please make sure that the answer is correct %100
Homework Answers
1) output waveform is shown in figure, is a low pass filter, in which capacitor is charging and discharging with square wave pulse, this response is have only circuit RC where output is connected to capacitor and Resistor is used for discharging in negative half cycle of input supply. Hence this circuit is RC circuit response.
2) As shown in graph, one output is perfect square wave and other is a response of charging and discharging, as red graph is showing charging discharging it is connected across capacitor, and perfect sqaure wave is connected across input voltage. Hence option (d) is correct.
3) period of input signal is 100 miliseconds, as shown in circuit input voltage where PER is period,we can estimate from waveform bit it is not clear.
4) waveform is not clear to determine output period but you can find it using one complete square wave positive and negative,
5) form waveform we can see that input waveform is Square wave pulse. Hence option (d) is correct.
Note- please find me in comment box if you find any difficulty. As waveform is not clear, it is impossible to determine output period, other things are correct. Good luck
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please make sure that the answer is correct %100
For the circuit and the simulation outnut...
Figure 3. Variable RC circuit A variable time constant circuit is shown above. The potentiometer (R2)...
Figure 3. Variable RC circuit A variable time constant circuit is shown above. The potentiometer (R2) can change its resistance from 0 Ohms to 750 Ohms. R1 has a fixed value of 70 Ohms. The capacitor has a capacitance of 35 pF. a) Use the supplied MATLAB™ code Calc RC and function RC_Circ to find the time variation of voltage across the Capacitor, Ve, and the fixed resistor R1 for a steady voltage V1 = 5 Volts which is turned...
Please Help. This is a PSPICE Simulation problem. Thanks. Equipment For the laboratory experimentation, the standard...
Please Help. This is a PSPICE Simulation problem. Thanks.
Equipment For the laboratory experimentation, the standard laboratory equipment (function generator, oscilloscope, multimeter) will be used along with a capacitor (0.027 μF), an inductor (10 mH for the series RLC circuit and 1 mH for the parallel RLC circuit), and a resistor (to be determined in your prelab work) Lab 4 PSPICE Simulation: Using the circuit parameter values given in the prelab, model the circuits given in Fig. 1 using PSPICE....
Use MATLAB to write a function that takes inputs R, L, C, TO, Tf, DeltaT and...
Use MATLAB to write a function that takes inputs R, L, C, TO, Tf, DeltaT and f and produces as output the charge on the capacitor in a driven RLC series circuit where the input voltage source is v(t) = cos(21 ft). Here f is the frequency of the voltage source in Hz. This function returns the inverse Laplace Transform of (1) L (s2 + 2) ($2 + 2as +B) where a = # and B = Lc. Note that...
plz do not answer it , if you do not know how to use pspice 3. Refer to Fig. 1 in the handout; obtain the circuit output in PSpice for some of the digital input combinations given in Table. 1....
plz do not answer it , if you do not know how to use
pspice
3. Refer to Fig. 1 in the handout; obtain the circuit output in PSpice for some of the digital input combinations given in Table. 1. Assume that 5V analog input and 0V analog input correspond to a digital ‘1' and a digital .0', respectively, and that the DAC outputs are converted so that positive voltages are obtained. Also, a. What is the range, precision and...
Accuracy is important. Do not round intermediates and check the answer range to make sure you...
Accuracy is important. Do not round intermediates and check the
answer range to make sure you are correct.
Values:
[01] 2.08 [02]
68.47 [03] 0.239 [04] 1173.7 [05] 1403. [06] 53.8
THE CORRECT ANSWERS WILL BE IN THE FOLLOWING RANGES:
8-1a. 140, 220 Hz
8-1b. 40:0, 62:0 mA
8-2a. 70:0, 99:0 V
8-2b. 140:0, 160:0 V
8-2c. 60:0, 99:0 V
8-2d. 60:0, 90:0 V
8-3a. 40:0; 99:0 pF
8-3b. 100; 400 mV
8-3c. 1:00; 3:00 mV
8-4a. 100; 150 V...
Simulink and matlab solution needed for this question 68 An RLC circuit with a parallel bypass...
Simulink and matlab solution needed for this
question
68 An RLC circuit with a parallel bypass resistor (Problems 3.10 and 5.11) is shown in Fig. P6.8. At time t 0 the circuit has zero current in both loops and the capacitor C has a stored charge of 0.01 C. The system parameters are R1 0.4 Ω, R2-020, Cz 0.04 F, and L-0.01 H. Use Simulink to obtain the system response where the source voltage is a sinusoidal function, em) 05...
Use MATLAB simulink 6.8 An RLC circuit with a parallel bypass resistor (Problems 3.10 and 5.11)...
Use MATLAB simulink
6.8 An RLC circuit with a parallel bypass resistor (Problems 3.10 and 5.11) is shown in Fig. P6.8. At time t-0 the circuit has zero current in both loops and the capacitor C has a stored charge of 0.01 C. The system parameters are R1 = 0.4 Ω, R2-0.2 Ω, C = 0.04 F, and L = 0.01 H. Use Simulink to obtain the system response where the source voltage is a sinusoidal function, en()0.5 sin 10t...
Please Give Me the ANS only Choose the correct answer. 1. An RLC circuit with output...
Please Give Me the ANS only
Choose the correct answer. 1. An RLC circuit with output on the capacitor is a... a) low pass filter b) high pass filter c) band pass filter d) band stop filter 2. To build a RLC low pass circuit the output has to be taken on... a) the resistor b) the inductor c) the capacitor d) capacitor & inductor 3. In an RLC circuit if R-20092, L=0.9mH and C-40uF what is the value of...
Applying Kirchoff's current law (KCL) at the blue input node and the red output node, we...
Applying Kirchoff's current law (KCL) at the blue input node and the red output node, we can write Op amp has infinite input impedance and zero output impedance!! 0 Blue input node: lin(s) If(s) + H(s) = (will not "steal" current from your circuitry on the input side, nor will it steal anything from the output side! Red output node: lour(s)+ lats) Excellent! Now, since we don't care about the out node for now (because we're just focused what's happening...
checking to see if the answers i got are correct and help with the other parts....
checking to see if the answers i got are correct and help with
the other parts. thank you
Chapter 26 Laboratory Application Assignment In this lab application assignment you will examine an RC coupling circuit and an RC low-pass filter. In the RC coulina circuit you will see how the series capacitor blocks the de component of the input voltage but passes the ac component. In the RC low-pass filter you will see how the low frequencies are passed from...
Figure 3. Variable RC circuit A variable time constant circuit is shown above. The potentiometer (R2) can change its resistance from 0 Ohms to 750 Ohms. R1 has a fixed value of 70 Ohms. The capacitor has a capacitance of 35 pF. a) Use the supplied MATLAB™ code Calc RC and function RC_Circ to find the time variation of voltage across the Capacitor, Ve, and the fixed resistor R1 for a steady voltage V1 = 5 Volts which is turned...
Please Help. This is a PSPICE Simulation problem. Thanks.
Equipment For the laboratory experimentation, the standard laboratory equipment (function generator, oscilloscope, multimeter) will be used along with a capacitor (0.027 μF), an inductor (10 mH for the series RLC circuit and 1 mH for the parallel RLC circuit), and a resistor (to be determined in your prelab work) Lab 4 PSPICE Simulation: Using the circuit parameter values given in the prelab, model the circuits given in Fig. 1 using PSPICE....
Use MATLAB to write a function that takes inputs R, L, C, TO, Tf, DeltaT and f and produces as output the charge on the capacitor in a driven RLC series circuit where the input voltage source is v(t) = cos(21 ft). Here f is the frequency of the voltage source in Hz. This function returns the inverse Laplace Transform of (1) L (s2 + 2) ($2 + 2as +B) where a = # and B = Lc. Note that...
plz do not answer it , if you do not know how to use
pspice
3. Refer to Fig. 1 in the handout; obtain the circuit output in PSpice for some of the digital input combinations given in Table. 1. Assume that 5V analog input and 0V analog input correspond to a digital ‘1' and a digital .0', respectively, and that the DAC outputs are converted so that positive voltages are obtained. Also, a. What is the range, precision and...
Accuracy is important. Do not round intermediates and check the
answer range to make sure you are correct.
Values:
[01] 2.08 [02]
68.47 [03] 0.239 [04] 1173.7 [05] 1403. [06] 53.8
THE CORRECT ANSWERS WILL BE IN THE FOLLOWING RANGES:
8-1a. 140, 220 Hz
8-1b. 40:0, 62:0 mA
8-2a. 70:0, 99:0 V
8-2b. 140:0, 160:0 V
8-2c. 60:0, 99:0 V
8-2d. 60:0, 90:0 V
8-3a. 40:0; 99:0 pF
8-3b. 100; 400 mV
8-3c. 1:00; 3:00 mV
8-4a. 100; 150 V...
Simulink and matlab solution needed for this
question
68 An RLC circuit with a parallel bypass resistor (Problems 3.10 and 5.11) is shown in Fig. P6.8. At time t 0 the circuit has zero current in both loops and the capacitor C has a stored charge of 0.01 C. The system parameters are R1 0.4 Ω, R2-020, Cz 0.04 F, and L-0.01 H. Use Simulink to obtain the system response where the source voltage is a sinusoidal function, em) 05...
Use MATLAB simulink
6.8 An RLC circuit with a parallel bypass resistor (Problems 3.10 and 5.11) is shown in Fig. P6.8. At time t-0 the circuit has zero current in both loops and the capacitor C has a stored charge of 0.01 C. The system parameters are R1 = 0.4 Ω, R2-0.2 Ω, C = 0.04 F, and L = 0.01 H. Use Simulink to obtain the system response where the source voltage is a sinusoidal function, en()0.5 sin 10t...
Please Give Me the ANS only
Choose the correct answer. 1. An RLC circuit with output on the capacitor is a... a) low pass filter b) high pass filter c) band pass filter d) band stop filter 2. To build a RLC low pass circuit the output has to be taken on... a) the resistor b) the inductor c) the capacitor d) capacitor & inductor 3. In an RLC circuit if R-20092, L=0.9mH and C-40uF what is the value of...
Applying Kirchoff's current law (KCL) at the blue input node and the red output node, we can write Op amp has infinite input impedance and zero output impedance!! 0 Blue input node: lin(s) If(s) + H(s) = (will not "steal" current from your circuitry on the input side, nor will it steal anything from the output side! Red output node: lour(s)+ lats) Excellent! Now, since we don't care about the out node for now (because we're just focused what's happening...
checking to see if the answers i got are correct and help with
the other parts. thank you
Chapter 26 Laboratory Application Assignment In this lab application assignment you will examine an RC coupling circuit and an RC low-pass filter. In the RC coulina circuit you will see how the series capacitor blocks the de component of the input voltage but passes the ac component. In the RC low-pass filter you will see how the low frequencies are passed from...
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