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Please show all steps. 1) Reduce the following block diagram to a transfer function of a...
(1) For Figure 1, reduce the block diagram to the transfer function level. (2) For Figure 2, also reduce the block diagram to the transfer function level. (3) For Figure 3, again reduce the block diagram to the transfer function level. (4) For Figure 4, reduce the block diagram to the unity feedback loop level. Frgura 3 Ris) Hs Frere y Fes S8-12 K3 Kur (1) For Figure 1, reduce the block diagram to the transfer function level. (2) For...
Please show all the steps and solve with CLEAR handwriting. 1) Below given transfer function equations, use this equations and build its block diagram: C1(s)= Gui(s) R1(s)+ G12(s)R2(s)
Section VI: Block Diagram Reduction Individually reduce each of the following Block Diagrams into a single block with a transfer function G(s) expressed as a ratio of two polynomials N(s) / D(s) CV(S) R(s) H1 SH3 2 4
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
[5.0 Marks] Simplify the block-diagram shown in Figure 1 and reduce it to a single simplified transfer function TF(s) = C(s)/R(s) using only the simplification 'rules discussed in the lectures. Show the simplified answer in steps. In addition, the correct final transfer function answer is required that includes two polynomials: one at the numerator and one at the denominator. s + 5 R(s) - C(s) L. s + 3 S 6 s + 2 s +1. Figure 1
Question #2 ( 25 points) C(s) a) Reduce the block diagram shown in Figure 1 to a single transfer function T(s) =R) using the append and connect commands in MATLAB. pts b) Using Simulink simulate the transfer obtained in a) for a step input. c) Obtain the state-space representation of T(s). [10 [5 pts [10 pts] C(s) Ris 50 s+I 2 Figure 1 -Irt Question #2 ( 25 points) C(s) a) Reduce the block diagram shown in Figure 1 to...
Reduce the block diagram below to a single block representing the transfer function T(S) C(s) R(S) H3(s) Hl(s) R(s) + C(s) Gi(s) G2(s) G3(s) Hz(s) H4(s)
C(s) R(s) 5 Q2: Reduce the block diagram and find the transfer function: C(s) 3 4
Problem 1 Block Diagram Reduction Use the block diagram reduction method to compute the transfer function ()/R(8). Show work! Ab R(s) 0 FIGURE 7.27. Block diagram reduction.
(2) Show your work step-by-step. (3) Write cleanly and neatly. Question: (1) For Figure 1, reduce the block diagram to the transfer function level. (2) For Figure 2, also reduce the block diagram to the transfer function level. (3) For Figure 3, again reduce the block diagram to the transfer function level. (4) For Figure 4, reduce the block diagram to the unity feedback loop level. me res Fgure Ces Res) 20 St1e Yes U(s) t S(St1 S091 Figure 3...