Expert Q&A Done ) Find the transfer function from input r(t) to the output p(f) in...
1. Find the following transfer function Io(t) and Is(t) are output and input respectively. transfer function H(s) n+ 1 (0.1*n+0.2) L + + vs ☺ 0.5 F n+ 2 s 1 a) Find Transfer function (assuming initial conditions are zero) H(s) = 1(s)/V; (s) b) Explain the system stability
Find the transfer function between the output inductor voltage vl(t) and input voltage v(t) for the following system? R v(t) llll vi(t) iſt)
Find the transfer function between the output inductor voltage vl(t) and input voltage v(t) for the following system? R w + v(t) + 0000 vi(t) iſt)
A system with input r(t) and output y(t) has transfer function G(s) = 10 (s + 1)(s + 2). Find y(t) for t ≥ 0 if the following inputs are applied (with zero initial conditions): (a) r(t) = u(t) (b) r(t) = e^ −t*u(t)
Find the transfer function H(jω) for the
circuit above as a function of jω. (Leave R and L as variables).
Assume V R to be the output and V S to be the input.
С L RVR(t) vs (t) A. Find the transfer function H(jo) for the circuit above as a function of jaw. (Leave R and L as variables). Assume V to be the output and V to be the input. S R B. Find the Magnitude and Phase...
Letting the input R(s) = 1/s, determine the output, x(t), for the following transfer function: 20 X(s) 20 R(S) – (52 + 25 + 5) – (s +1 +21)(s +1 – 21) Use the following Laplace Transforms: F(s) f(t) 1/s 1 As + o) + BW (s + 5)2 + w2 Ae-ot cos(wt) + B e-ot cos(wt)
3. (10 points) Given the following the input function f(t). transfer function, find the steady-state response ?..(t) to function, ng Y (s) f(t) = 6 sin(9t)
For a control system, its transfer function from the input to the output is H(s) = 4/ (s2 + 2s + 2 ) if the input is r(t) = u(t), the steady-state tracking error is . a. 0 b. 1. c. 2 d. −1 e. None
Find the transfer function from the input u to the output y, for each of the following systems: (a) y + 3y + 5y = 8u (b) y= 3.1 + 2r, + 9.2 + 4.r = u 2ų – 12y - y = 7u – 3u dy dy = 3u - 1 d76-34 d3 + 2.sodu d44-u, d73 +84 dt Y(S) Hint: The Laplace operator is linear, and thus ; X(s) Y(s) U(s) U(s) X(5)
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Question 3 (5.5 marks) a) Find the transfer function of the electrical circuit shown in Figure 1. What is the value of the steady state gain(s), if any? b) If R1 1, R2 = 2n, C\ = 2- 10-3F, C 1-10-3F, calculate the time constants of the system (if any). c) Find the initial and final values of the unit impulse response of the circuit d) Derive the time-domain expression of the output if the input is the function...