Q5: For a unity feedback control system with the following feed forward transfer function K G(s) = (s + 1)(s +3) Answer the following: 1- A suitable design to achieve zero steady state error for step input is: a- PD compensator b- Lag compensator c- Lead compensator d- PI compensator 2- A suitable design to reduce the settling time of system's under damped response is: a- K adjustment b- PD compensator c- Lag compensator d- PI compensator 3- All possible range of K for stable closed-loop operation is: a- 00 c- 0

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Q5: For a unity feedback control system with the following feed forward transfer function
K
G(s) =
(s + 1)(s +3)
Answer the following:
1- A suitable design to achieve zero steady state error for step input is:
a- PD compensator
b- Lag compensator
c- Lead compensator
d- PI compensator
2- A suitable design to reduce the settling time of system's under damped response is:
a- K adjustment
b- PD compensator
c- Lag compensator
d- PI compensator
3- All possible range of K for stable closed-loop operation is:
a- 0<K<1
b- K>0
c- 0<K<10
d- K21
4- The value of K at the break away point is:
a- K=1
b- K=10
c- K=2
d- K=20
5- The value of K to reach damping ratio of 0.5 is
a- K=5
b- K=7
c- K=11
d- K=13
Transcribed Image Text:Q5: For a unity feedback control system with the following feed forward transfer function K G(s) = (s + 1)(s +3) Answer the following: 1- A suitable design to achieve zero steady state error for step input is: a- PD compensator b- Lag compensator c- Lead compensator d- PI compensator 2- A suitable design to reduce the settling time of system's under damped response is: a- K adjustment b- PD compensator c- Lag compensator d- PI compensator 3- All possible range of K for stable closed-loop operation is: a- 0<K<1 b- K>0 c- 0<K<10 d- K21 4- The value of K at the break away point is: a- K=1 b- K=10 c- K=2 d- K=20 5- The value of K to reach damping ratio of 0.5 is a- K=5 b- K=7 c- K=11 d- K=13
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