Plot the Bode diagram and phase diagram for given Transfer Function. Explain why this is a stable/unstable system? 4. 22pts G( s) = 9(S +8)/ ( S+6)(S+20) B) What is the phase Margin and Gain Margin A)
4) for the system given block diagram below; a) find the transfer function of the control system. B) calculate and & values and explain what kind of dynamic behavior the system exhibits. c) if the unit digit effect is made in R (s ), infer the response equality of the system. 0.025 5 0.2.8+1 0.5-5+1 C($)
Given the Mechanical system.Find the transfer function, X3(s)/F(s), for each system shown in figure.
Automatic Control IV Question 4 The transfer function of a servo system has the transfer function given by: A vibrating spring-mass system has the feedback control system shown in Fig Q4 below. R(S) - _K s(s+2) Fig 24 If K = 12.25 determine: 4.1 the transfer function C(s)/R(3) 4.3 the un-damped natural frequency of the system 4.4 the damping ratio 4.5 the damped natural frequency 4.6 the maximum percentage overshoot 4.7 the peak time 4.8 the settling time for the...
Question) The transfer function of the system given in the block diagram below a) Find with the block diagram reduction method? b) Find by Routh-Hurwitz stability analysis method? NOTE: Draw option b on the flow diagram and solve it. R(S) C(s) GA G3 G H
Find the transfer function for the given block diagram as shown in figure below by using block reduction rules. (5 Marks) DG-600GBG 10 Fig.5 Explain the liquid level system with block diagram useful in nlaces where it is difficult to monitor
For a system with Bode diagram as follow, find out the system transfer function, discuss the system stability. Bode Diagram 50 40 -20 90 O. 135 -180 Frequency (rad/s ec) Show all step by step working out to get to final answer as shown below: Transfer function of the bode diagram is 100/(2jw+1)A2
Find the transfer function Given below is a block diagram of a load frequency control system with two inputs, the speed changer AP.(t) and load disturbance Apa(t), and the output is the system frequency error Af(t). 20 APD APC 0.25 +1 2.1s +1 2.1s2 + 7.3s +1 10s +1
Answer Questions 7 through 13 using the diagram below. 7. Open Loop Transfer Function 8. Closed Loop Transfer Function 9. Characteristic Equation 10. Damping Factor 11. Natural Frequency in rad/sec 12. Is the system over-, under-, or critically-damped?_ 13. What is the Error Coefficient and Steady-State error of the system? Error Coefficient Steady-State error h=0.25 14. Given the following parameters for a position control system: Step input of 2 radians; Kp = 4, Ka = 20, Km = 8, h...
Consider that the forward-path transfer function matrix and the feedback-path transfer function matrix of the control system are $ + 2 Analyze the system and then find the closed loop transfer function