a. The tachometric feedback path affects the relative damping of a system as shown in Figure2. 15 K=9, G(s) s(s+4) C(s) i. Determine the transfer function R(s) ii. Calculate value of T in order to keep the damping ratio = 0.551 iii. Calculate the peak time and the settling time (use ±2% of the steady state) R(s) C(s) K G(s) ST Figure 2 b. Determine the differential equations and the transfer function I2(s)/Vi(s) of the system in figure 3. 1F 1)32: 12 2H Vi Figure 3 ell
a. The tachometric feedback path affects the relative damping of a system as shown in Figure2. 15 K=9, G(s) s(s+4) C(s) i. Determine the transfer function R(s) ii. Calculate value of T in order to keep the damping ratio = 0.551 iii. Calculate the peak time and the settling time (use ±2% of the steady state) R(s) C(s) K G(s) ST Figure 2 b. Determine the differential equations and the transfer function I2(s)/Vi(s) of the system in figure 3. 1F 1)32: 12 2H Vi Figure 3 ell
Introductory Circuit Analysis (13th Edition)
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ISBN:9780133923605
Author:Robert L. Boylestad
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Chapter1: Introduction
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KVL and KCL
KVL stands for Kirchhoff voltage law. KVL states that the total voltage drops around the loop in any closed electric circuit is equal to the sum of total voltage drop in the same closed loop.
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5
Transcribed Image Text:Task 2
a. The tachometric feedback path affects the relative damping of a system as shown in Figure2.
15
K=9, G(s) =
s(s+4)
C(s)
i. Determine the transfer function
R(s)
ii. Calculate value of T in order to keep the damping ratio 3= 0.551
iii. Calculate the peak time and the settling time (use ±2% of the steady state)
R(s)
C(s)
G(s)
ST
Figure 2
b. Determine the differential equations and the transfer function I2(s)/Vi(s) of the system in
figure 3.
1F
11 )32
1, )2H
Vi
Figure 3
please foces for the A and B
please solve All of them
ell
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