Vin across the left port, Vout across the right port.
The circuit is transformed into frequency domain.The input-output relation is found by voltage division rule.Then the phase difference expression is found.
Vin across the left port, Vout across the right port. R1 L1 C1 Find the phase...
Given the circuit below: R3 C1 Vout C2 R1 R3 Vin R2 ts 1 a) derive the transfer function between the input and the output in terms of R1,C1,R2,C2 b) For this and all other parts below, assume Izl<Ipl, i..e that D(s) is a lead-type compensator. The transfer function is written in the following format ts 1 Express quantities K, z, p using R1,C1,R2,C2 Also, express Κα, α, τ using K,z, p c) Observe the values of s-jw on the...
t (u)/Vin(a) for all ω·Vin(ω) is across the left (a) for all . Vin find the magnitude of Dou For the circuit below, ports, out () across the right ports R1 L1 C1
What is the phase of the current through L1 flowing
left to right? (unit: rad)
I got every part right, including the amplitude
through L1, correct, but the phase is wrong. If you could do it in
MATLAB that'd be helpful so I can see where I messed up
Problem 02 C1 - m Vs1 ) C2 In the circuit, the amplitude and phase of the voltage and current sources are: Vs1: 8 V and 0.05 rad; Is1: 3 A...
C1 R1 U1 Vout Vin 1 The above integrator has a pole at 1Hz. Given R1-8㏀ and G-8nF, find the open loop gain of the op amp.
2. In the circuit below, R1 = 10k, R2 : magnitude is applied to the input. Find V(t) at the output and sketch it. Your sketch should be quantitatively correct, that is, it should have labeled V and t axes. Strongly suggested: solve by first finding the Thévenin equivalent of the source voltage and resistor network. 20k and C = 0.1µF. At t = 0, a step function of 10 V Input (problem 3) R, 10V- IN R2 C, OUT...
3. In the circuit below. R1 = 10k, R2 = 20k and C = 0,1,1F. At t = 0, a step function of 10 V magnitude is applied to the input. Find V(t) at the output and sketch it. Your sketch should be quantitatively correct, that is, it should have labeled V and t axes. Strongly suggested: solve by first finding the Thévenin equivalent of the source voltage and resistor network. Input (problem 3) R1 10V IN R2 C1 OUT...
C and D for pspice please
R1 L1 C1 1K 2.2mH 10nF 5 V sine Figure 9.1 Theoretical: a) Calculate the resonant frequency fo for the circuit in the figure 9.1 b) Calculate the maximum current which flows in the circuit in the figure 9.1 PSpice Simulation: c) Draw the schematic in figure 9.1 using Pspice. Use AC Sweep analysis and specify a wide range of frequencies including the resonant frequency. d) Show graphically that at resonant frequency the voltage...
MA C2 Vin out R2 Component Values: R1 = 2k , R2 = 10㏀, Cl = C2 = 1nF Consider the filter circuit above. Assume that the operational amplifier is ideal (infinite gain and infinite input impedance) Problem 2: Derive the transfer function of the circuit, H(s) - Vout(s)Vin(s)
Please answer number 1
1. Find the transfer function Voda)/Vin(a) for the circuit shown in Figure 1 of the lab (where complex frequency variable s jo can be substituted for ease of analysis.) Calculate values for R and C such that the phase shift between the output and input is zero for an input frequency of 10kHz. What is the amplitude ratio (gain) of the output to the input at this frequency. 2. The RC network in figure 3 of...
Find the Steady State Voltage and Current
Values.
Develop the equation for i(t) , the current through
the inductor and Vout(t).
I need help, I don't know if my calculations are correct, I
found the neper frequency to be: a=439.109 rad/sec and resonant
frequency to be Wo=14586.5 rad/sec.
This is a parallel step response RLC circuit
The circuit is underdamped.
Please show all work clearly so that I can understand the
process.
Vout(t) is the voltage across R2 (which is...