The motor transfer function is given in Figure A. a) If this motor were the forward transfer function of a unity-feedback system, calculate the percent overshoot and settling time that could be expected. b) You want to improve the closed-loop response. Since the motor constants cannot be changed and you cannot use a different motor, an amplifier and tachometer are inserted into the loop as shown in Figure B. Find the values of K₁ and K₁ to yield a percent overshoot of 15% and a settling time of 0.5 second. c) Evaluate the steady-state error specifications for both the uncompensated and the compensated systems.

Pls solve in detail by hand.

Transcribed Image Text:

The motor transfer function is given in Figure A. a) If this motor were the forward transfer function of a unity-feedback system, calculate the percent overshoot and settling time that could be expected. b) You want to improve the closed-loop response. Since the motor constants cannot be changed and you cannot use a different motor, an amplifier and tachometer are inserted into the loop as shown in Figure B. Find the values of K₁ and Kfto yield a percent overshoot of 15% and a settling time of 0.5 second. c) Evaluate the steady-state error specifications for both the uncompensated and the compensated systems. R(S) Ea(s) E(s) Amplifier K₁ 25 s(s+2) Figure A Figure B 0,(s) Motor 25 s(s + 2) Tachometer Kfs C(s)