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Problem 2 Consider the following circuit 4 HF o(t) 6 Q 10 mH 60 vi(t) Figure 2 1. Determine the filter type and specify...
Could someone please write worked solutions? Thanks R. Figure 1 Consider the filter circuit that is...
Could someone please write worked solutions? Thanks
R. Figure 1 Consider the filter circuit that is shown in Figure 1 1. Determine the voltage at node a in terms of the passive component variables. (7 marks) 2. Determine the Laplace transfer function H(s) = Vo/Vi. Subsequently, identify the resulting filter type including its order. (9 marks) 3. If R-1k and C-10HF, determine the gain, cut-off frequency, and the quality factor of this filter. (6 marks) 4. If the input signal...
Q: One type of modulators is shown below: y(t) Rs 10 Bandpass filter von Vc(t) 1-...
Q: One type of modulators is shown below: y(t) Rs 10 Bandpass filter von Vc(t) 1- What is the name of this modulator, and what is it used for? 2- If m (-0.1 cos (2000 ) and Ve(t)=0.3 cos (40000 ) are the input of the diode, find the output of the diode if the input output characteristics of the diode is: Vo(t) = 0.3*Vi (t) + 0.2*Vi?(t) Then, find Vo(t), if the center frequency of the band pass filter...
Q.6 For the series circuit in Figure given below, Determine Assume R -500n Vin-10V . The center frequency (f) b. The output voltage magnitude at (f) c. The bandwidth (BW )for the filter d. Draw t...
Q.6 For the series circuit in Figure given below, Determine Assume R -500n Vin-10V . The center frequency (f) b. The output voltage magnitude at (f) c. The bandwidth (BW )for the filter d. Draw the output response curve showing the maximum voltage, center frequency and the voltage where the BW is measured 150Ω 100μH
Q.6 For the series circuit in Figure given below, Determine Assume R -500n Vin-10V . The center frequency (f) b. The output voltage magnitude at...
For the Multi Feedback Topology Band-pass Filter circuit shown in Figure 1 below, confirm the transfer...
For the Multi Feedback Topology Band-pass Filter circuit shown in Figure 1 below, confirm the transfer function H(s) given below 0 Figure 1: Multiple Feedback Topology Band-pass Filter (MFT BPF) Vo SR で 1 Ri R3 2R TR2C where the filter's parameters are o f: middle (center) frequency in Hz o Am: gain at middle frequency, fm, in V/V o B: bandwidth between half power frequencies in Hz o Q: quality factor. One of the nice features of this circuit...
Problem 24: (18 points) 1. (6 points) Figure 2 shows an RC circuit with input f(t)...
Problem 24: (18 points) 1. (6 points) Figure 2 shows an RC circuit with input f(t) and output y(t) Function Generator R, v, (r) y1) Figure 2: RC circuit. (a) (1 point) Sketch the circuit in the phasor domain by replacing the capacitor with its impedance represen- (b) (3 points) Using circuit analysis techniques, show that the frequency response function is Specify the DC gain, K, and the time constant, T, in terms of the parameters R, R, and C...
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the...
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the voltage lence) and redraw the impedance model; (using Thevenin and Norton equiva- Source into a current source c) Using the results from part (b), derive the expressions to determine the resonance frequency of the circuit in terms of the circuit parameters; e) We would like to have a resonance peak gain frequency of fo equal to...
Consider the filter shown in Figure P1 a) Show that the circuit behaves as a band-pass...
Consider the filter shown in Figure P1 a) Show that the circuit behaves as a band-pass fiter. (Hint: Find the transfer for this circuit and show that it has the same form as the transfer function for a band-pass filter.) b) Find the center frequency, bandwidth and gain for this band-pass filter c) Find the cutoff frequencies and the quality factor for this band-pass filter. 10 u.F 5 k2 50mF 16 400 (2 Figure P1
50 /15) (Problem 21.27) For the filter in Fig. 21.104: a. Create a table of the frequency response of Av -Vo/Vi, log scales, from 10 k2 2 pF 100 Hz to 10 kHz. b. What are Cutoff frequencies: fl- band...
50 /15) (Problem 21.27) For the filter in Fig. 21.104: a. Create a table of the frequency response of Av -Vo/Vi, log scales, from 10 k2 2 pF 100 Hz to 10 kHz. b. What are Cutoff frequencies: fl- bandwidth and the center frequency- FIG. 21.104 c. Classify the type of filter (lowpass, highpass, etc...):
50 /15) (Problem 21.27) For the filter in Fig. 21.104: a. Create a table of the frequency response of Av -Vo/Vi, log scales, from 10...
Homework #2 Problem 14.38 PSpice Multisim Part A Consider the bandreject filter shown in (Figure 1)....
Homework #2 Problem 14.38 PSpice Multisim Part A Consider the bandreject filter shown in (Figure 1). Suppose that R-4 k2,L-3.5 mH, C-62.5 nF Calculate the center frequency wo. Express your answer using three significant figures vec krad/s Figure 1 of 1 Submit Request Answen Part B Calculate the center frequency f, in kilohertz. Express your answer using three significant figures vec kHz Problem 14.38 PSpice Multisim Part C Consider the bandreject filter shown in (Figure 1). Suppose that R-4 k2,L-3.5...
A filtering circuit is given in Figure1 v¡(t) uo(t) R2 Figure 1: Filter circuit for Problem...
A filtering circuit is given in Figure1 v¡(t) uo(t) R2 Figure 1: Filter circuit for Problem 1 (1.a) Derive the transfer function H(s) = V(s)/V(s) for this filter network. (5 marks) (1.b) Determine the magnitude |H(ju) and phase (jw) of the frequency response of the filter network. (2 marks) (1.c) What type of filter is this? What might it be used for? Justify your answer. (3 marks)
Could someone please write worked solutions? Thanks
R. Figure 1 Consider the filter circuit that is shown in Figure 1 1. Determine the voltage at node a in terms of the passive component variables. (7 marks) 2. Determine the Laplace transfer function H(s) = Vo/Vi. Subsequently, identify the resulting filter type including its order. (9 marks) 3. If R-1k and C-10HF, determine the gain, cut-off frequency, and the quality factor of this filter. (6 marks) 4. If the input signal...
Q: One type of modulators is shown below: y(t) Rs 10 Bandpass filter von Vc(t) 1- What is the name of this modulator, and what is it used for? 2- If m (-0.1 cos (2000 ) and Ve(t)=0.3 cos (40000 ) are the input of the diode, find the output of the diode if the input output characteristics of the diode is: Vo(t) = 0.3*Vi (t) + 0.2*Vi?(t) Then, find Vo(t), if the center frequency of the band pass filter...
Q.6 For the series circuit in Figure given below, Determine Assume R -500n Vin-10V . The center frequency (f) b. The output voltage magnitude at (f) c. The bandwidth (BW )for the filter d. Draw the output response curve showing the maximum voltage, center frequency and the voltage where the BW is measured 150Ω 100μH
Q.6 For the series circuit in Figure given below, Determine Assume R -500n Vin-10V . The center frequency (f) b. The output voltage magnitude at...
For the Multi Feedback Topology Band-pass Filter circuit shown in Figure 1 below, confirm the transfer function H(s) given below 0 Figure 1: Multiple Feedback Topology Band-pass Filter (MFT BPF) Vo SR で 1 Ri R3 2R TR2C where the filter's parameters are o f: middle (center) frequency in Hz o Am: gain at middle frequency, fm, in V/V o B: bandwidth between half power frequencies in Hz o Q: quality factor. One of the nice features of this circuit...
Problem 24: (18 points) 1. (6 points) Figure 2 shows an RC circuit with input f(t) and output y(t) Function Generator R, v, (r) y1) Figure 2: RC circuit. (a) (1 point) Sketch the circuit in the phasor domain by replacing the capacitor with its impedance represen- (b) (3 points) Using circuit analysis techniques, show that the frequency response function is Specify the DC gain, K, and the time constant, T, in terms of the parameters R, R, and C...
Problem 4 For the circuit in Fig. 3, frequency w a) Draw the impedance model of the circuit for a source b) Convert the voltage lence) and redraw the impedance model; (using Thevenin and Norton equiva- Source into a current source c) Using the results from part (b), derive the expressions to determine the resonance frequency of the circuit in terms of the circuit parameters; e) We would like to have a resonance peak gain frequency of fo equal to...
Consider the filter shown in Figure P1 a) Show that the circuit behaves as a band-pass fiter. (Hint: Find the transfer for this circuit and show that it has the same form as the transfer function for a band-pass filter.) b) Find the center frequency, bandwidth and gain for this band-pass filter c) Find the cutoff frequencies and the quality factor for this band-pass filter. 10 u.F 5 k2 50mF 16 400 (2 Figure P1
50 /15) (Problem 21.27) For the filter in Fig. 21.104: a. Create a table of the frequency response of Av -Vo/Vi, log scales, from 10 k2 2 pF 100 Hz to 10 kHz. b. What are Cutoff frequencies: fl- bandwidth and the center frequency- FIG. 21.104 c. Classify the type of filter (lowpass, highpass, etc...):
50 /15) (Problem 21.27) For the filter in Fig. 21.104: a. Create a table of the frequency response of Av -Vo/Vi, log scales, from 10...
Homework #2 Problem 14.38 PSpice Multisim Part A Consider the bandreject filter shown in (Figure 1). Suppose that R-4 k2,L-3.5 mH, C-62.5 nF Calculate the center frequency wo. Express your answer using three significant figures vec krad/s Figure 1 of 1 Submit Request Answen Part B Calculate the center frequency f, in kilohertz. Express your answer using three significant figures vec kHz Problem 14.38 PSpice Multisim Part C Consider the bandreject filter shown in (Figure 1). Suppose that R-4 k2,L-3.5...
A filtering circuit is given in Figure1 v¡(t) uo(t) R2 Figure 1: Filter circuit for Problem 1 (1.a) Derive the transfer function H(s) = V(s)/V(s) for this filter network. (5 marks) (1.b) Determine the magnitude |H(ju) and phase (jw) of the frequency response of the filter network. (2 marks) (1.c) What type of filter is this? What might it be used for? Justify your answer. (3 marks)
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