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R + 1. Analyze the following circuit. Calculate the capacitor voltage as a function of time...
Inductor +VR 300 220m 100 50 LI Function Generator Figure 2: RLC Circuit with 100Ω Resistor Ind...
Please help answer in pspice, thank you very much.
Inductor +VR 300 220m 100 50 LI Function Generator Figure 2: RLC Circuit with 100Ω Resistor Inductor 50 300 220m 1k Function Generator Figure 1: RLC Circuit with 1kQ Resistor Generate a computer simulation modeling the capacitor voltage transient of the RLC circuit for Figures 1 and 2. Measure the initial capacitor voltage, vc(0), the final capacitor voltage, vc), and the capacitor voltage at 0.5 mS, 1 mS, and 2 mS....
Consider the circuit of Figure 1. The voltage source vs and resistance Rs comprise a circuit model of a function genera...
Consider the circuit of Figure 1. The voltage source vs and
resistance Rs comprise a circuit model of a function generator.
1. Find the circuit time constant ? for t?0. Assuming that the
capacitor is initially uncharged, find and accurately sketch vR(t)
and vC(t) for t?0. Calculate vR(t) and vC(t) for t = 0, ?, 2?, 3?,
4?, and 5? seconds.
2. Find the 10-90% rise time of vC(t) (this is the time required
for vC(t) to transition from 10%...
MENG 207-ELECTRICITY Department of Engineering & Design at Eastern Washington University Lab 6 PRE LAB 1. Print out lab handout and bring to lalb 2. Do calculations for part 1 in RC CIRCUIT s...
MENG 207-ELECTRICITY Department of Engineering & Design at Eastern Washington University Lab 6 PRE LAB 1. Print out lab handout and bring to lalb 2. Do calculations for part 1 in RC CIRCUIT section. 3. Do calculations for part 1 in RL CIRCUIT section. 4. Do calculations for part 1 in RLC CIRCUIT section OBECTVE:response Use Multisim to study the transient response of an RC and RL circuit, and the frequency response of an RLC circuit. PROCEDURES 1. Record every...
ㄥ FIGURE 9.39 The circuit shown schematically in Fig. 9.39 is constructed using R- 20 m2...
ㄥ FIGURE 9.39 The circuit shown schematically in Fig. 9.39 is constructed using R- 20 m2 C= 50 mf, and L = 2 ml. (a) Find an expression for 4r(1) valid for 1 > 0 if v(O+) = 0 and i (0° ) = 2 mA. (b) Sketch your solution over the range of <t< 500 ms. (c) Simulate the circuit using PSpice. Submit a properly labeled schematic with your plot. Does the simulation agree with your analytical result? (Don't...
For the following circuit: At t=0 the voltage drop on the capacitor is and points s...
For the following circuit:
At t=0 the voltage drop on the capacitor is and
points s and 1 are connected.
1) Which of the following statement describe what will happen in
the circuit ? (select one)
a. The capacitor will be charged to a final voltage of , with I
being the current in the circuit
b. The capacitor will disconnect the circuit so no current will
exist
c. The voltage will oscillate at an angular frequency of
d. The...
you will analyse circuits using the circuit simulation software QUCS (Quite Universal Circuit Simulator, you can...
you will analyse circuits using the circuit simulation software
QUCS (Quite Universal Circuit Simulator, you can download QUCS from
http://qucs.sourceforge.net/index.html).
In QUCS you build your circuit by creating a schematic of the
circuit through a graphical user interface. In the same graphical
user interface you also define what simulations to be performed and
in the lab you will use DC, Transient and ac simulations. After the
simulation is finished you can display the simulation results in
the same graphical interface....
Lab Procedure: Part 1: Source Free RC Circuit V(t) ilts C3 (R3 21ko 1uF IC=10V a)...
Lab Procedure: Part 1: Source Free RC Circuit V(t) ilts C3 (R3 21ko 1uF IC=10V a) For the circuit shown above, provide the equation and calculate the following: 1. The source free equation for V(t) for V(O)= 10 volts 2. The equation for it) 3. V(t) and i(t) for t = t (one time constant) b) Now, enter the circuit using Multisim Schematic Capture. c) Simulate using Transient mode with a graphical output and verify graphical results with your calculations....
Consider the following circuit involving a 2F capacitor connected to resistors and a voltage source. (e)...
Consider the following circuit involving a 2F
capacitor connected to resistors and a voltage source.
(e) (5 points) Determine the mathematical expression for UL (10 points) Consider the following circuit involving a 2F capacitor connected to resistors and a voltage source. Given that vc(0) = 2V, find the voltage of the capacitor as a function of time for t > 0 692 232 10V 332 2F+ VC Figure 2: (a) (5 points) Find the Thevenin equivalent circuit with Thevenin voltage...
Consider the circuit of Figure 1. The voltage source Vs and resistance Rs comprise a circuit model of a function g...
Consider the circuit of Figure 1. The voltage source Vs and
resistance Rs comprise a circuit model of a function
generator.
Find the circuit time constant τ for t≥0. Assuming that the
capacitor is initially uncharged, find and accurately sketch vR(t)
and vC(t) for t≥0. Calculate vR(t) and vC(t) for t = 0, τ, 2τ, 3τ,
4τ, and 5τ seconds.
Find the 10-90% rise time of vC(t) (this is the time required for
vC(t) to transition from 10% (0.5V) to...
Function Generatr Inductor Model Ra R, Figure 1 Series RLC Circuit Preliminary This laboratory wi...
Function Generatr Inductor Model Ra R, Figure 1 Series RLC Circuit Preliminary This laboratory will demonstrate how varying resistance changes the natural response of a series RLC circuit (Fig. 1). The function generator is modeled as an ideal voltage source v(t) 5 u() V in series with source resistance Rs-50Q. After measurements using an LCR meter, the inductor is modeled as an ideal L 90 mH inductor in series with resistance RL-20Q. The capacitance is C-0.22 μF. 1) Calculate the...
Please help answer in pspice, thank you very much.
Inductor +VR 300 220m 100 50 LI Function Generator Figure 2: RLC Circuit with 100Ω Resistor Inductor 50 300 220m 1k Function Generator Figure 1: RLC Circuit with 1kQ Resistor Generate a computer simulation modeling the capacitor voltage transient of the RLC circuit for Figures 1 and 2. Measure the initial capacitor voltage, vc(0), the final capacitor voltage, vc), and the capacitor voltage at 0.5 mS, 1 mS, and 2 mS....
Consider the circuit of Figure 1. The voltage source vs and
resistance Rs comprise a circuit model of a function generator.
1. Find the circuit time constant ? for t?0. Assuming that the
capacitor is initially uncharged, find and accurately sketch vR(t)
and vC(t) for t?0. Calculate vR(t) and vC(t) for t = 0, ?, 2?, 3?,
4?, and 5? seconds.
2. Find the 10-90% rise time of vC(t) (this is the time required
for vC(t) to transition from 10%...
MENG 207-ELECTRICITY Department of Engineering & Design at Eastern Washington University Lab 6 PRE LAB 1. Print out lab handout and bring to lalb 2. Do calculations for part 1 in RC CIRCUIT section. 3. Do calculations for part 1 in RL CIRCUIT section. 4. Do calculations for part 1 in RLC CIRCUIT section OBECTVE:response Use Multisim to study the transient response of an RC and RL circuit, and the frequency response of an RLC circuit. PROCEDURES 1. Record every...
ㄥ FIGURE 9.39 The circuit shown schematically in Fig. 9.39 is constructed using R- 20 m2 C= 50 mf, and L = 2 ml. (a) Find an expression for 4r(1) valid for 1 > 0 if v(O+) = 0 and i (0° ) = 2 mA. (b) Sketch your solution over the range of <t< 500 ms. (c) Simulate the circuit using PSpice. Submit a properly labeled schematic with your plot. Does the simulation agree with your analytical result? (Don't...
For the following circuit:
At t=0 the voltage drop on the capacitor is and
points s and 1 are connected.
1) Which of the following statement describe what will happen in
the circuit ? (select one)
a. The capacitor will be charged to a final voltage of , with I
being the current in the circuit
b. The capacitor will disconnect the circuit so no current will
exist
c. The voltage will oscillate at an angular frequency of
d. The...
you will analyse circuits using the circuit simulation software
QUCS (Quite Universal Circuit Simulator, you can download QUCS from
http://qucs.sourceforge.net/index.html).
In QUCS you build your circuit by creating a schematic of the
circuit through a graphical user interface. In the same graphical
user interface you also define what simulations to be performed and
in the lab you will use DC, Transient and ac simulations. After the
simulation is finished you can display the simulation results in
the same graphical interface....
Lab Procedure: Part 1: Source Free RC Circuit V(t) ilts C3 (R3 21ko 1uF IC=10V a) For the circuit shown above, provide the equation and calculate the following: 1. The source free equation for V(t) for V(O)= 10 volts 2. The equation for it) 3. V(t) and i(t) for t = t (one time constant) b) Now, enter the circuit using Multisim Schematic Capture. c) Simulate using Transient mode with a graphical output and verify graphical results with your calculations....
Consider the following circuit involving a 2F
capacitor connected to resistors and a voltage source.
(e) (5 points) Determine the mathematical expression for UL (10 points) Consider the following circuit involving a 2F capacitor connected to resistors and a voltage source. Given that vc(0) = 2V, find the voltage of the capacitor as a function of time for t > 0 692 232 10V 332 2F+ VC Figure 2: (a) (5 points) Find the Thevenin equivalent circuit with Thevenin voltage...
Consider the circuit of Figure 1. The voltage source Vs and
resistance Rs comprise a circuit model of a function
generator.
Find the circuit time constant τ for t≥0. Assuming that the
capacitor is initially uncharged, find and accurately sketch vR(t)
and vC(t) for t≥0. Calculate vR(t) and vC(t) for t = 0, τ, 2τ, 3τ,
4τ, and 5τ seconds.
Find the 10-90% rise time of vC(t) (this is the time required for
vC(t) to transition from 10% (0.5V) to...
Function Generatr Inductor Model Ra R, Figure 1 Series RLC Circuit Preliminary This laboratory will demonstrate how varying resistance changes the natural response of a series RLC circuit (Fig. 1). The function generator is modeled as an ideal voltage source v(t) 5 u() V in series with source resistance Rs-50Q. After measurements using an LCR meter, the inductor is modeled as an ideal L 90 mH inductor in series with resistance RL-20Q. The capacitance is C-0.22 μF. 1) Calculate the...
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