Use SFG (convert original Block Diagram to SFG then find the TF). R(s)+ 50 C(s) S+...
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
with Creating a block diagram of this circuit,
Find the C(s)/R(s) with Block Diagram Reduction Method and
Sginal Flow Diagram Method?
RI + + v(t) C1 HE C2 volt)
(SLO .... (6)Points] 2. Find the C(S)/R(S) for the below block diagram using block diagram reduction technique.
Problem 1 (30 points): A system's block diagram is shown in the figure. 1. Transform the block diagram to an SFG 2. Calculate the transfer function from R(s) to Y)
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.
Simplify the following block diagram. Obtain the transfer function from R to C for Fig. 1,
and the transfer function from X(s) to Y(s) for Fig. 2.Convert the block diagram of figures 1 and 2 to a signal flow graph.Below are the diagrams:
Reduce the block diagram shown to a single block T(s)= C(s)/R(s).
TICCll.. A ram shown in Figure P5.3 to a single block, T/s) = C(s)/R(s). [Section: 5.2] G8 C(s) R(S) + G6 G3 ure P5.4 to an equivalent unity-feedback system.
Using SFG, find the transfer function C(s)/R(s). Use fx to input
your answer here.
Using SFG, find the transfer function C(s)/R(5). Use fx to input your answer here. R(S) C(s) X X G1 H1 H2
C(s) R(s) 5 Q2: Reduce the block diagram and find the transfer function: C(s) 3 4
4)Convert the following block diagram into signal flow graph (15 marks) R(s) X (s) U(s) H.(s) D(s) G(s) Xx(s) Hz(s) 5) Using Mason's gain formula, find the transfer function of the following systems (40 marks).