Part b: For the system shown, determine au l2(s) E(S) r-0 Rs5? R2- 52 10 V...
For the circuit shown in Figure 1, determine (a) The transfer function H(s) Vo(s)/V(s) 1 (b). The impulse response h(t) given that R,-5Q, R2-2Q, L,-1 mH, and L2 = 2 mH Ri L R2 Figure 1.
S+5 e. L1 = 10nH, R = 1009, and R2 = 0!! 6) Given a system with a transfer function of H(S) = 7002 a. Write the steady state output of the system if the input is y(t) = sin(2000) b. Sketch the Bode plot no 30 1
For the circuit shown below, E = 28 V, L = 5.2 mh, and R = 6.0 0. After steady state is reached with S, closed and S, open, s, is closed and immediately thereafter (at t = 0) S, is opened. R N (a) Determine the current through L (in A) at t = 0. (b) Determine the current through L (in A) at t = 4.0 x 10-4 s. (c) Determine the voltages across L and R (in...
Question 7/10 R {R2 In the circuit in the figure erf of the battery E=25 V. All the inductors are of the LI same inductance, L=0.061 H and of negligible resistances. 8 S Resistances of the resistors 6N, R 422, R 892, R3 = 82, R = 152, Rs = 91, Rs =8n. The switch S is closed at the time t = 0. Find the current flowing in Ro immediately after the switch S is closed. are Ro Oston...
(10 marks) (CLO) 01. For the control system shown in Fig. below, determine: (a) As)/R() (b) Coo) (c) Offset (d) C(0.5) (e) Whether the closed-loop response is oscillatory U=0 IN sis+ D)
QUESTION 11 Consider the circuit shown in the figure shown below. Suppose that R 52, v, 20 V. Find the value of the Thévenin voltage. R 10 0 V. 0.5i 100 o b 10 V 15 V 6.67 V 3.33 V T 17 MacBook Air O00 DOO EA FS F3 F2 4
Consider the following closed-loop system: ID(S) Cis) P(s) R(s) — 0 40 52 + 20s + Recall that E(s) = R(s) - Y(s). a) What is steady-state error, ess, in response to a unit step at disturbance input D(s) when a = 12? b) What is steady-state error, ess, in response to a unit step at disturbance input D(s) when a = 12.3? c) What is the fractional change in a between parts (a) and (b)? In other words, what...
R 1 (1) L + us(t) = u(1) v (0) R2 } v. (!) (t) + 20%*(t) + war(t) = f(t). Let x(t) be volt). (a) Determine iz(t). Hint: Apply Ohm's law on R2. (b) Determine dir()/dt. (c) Determine u(t). (d) Determine vct) using KVL. (e) Determine current through Ry using KCL. (f) Determine vs(t). (g) Determine a and wo.
For the circuit shown below, E = 14 V, L = 3.6 mh, and R = 7.0 N. After steady state is reached with S, closed and S, open, s, is closed and immediately thereafter (at t = 0) s, is opened. S2 W Lecce (a) Determine the current through L in A) at t = 0. (b) Determine the current through L (in A) at t = 4.0 x 10-4 s. A (c) Determine the voltages across L and...
What is the conclusion needed R2=100 Part II: 1. Series connection - R = 52 1. Output of power supply = 5V 3. Vi= 1.227 v . 4. V2= 2.460 5. Vz+V2= 3.687 Comment : 6. I (before Ri) = 0.23. , I (between R1 & R2)= 0.234_,I(afterRz)= 0.23A Comment: 7. Compare the product Rix I to V1. 8. Compare the product RzxI to V2. b) Parallel connection R-5.12 Rozloc 2. Output of power supply 5V 3. V₂ = 2,939...