Use Mason's rule to find the transfer function of the signal-flow diagram shown. R(S) V₁(s) G₁(s) V3(s) -H{(s) G₂(s) -H₂(s) 1 V4(s) V5(S) G3(s) -H3(s) C(s)

Introductory Circuit Analysis (13th Edition)
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Author:Robert L. Boylestad
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Follow the instructions. Kindly provide a COMPLETE and CLEAR solution. Answer it ASAP because I really need it right now. Answer should be typewritten.

Provide the following:
Step 1. Solve for k
Step 2. Solve for Tk (forward path gain)
Step 3. Identify the loop gains (TL)
Step 4. Identify the nontouching loops taken two at a time TNL(2 time)
Step 5. Identify the nontouching loops taken three at a time TNL(3 time)
Step 6. Identify the nontouching loops taken four at a time TNL(4 time)
Step 7. Solve for component ∆
Step 8. Solve for component ∆k (Note: We form ∆k by eliminating from ∆ the loop gains that touch the kth forward path)
Step 9. Substitute on the equation for transfer function

1. Use Mason's rule to find the transfer function of
the signal-flow diagram shown.
R(S) O
V₁(s)
Gy(s)
V3(s)
-H₁(s)
G₂(s)
-H₂(s)
1
V4(s) V5(s)
G3(5)
-H3(s)
C(s)
Transcribed Image Text:1. Use Mason's rule to find the transfer function of the signal-flow diagram shown. R(S) O V₁(s) Gy(s) V3(s) -H₁(s) G₂(s) -H₂(s) 1 V4(s) V5(s) G3(5) -H3(s) C(s)
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Can you redo this again? The answer should be typewritten, thanks.

Provide the following:
Step 1. Solve for k
Step 2. Solve for Tk (forward path gain)
Step 3. Identify the loop gains (TL)
Step 4. Identify the nontouching loops taken two at a time TNL(2 time)
Step 5. Identify the nontouching loops taken three at a time TNL(3 time)
Step 6. Identify the nontouching loops taken four at a time TNL(4 time)
Step 7. Solve for component ∆
Step 8. Solve for component ∆k (Note: We form ∆k by eliminating from ∆ the loop gains that touch the kth forward path)
Step 9. Substitute on the equation for transfer function

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