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(10 points) Determine single transfer function equivalent to the system shown below 7. + 2. 10...
transfer function for the system shown below by using Mason's rule. 7 2 2 We were unable to transcribe this image
transfer function for the system shown below by using Mason's rule. 7 2 2
A bode plot of the transfer function, GS = - 25 $2+45+25, is shown as below. Bode Diagram System sys Frequency (rad/s): 7 Magnitude (dB): -3.4 Magnitude (dB) Phase (deg) Systemt sys Frequency (rad/s): 7 Phase (deg): - 130 - 135 - 180 10 Frequency (rad/s) Determine the frequency response y(t) when a sinusoidal function, X(t) = 10 sin (7t +30) is applied to the transfer function as an input signal. (20 points)
C(8) for the system shown in Figure 1. R(S Find the equivalent transfer function, Geg (s) 1 Cix) Figure 1. Block diagram 2s+1 s(5s+6Ge(s) = and Figure 2 shows a closed-loop transfer function, where G(s) 2. proper H(s) K+s. Find the overall closed-loop transfer function and express is as rational function. C(s) Ea (s) Controller R(s) +/ Plant G(s) Ge (s) Feedback H(s) Figure 2. Closed loop transfer function Construct the actuation Error Transfer Function associated with the system shown...
SS 2. Reduce the system shown in Figure P5.2 to a single transfer function, T(s) = C(s)/R(s). [Section: 5.2] G3 G4
Determine the transfer function of the system ***with an added
inductor***. Then determine the state space representation of the
system shown with an added inductor.
us Question Determine the Transfer Function of the systern in Problem #2, but now added into the circuit (figure below). (4 points) a) ith an inductor b) Determine the State-Space representation for the system with R. b6m
4. Determine the transfer function G(s) = for the system shown below. F(s) K1 = 4 N/m + X(t) →xj(t) K = 5 N/m 0000 M = 1 kg 1v2 = 3 N-s/m M2 = 2 kg f(t) HHH
Zon=1-EST for the system shown in the figure below the transfer function of the plant is 10 G(s) : (3+5) - the input signal Rat) is unit step & the sampling S time (T-1 sec.) Determine the time response of the system and draw the spectrum UCH) Rest piant Cis) Zuh V. range K
Problem 2 (25 points) For the rotational mechanical system with gears shown below, find the transfer function G(s)-0s(s)/T(s). The gears have inertia and bearing friction as shown T(0) Ji. D N2 N3 2. D2 14. D
3. For the feedback control system shown in Figure Q3 below, the forward-path transfer function given by G(s) and the sensor transfer function is given by H(s). R(s) C(s) G(s) H(s) Figure Q3 It is known that G(s) -- K(+20) S(+5) H(s) = and K is the proportional gain. (S+10) i. Determine the closed-loop transfer function and hence the characteristic equation of the system. [6 marks] ii. Using the Routh-Hurwitz criterion, determine the stability of the closed-loop system. Determine the...
The transfer function Vo(s)/Vi(s) of the electrical system described in figure shown below is. (3 Points (CRC) 12.1) LSIC 2.5+1) None of them CHCESZ 2CR5+1) 1/CE 2. CR 5+1) CSAVICE 2. CR3+1) R/LCES2 CRS+1)Option 6 Activate Windows