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3. The following output data are recorded from a test on a filter circuit when an...
For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select &...
For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source Connect "Bode Plotter" to input and output of your circuit...
Simulation For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolba...
Simulation For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F) frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source. Connect "Bode Plotter" to input and output of your...
3) Given the following circuit: h: 318.5 mH Ra 3 Vo Vin is the sinusoidal output...
3) Given the following circuit: h: 318.5 mH Ra 3 Vo Vin is the sinusoidal output of a Function Generator Vin: 13 sinut 4 Determined al Type of filter (spto) b) cut-off frequency (spte) c) slot and label "dB vs Frequency do the graph below (lopts) d) dB value of GAIN (Ive at a frequency equal to 10 fc (f 10 x fc) (Spte) 0001 LOK look in IK 1000 100
1) Design a low-pass RC device with the following specifications: a) Input x(t) and output y(t)...
1) Design a low-pass RC device with the following specifications: a) Input x(t) and output y(t) b) Bandwidth which is defined as the range of frequencies (from 0 Hz to ??, the − 3dB point ) allowed to pass through without significant attenuation = 100Hz c) Static gain = 14dB d) The system has −20 dB/decade rolloff at high frequencies (thus first-order LP filter) Assume that you have one and only one resistor value available to you, and that resistance is...
3. For the active filter circuit below, complete the following: a) Find the magnitude of the...
3. For the active filter circuit below, complete the following: a) Find the magnitude of the transfer function | H | starting from the nodal equations. b) Find the phase shift of the transfer function (W) c) Find the cutoff frequency fc in Hz d) Is this a high pass or low pass filter? e) Find the passband gain of the filter 62 k2 ANA EVA 22 nF 3.3k f) Given the following input signal: vi(t) = 1.0 sin(2nft +...
Part I: Black Box A Design your first black box adhering to the following specifications A. Input Signal to Black Box A 1. A 1 kHz cosine wave with amplitude of 1V. B. Output Signal from Black Box A...
Part I: Black Box A Design your first black box adhering to the following specifications A. Input Signal to Black Box A 1. A 1 kHz cosine wave with amplitude of 1V. B. Output Signal from Black Box A 1. A 1 kHz sine wave with amplitude of Hint: Use an ideal op-amp C. Explain your design process. What type of circuit did you design? Discuss D. Why did vou use an op-amp? Could another component be used instead? Why...
3 Circuit C2 R1 Connect to Vo Unity Gair 470 0.1uF Follower Ground Output C1 4700 R2 R3 1000 C3 luF Figure 1. AC Test C...
3 Circuit C2 R1 Connect to Vo Unity Gair 470 0.1uF Follower Ground Output C1 4700 R2 R3 1000 C3 luF Figure 1. AC Test Circuit. 5 LTspice Simulation » Use LTspice to simulate the circuit shown in Figure 1. . The AC voltage source should have an amplitude of 5V and a frequency of 60Hz. When you enter the parameters in LTspice, you should see them displayed on the schematic as follows SINE(0 5 60000 1000) * Graph the...
Resistors 2700 3300 3900 4700 56002 Capacitors 1.OnF 1.5nF 2.2nF Inductors 2.7mH 1500 1800 2200 6800...
Resistors 2700 3300 3900 4700 56002 Capacitors 1.OnF 1.5nF 2.2nF Inductors 2.7mH 1500 1800 2200 6800 8200 1.0kn 1.2k2 1.5k 1.8k 22.2k02 2.7k 2 3.3nF 4.7nF 6.8nF 3.3k 3.9k 4.7kn 5.6k 26.8k0 8.2k210k 2 12kΩ 10nF 15F 22nF 15kΩ 18kQ2 22kΩ 27kg 33kg 39k 47kg 56kΩ 33nF 47nF 68nF 68k 82kg 100k 120ko 150k 150k 180k 220ko 100nF 150nF 270kn 330kn 390kW 470kn 560kn 680k0 820ko 1.0M Table 1 In this lab, you will design and build Passive & Active...
please solve the following (simple steps): Q1) i ii iii and Q2) i ii For the circuit shown: XSC1 XFG1 P 1 2 3 4 2 100mH 20% 10k Key A 100nF 0 1) Find equations (step response) for both vc and i f...
please solve the following (simple steps):
Q1)
i
ii
iii
and
Q2)
i
ii
For the circuit shown: XSC1 XFG1 P 1 2 3 4 2 100mH 20% 10k Key A 100nF 0 1) Find equations (step response) for both vc and i for the following cases: i. ii, iii. R= 12%, R 20%, and R:-29%. 2) Using a square wave with a frequency of 200 Hz and 2-Vpp, simulate the relationship betwee the input, vi, and the output, v3,...
Record the input and output voltages from the following frequencies for the low-pass fiter (Fig. 11.2)....
Record the input and output voltages from the following frequencies for the low-pass fiter (Fig. 11.2). 100 200 500 1000 2000 5000 10000 15000 f (Hz) Vin (V/DIV) Vin (DIV) 2 2 2. 2 2. 2 2. 么 Vin (V) 2. 2 2. Vout (V/DIV) V out (DIV) Vout (V) 71:42 04 2-1 o、 f where Vout/Vin = 1/V2: 8:04 ± kke . value extracted for L = For the low pass filter plot the ratio, Vout/Vin as a function...
For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source Connect "Bode Plotter" to input and output of your circuit...
Simulation For each filter mentioned in the following cases, first simulate the circuit using Multisim. You can get a plot of the transfer function that is called the Bode plot. From the right toolbar, select "Bode Plotter". Change initial (I) and final (F) frequencies to 1Hz and 200 KHz, respectively. Use a Voltage AC source as the input signal. You do not need to change any parameter from voltage AC source. Connect "Bode Plotter" to input and output of your...
3) Given the following circuit: h: 318.5 mH Ra 3 Vo Vin is the sinusoidal output of a Function Generator Vin: 13 sinut 4 Determined al Type of filter (spto) b) cut-off frequency (spte) c) slot and label "dB vs Frequency do the graph below (lopts) d) dB value of GAIN (Ive at a frequency equal to 10 fc (f 10 x fc) (Spte) 0001 LOK look in IK 1000 100
3. For the active filter circuit below, complete the following: a) Find the magnitude of the transfer function | H | starting from the nodal equations. b) Find the phase shift of the transfer function (W) c) Find the cutoff frequency fc in Hz d) Is this a high pass or low pass filter? e) Find the passband gain of the filter 62 k2 ANA EVA 22 nF 3.3k f) Given the following input signal: vi(t) = 1.0 sin(2nft +...
Part I: Black Box A Design your first black box adhering to the following specifications A. Input Signal to Black Box A 1. A 1 kHz cosine wave with amplitude of 1V. B. Output Signal from Black Box A 1. A 1 kHz sine wave with amplitude of Hint: Use an ideal op-amp C. Explain your design process. What type of circuit did you design? Discuss D. Why did vou use an op-amp? Could another component be used instead? Why...
3 Circuit C2 R1 Connect to Vo Unity Gair 470 0.1uF Follower Ground Output C1 4700 R2 R3 1000 C3 luF Figure 1. AC Test Circuit. 5 LTspice Simulation » Use LTspice to simulate the circuit shown in Figure 1. . The AC voltage source should have an amplitude of 5V and a frequency of 60Hz. When you enter the parameters in LTspice, you should see them displayed on the schematic as follows SINE(0 5 60000 1000) * Graph the...
Resistors 2700 3300 3900 4700 56002 Capacitors 1.OnF 1.5nF 2.2nF Inductors 2.7mH 1500 1800 2200 6800 8200 1.0kn 1.2k2 1.5k 1.8k 22.2k02 2.7k 2 3.3nF 4.7nF 6.8nF 3.3k 3.9k 4.7kn 5.6k 26.8k0 8.2k210k 2 12kΩ 10nF 15F 22nF 15kΩ 18kQ2 22kΩ 27kg 33kg 39k 47kg 56kΩ 33nF 47nF 68nF 68k 82kg 100k 120ko 150k 150k 180k 220ko 100nF 150nF 270kn 330kn 390kW 470kn 560kn 680k0 820ko 1.0M Table 1 In this lab, you will design and build Passive & Active...
please solve the following (simple steps):
Q1)
i
ii
iii
and
Q2)
i
ii
For the circuit shown: XSC1 XFG1 P 1 2 3 4 2 100mH 20% 10k Key A 100nF 0 1) Find equations (step response) for both vc and i for the following cases: i. ii, iii. R= 12%, R 20%, and R:-29%. 2) Using a square wave with a frequency of 200 Hz and 2-Vpp, simulate the relationship betwee the input, vi, and the output, v3,...
Record the input and output voltages from the following frequencies for the low-pass fiter (Fig. 11.2). 100 200 500 1000 2000 5000 10000 15000 f (Hz) Vin (V/DIV) Vin (DIV) 2 2 2. 2 2. 2 2. 么 Vin (V) 2. 2 2. Vout (V/DIV) V out (DIV) Vout (V) 71:42 04 2-1 o、 f where Vout/Vin = 1/V2: 8:04 ± kke . value extracted for L = For the low pass filter plot the ratio, Vout/Vin as a function...
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