18 Question: For the block diagram given in the following figure, the Control ratio is:* (3...
6 Question: For the block diagram given in the following figure, the Control ratio is: * (3 Points) R(s) Y(s) G1 G2 G3 G1 (s) = K, G2 (s) = 1, G3 (s) = 21 S+6'
11 Question: For the block diagram given in the following figure, the Yss is : (3 Points) R(s) Y(s) G1 G2 G3 R(5) = }, GI(s) = K, G2 (s) = 5, 63 (s) = 15 Enter your answer
What is the transfer function of the following diagram? X(s) - G1(s) Y(s) block diagram G2(s) G3(s) - Y(s)/X(s) = G1/(1+G1 +G2+G3) O Ys/X(s) = G1/(1 - G1 * G2 - G1 • G3) OY(S)/X(s) = G1/(1+G1 * G2 + G1 • G3) OY(s} / X{s) - 01/(1-01-C2-C2) Be
The control system of an autonomous vehicle is represented by a block diagram as shown in Figure 1. Determine the Signal Flow Diagram (SFG) by correctly labeling the nodes and loops. H.() G (3) G (3) [5 Marks) [CO3,PO2.C3] H1 -H1 G1 G2 G3 G4 G5 1 -1 Your answer is not complete; please drag an item to each drop region.
Simplify (reduce) this block diagram using the block diagram reduction rules. Show all steps G4 R(s) G1 G2 G3 GS! Y(s) H Post your answer HERE Select one: True O False
The figure below shows a block diagram of a feedback system. Both cascade clutch and forward clutch are used to obtain the best possible control. G1 and G2 have the following transfer functions: G1(s) = 8 / 1+5s , G2(s)= 7/ 1+10s a) Suppose that a (t) = σ (t) or A (s) = 1 / s. Dimension Gr1 = K so that the residual error s e in the inner loop from A (s) to B (s) becomes less...
3. There is a block diagram as shown in Fig. G1 G2 G3 Fig. 2 (a) Convert the block diagram to a signal flow (b) Obtain its transfer function (G(s)-C(s)/R(s)) (c) As G -K.G3 G3 and its inputrt) is unit step, obtain the 50 condition of the P-controller(G1) for c(t) not to oscillate.
Find the closed-loop transfer function, T(s)-C(s)/R(s) for the following systems using block diagram reduction R(s)+ G1 G2 G8 C(s) G2 G4 G7 G3 G1 G2 G3 G4. C(s) R(s)+ G5 G6 G7
3-21. The block diagram of a control system is shown in Fig. 3P-21. (a) Draw an equivalent SFG for the system. (b) Find the following transfer functions by applying the gain formula of the SFG directly to the block diagram. Y(s) Y(s) E(s) E(s) R(s)[N=0 N(s)R=0 R(s) N= N(s) R-0 (c) Compare the answers by applying the gain formula to the equivalent SFG. N() G (s) E(s) YS G () G3(s) H () Figure 3P-21
Consider the block diagram in figure 2 a. Hy R(s) GI G G3 +1 Figure 2 Convert figure 2 to signal flow graph. Using your result in Q5ali), determine the transfer function using the Mason's gain (2marks) formula. Consider the block diagram in figure 2 a. Hy R(s) GI G G3 +1 Figure 2 Convert figure 2 to signal flow graph. Using your result in Q5ali), determine the transfer function using the Mason's gain (2marks) formula.