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Q3. In the circuit as shown below, given that R1 = 4 Ω, R2-4 Ω, L 2 H, and C = 0.5 F, where vs(t) is given by the waveform displayed in the same figure 1 V (a) Determine the s-domain current I(so) at so-0.05 jo.07 (rad/s): IL(So)- Submit Answer Tries 0/3 (b) Determine the t-domain current i(to) at to 4.5 (s): Submit Answer Tries 0/8 Q4. Determine the output voltage in the circuit as shown below, given that Vs-35*u(t)...
C1 R1=1 ? R2-10 ? R3 100 ? L1 R1 10 UIN(t) C2 R3Uex(t) R2 0.1 0.1 Un(t)-1(t), tcti; tis 6 ?s UN(t) 0, t>ti us; Find UEx(t) by: 1) State variable method; 2) Laplace Transforms ( residue calculations ); 3) Convolution calculations. Simulating the circuit with PSpice find graphics: 1) Uex(t); 2) Unit step response g(t); 3) Impulse response h(t); Find: 1) Unit step response g(t), also analytical form of g(t); 2) Impulse response h(t), also analytical form of...
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...
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...
For the electrical circuit below, let R1=30 Ohms, R2=15 Ohms,
R3=10 Ohms, R4=20 Ohms, C=0.1 F and Vin=10V and complete the
following.
For the electrical circuit below, let R1 = 30 12, R2 = 152, R3 = 102, R1 = 20 2, C =0.1 F and Vin = 10V and complete the following. a) Use circuit analysis to derive the differential equation for the capacitor voltage, V.(t). b) Find the solution for V«(t) and sketch it for t=0, t and...
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Q2 (14%) Consider the circuit below where R1=25 Ω, R2=1,5 Ω, c,-18F, and C2=1/10F a) Find the transfer function between the input voltage and output voltage, that is, H(s) - Vo(s)/N(s) (b) Draw the bode plots for the transfer function. 0-2 0. Ri 2. m@ cT쿠 e(t) Ci c2
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...
The following circuit consists of linear time invariant
components where R1 = 2,
R2 = 3,
C = 0.25F, and L = 1H. Let vs be the input voltage.
(a) Solve the differential equation that describes
vc(t). Hint: First, find the current
going through the parallel branch of R1–C. Then, write
the Kirchoff's Voltage Law for the main loop.
(b) Find vc(t) given that vs(t) = 2.5 V at
t = 0. Assume that vc(0-) = 1V and
iL(0-) =...
35. Compute the impulse response, h(t), of the circuit below in which R1-4 Ω, R2-8 Ω, and page 14 Spring i8 C=0.5 F, and vc(t) is the output. Suppose fi(t)-Keatu(-t), a > 0 and ½(t)=K,e-btu(t), b>0. Compute each of the indicated convolutions. Assume a # b . When plotting, let K-K2-10 (a) yi(t)-h(t) *11(-1) in terms of a and b, and sketch for-4 < t < 4 when a = 1, b-2 in MATLAB. (b) y2(t) = h(t) *,(1) in...
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R2 R3 R1 C1 C2 S2 51 In the circuit, the signal frequency f = 1.2 MHz, R1=9 Ohm, R2 = 8 Ohm, R3 = 7 Ohm, C1-22 nF, C2=25 nF; The voltage source Vs1 amplitude and phase are 15 V and 0.12 rad; the voltage source Vs2 amplitude and phase are 4 V and 0.4 rad. (Note the polarity of the voltage sources!) Using nodal analysis, find the following 1) The amplitude of the potential at...