a.)Determine the values of the
poles and zeros of the closed loop system shown when the controller
gain kc = 0.
answer should be
no zeros
poles at s = 2.0 and -0.5 ± j
b.) Compare these with the open loop poles and zeros.
c.) Now determine the values of the poles and zeros at some very high gain, say kc = 105 .
Homework Answers
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a.)Determine the values of the poles and zeros of the closed loop system shown when the controller gain kc = 0. answer should be no zeros poles at s = 2.0 and -0.5 ± j b.) Compare these with the open...
2. Consider the closed-loop system shown below Here Kp represents the gain of a proportional controller, and the proces...
2. Consider the closed-loop system shown below
Here Kp represents the gain of a proportional controller, and
the process transfer function is given by
.
(a) Sketch the locus of the closed-loop poles as the
proportional gain, Kp, varies from 0 to ∞. Be sure to clearly mark
poles, zeros, asymptotes, angles of arrival/departure,
break-in/away points, and real axis portion of the locus.
(b) Using Routh's array, determine the range of the proportional
gain, Kp, for which the closed-loop system...
This problem explores the effect of closed-loop zeros on the system response. Suppose ?(?) = ??...
This problem explores the
effect of closed-loop zeros on the system response. Suppose ?(?) =
?? (?)?? (?) where ?? (?) = ? a proportional controller. The plant
??(?) takes on two different systems in Problem 1 and in Problem
2
1. Suppose ??1 (?) = 1 ?(? 2+6?+45) a. Find the open-loop poles
and the closed-loop poles when ? = 40 b. Find and plot the
closed-loop unit step response, that is, find ?(?), ? > 0 when
?(?)...
For the closed-loop system shown, and given: G(s)= 20 * 2 / s2+ 5.76s+ 2 For the closed-loop system shown, and given: G(s)-20 ,7; 576st 2- Part A - Controller Design Find the proportional gain (...
For the closed-loop system shown, and given:
G(s)= 20 * 2 /
s2+ 5.76s+ 2
For the closed-loop system shown, and given: G(s)-20 ,7; 576st 2- Part A - Controller Design Find the proportional gain (ie, C(s)-KP ) that would result in a rise time of tr-0.21 s vec Кр Previous Answers Request Answer Submit x Incorrect: Try Again
For the closed-loop system shown, and given: G(s)-20 ,7; 576st 2- Part A - Controller Design Find the proportional gain (ie,...
For the closed-loop system shown, and given G(s) 150.41 s2+ 0.41s+4 Part A Controller Design Find the proportional gain (ie. C(s)- Kp) that would result in a rise time of t 0.38 s vec RequestAnswer S...
For the closed-loop system shown, and given G(s) 150.41 s2+ 0.41s+4 Part A Controller Design Find the proportional gain (ie. C(s)- Kp) that would result in a rise time of t 0.38 s vec RequestAnswer Submit Ω0ut re C(s)G(s) control plant
For the closed-loop system shown, and given G(s) 150.41 s2+ 0.41s+4
Part A Controller Design Find the proportional gain (ie. C(s)- Kp) that would result in a rise time of t 0.38 s vec RequestAnswer Submit
Ω0ut re C(s)G(s)...
NEED HELP WITH 3! 2. Consider a system with an open-loop transfer function Gp(s)Plot the poles...
NEED HELP WITH 3!
2. Consider a system with an open-loop transfer function Gp(s)Plot the poles of this system (by hand) for the following values of〈 and an (a) wn 2 rad/s, 0,0.2,0.4,0.6,0.8, 1), plot the poles in bold x' markers (b) Ç-07, an-(1, 2, 3,4) rad/s, plot the poles as 4" markers Note your observations 3. For the system in 2) above, plot the poles (by hand) of the closed loop controller with Ç-07, an-2 with the control gain...
Given a transfer function: a. Sketch the root locus of G(s) b. Calculate the proportional gain required for to place the dominant poles at this point: s = -1.5-j3.5 c for G(s) give the controller :...
Given a transfer function:
a. Sketch the root locus of G(s)
b. Calculate the proportional gain required for to place the
dominant poles at this point: s = -1.5-j3.5
c for G(s) give the controller :
considered closed loop, plot root locus for this system
7 (s + 5) (s + 2)(s2 + 6s + 10) G (s) H(s) = Ks +5
7 (s + 5) (s + 2)(s2 + 6s + 10) G (s)
H(s) = Ks +5
Determine: 1. The transfer function C(s)/R(s). Also find the closed-loop poles of the system. 2. The...
Determine: 1. The transfer function C(s)/R(s). Also find the
closed-loop poles of the system. 2. The values of the undamped
natural frequency ωN and damping ratio ξ of the closed-loop poles.
3. The expressions of the rise time, the peak time, the maximum
overshoot, and the 2% settling time due to a unit-step reference
signal.
For the open-loop process with negative feedback R(S) Gp(S) C(s) H(s) 103 Go(s) = 1 , Gp(s)- s(s + 4) Determine: 1. The transfer function...
show steps please 10 A second-order open-loop system with transfer function G(s) = is to be...
show steps please
10 A second-order open-loop system with transfer function G(s) = is to be $2+45+10 controlled with unity negative feedback. (a) Derive the error transfer functions E(s) of the closed-loop system subjected to a unit step input, when using a P controller and a PI controller, respectively, in terms P control gain kp, and PI control gains kp and ki, respectively. [7] (b) Determine the steady-state errors in (a). Briefly comment on the differences in control performance by...
2. Controller Design For each of the following plants G, design a compensator G, so that the closed loop system KG, G (1 + KG, G has two dominant poles near 2 ± i Plot a root locus plot for the s...
2. Controller Design For each of the following plants G, design a compensator G, so that the closed loop system KG, G (1 + KG, G has two dominant poles near 2 ± i Plot a root locus plot for the system before adding the compensator and another plot for after. Use the simplest G that you can find. Determine the gain K that will achieve the desired poles 142
2. Controller Design For each of the following plants G,...
PD Controller Design 1 For the closed loop system shown, and given G(s) 35.20 s2+ 0.99 s+ 11.00 Design a PD Controller i.e. where C(s)-Kp + Kds to satisfy the following specifications t 0.03 s...
PD Controller Design 1 For the closed loop system shown, and given G(s) 35.20 s2+ 0.99 s+ 11.00 Design a PD Controller i.e. where C(s)-Kp + Kds to satisfy the following specifications t 0.03 s ts,1%-020 s K3 of 4 ( Qref Ω0ut C(s) plant control Part A-P Gain ▼ Find the P gain (i.e. Kp ) Submit Previous Answers Request Answer X Incorrect; Try Again Part B- D Gain Find the D gain (i.e. Kd)
PD Controller Design 1...
2. Consider the closed-loop system shown below
Here Kp represents the gain of a proportional controller, and
the process transfer function is given by
.
(a) Sketch the locus of the closed-loop poles as the
proportional gain, Kp, varies from 0 to ∞. Be sure to clearly mark
poles, zeros, asymptotes, angles of arrival/departure,
break-in/away points, and real axis portion of the locus.
(b) Using Routh's array, determine the range of the proportional
gain, Kp, for which the closed-loop system...
This problem explores the
effect of closed-loop zeros on the system response. Suppose ?(?) =
?? (?)?? (?) where ?? (?) = ? a proportional controller. The plant
??(?) takes on two different systems in Problem 1 and in Problem
2
1. Suppose ??1 (?) = 1 ?(? 2+6?+45) a. Find the open-loop poles
and the closed-loop poles when ? = 40 b. Find and plot the
closed-loop unit step response, that is, find ?(?), ? > 0 when
?(?)...
For the closed-loop system shown, and given:
G(s)= 20 * 2 /
s2+ 5.76s+ 2
For the closed-loop system shown, and given: G(s)-20 ,7; 576st 2- Part A - Controller Design Find the proportional gain (ie, C(s)-KP ) that would result in a rise time of tr-0.21 s vec Кр Previous Answers Request Answer Submit x Incorrect: Try Again
For the closed-loop system shown, and given: G(s)-20 ,7; 576st 2- Part A - Controller Design Find the proportional gain (ie,...
For the closed-loop system shown, and given G(s) 150.41 s2+ 0.41s+4 Part A Controller Design Find the proportional gain (ie. C(s)- Kp) that would result in a rise time of t 0.38 s vec RequestAnswer Submit Ω0ut re C(s)G(s) control plant
For the closed-loop system shown, and given G(s) 150.41 s2+ 0.41s+4
Part A Controller Design Find the proportional gain (ie. C(s)- Kp) that would result in a rise time of t 0.38 s vec RequestAnswer Submit
Ω0ut re C(s)G(s)...
NEED HELP WITH 3!
2. Consider a system with an open-loop transfer function Gp(s)Plot the poles of this system (by hand) for the following values of〈 and an (a) wn 2 rad/s, 0,0.2,0.4,0.6,0.8, 1), plot the poles in bold x' markers (b) Ç-07, an-(1, 2, 3,4) rad/s, plot the poles as 4" markers Note your observations 3. For the system in 2) above, plot the poles (by hand) of the closed loop controller with Ç-07, an-2 with the control gain...
Given a transfer function:
a. Sketch the root locus of G(s)
b. Calculate the proportional gain required for to place the
dominant poles at this point: s = -1.5-j3.5
c for G(s) give the controller :
considered closed loop, plot root locus for this system
7 (s + 5) (s + 2)(s2 + 6s + 10) G (s) H(s) = Ks +5
7 (s + 5) (s + 2)(s2 + 6s + 10) G (s)
H(s) = Ks +5
Determine: 1. The transfer function C(s)/R(s). Also find the
closed-loop poles of the system. 2. The values of the undamped
natural frequency ωN and damping ratio ξ of the closed-loop poles.
3. The expressions of the rise time, the peak time, the maximum
overshoot, and the 2% settling time due to a unit-step reference
signal.
For the open-loop process with negative feedback R(S) Gp(S) C(s) H(s) 103 Go(s) = 1 , Gp(s)- s(s + 4) Determine: 1. The transfer function...
show steps please
10 A second-order open-loop system with transfer function G(s) = is to be $2+45+10 controlled with unity negative feedback. (a) Derive the error transfer functions E(s) of the closed-loop system subjected to a unit step input, when using a P controller and a PI controller, respectively, in terms P control gain kp, and PI control gains kp and ki, respectively. [7] (b) Determine the steady-state errors in (a). Briefly comment on the differences in control performance by...
2. Controller Design For each of the following plants G, design a compensator G, so that the closed loop system KG, G (1 + KG, G has two dominant poles near 2 ± i Plot a root locus plot for the system before adding the compensator and another plot for after. Use the simplest G that you can find. Determine the gain K that will achieve the desired poles 142
2. Controller Design For each of the following plants G,...
PD Controller Design 1 For the closed loop system shown, and given G(s) 35.20 s2+ 0.99 s+ 11.00 Design a PD Controller i.e. where C(s)-Kp + Kds to satisfy the following specifications t 0.03 s ts,1%-020 s K3 of 4 ( Qref Ω0ut C(s) plant control Part A-P Gain ▼ Find the P gain (i.e. Kp ) Submit Previous Answers Request Answer X Incorrect; Try Again Part B- D Gain Find the D gain (i.e. Kd)
PD Controller Design 1...
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