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R(S) GC, (s) Gp2(S) Y(s) Determine the gain K to make that system settle with steady-state error ...
51 R(s) Gc, (s) Gp (S) Y(s) Determine the Steady State Error for the system above...
51 R(s) Gc, (s) Gp (S) Y(s) Determine the Steady State Error for the system above and the data below Gp2(s) (12(s +3) (s+10)/(S (s + 4) (s 2 + 4"s +36)) Gol (s) = ((20*s + 80)*(s + 2))/((s+ 5)*(s + 8)"(s + 40)) r(t) 10 (hint: convert to the laplace domain)
1 Gc,(S) R(S) Gc (S) Determine the disturbance steady state error (ed) for the system above...
1 Gc,(S) R(S) Gc (S) Determine the disturbance steady state error (ed) for the system above and using the data below: Gc1 (3000*(s 35)/(s24's12) Gc2-(5% + 200)/((s + 3)*(s + 4)) Gc3 (1000s4000s4) (s6) Gp2 (2s 2) (s1)(s4)A2"(s 40) Assume r(t) and d(t) are unit steps
Determine the gain K, to obtain a steady state error of 0.10: *Hint, What type is the transfer fu...
Determine the gain K, to obtain a steady state error of
0.10:
*Hint, What type is the transfer function?
**Assume the input is a unit input (i.e. step, ramp, or
parabola)
Determine the gain K, to obtain a steady state error of 0.10: "Hint, What type is the transfer function? "Assume the input is a unit input (i.e. step, ramp, or parabola) R(s) C(s) t- s2+12s+32 s2+5s+6
Determine the gain K, to obtain a steady state error of 0.10: "Hint,...
R(s) Gc(s) Gp(s) Y(S) For the given system above, determine the gain K that will give...
R(s) Gc(s) Gp(s) Y(S) For the given system above, determine the gain K that will give the system desired response below: . Settling time of 2 seconds Peak time of 0.5 seconds . The given plant has a transfer function of: Gp - (s+8( (s+6)(s + 4)) . The controller has a transfer function of: Gc (s+33.7392s
Given the system below, determine the steady state error for a step input, R 100: R(s)...
Given the system below, determine the steady state error for a step input, R 100: R(s) t- s3+15s2+71s+105 C(s) s4+18s3+108s2+216s *Assume k = 1.
Copy of R(S) Gc(s) Gp(s) Y(s) Determine the Final Value Theorem (FVT, yt>infinity) for the system...
Copy of R(S) Gc(s) Gp(s) Y(s) Determine the Final Value Theorem (FVT, yt>infinity) for the system above and using the data below Gc(s)-42 (s+12) (s+100) Gp(s) = 1/((s+16).(s^2+ 15%+125)) r(t) = 7.5 (hint: convert to Laplace domain)
Question 6: a) Derive and expression for the steady state error of the system described below...
Question 6: a) Derive and expression for the steady state error of the system described below when a unit ramp function is used as input. r(t) —+ Q G.(s) Gy(s) y(t) H(s) 10 b) Find the steady state error with a ramp input as a function of K, when the transfer functions of the system are given as: Gc= + 3 G p = Gips? +45 +10 and H= 0.1 c) For what values of K would the system have...
Y(S) Gp(s) Gc(s) R(S) For the given system above, determine the gain K that will give the system desired response below . Settling time of 2 seconds . Peak time of 0.5 seconds . The given plant h...
Y(S) Gp(s) Gc(s) R(S) For the given system above, determine the gain K that will give the system desired response below . Settling time of 2 seconds . Peak time of 0.5 seconds . The given plant has a transfer function of: Gp - (s +8V( (s +6'(s+4) The controller has a transfer function of: Gc (s+33.7392Vs
Y(S) Gp(s) Gc(s) R(S) For the given system above, determine the gain K that will give the system desired response below . Settling...
4 R(s) Y(S) Gp(s) Gc(s) For the given system above, determine the gain K that will give the system desired response below: Settling time of 1.6 seconds . Peak time of 0.8 seconds · The given plan...
4 R(s) Y(S) Gp(s) Gc(s) For the given system above, determine the gain K that will give the system desired response below: Settling time of 1.6 seconds . Peak time of 0.8 seconds · The given plant has a transfer function of:Gp-6+8n (s + 6 .(s + 4)) . The controller has a transfer function of: GC = (s+ 11.1812/s
4 R(s) Y(S) Gp(s) Gc(s) For the given system above, determine the gain K that will give the system desired...
QUESTION t- Y(S) Gc(S) Gp(S) R(s) For the given system above, determine the gain K that will give the system desired response below: Settling time of 5 seconds Peak time of 0.5 seconds The given plan...
QUESTION t- Y(S) Gc(S) Gp(S) R(s) For the given system above, determine the gain K that will give the system desired response below: Settling time of 5 seconds Peak time of 0.5 seconds The given plant has a transfer function of: Gp (s4V(s0) (s1)(s 2) (s6) · The controller has a transfer function of: GC = (s+2.8417)
QUESTION t- Y(S) Gc(S) Gp(S) R(s) For the given system above, determine the gain K that will give the system desired response below:...
51 R(s) Gc, (s) Gp (S) Y(s) Determine the Steady State Error for the system above and the data below Gp2(s) (12(s +3) (s+10)/(S (s + 4) (s 2 + 4"s +36)) Gol (s) = ((20*s + 80)*(s + 2))/((s+ 5)*(s + 8)"(s + 40)) r(t) 10 (hint: convert to the laplace domain)
1 Gc,(S) R(S) Gc (S) Determine the disturbance steady state error (ed) for the system above and using the data below: Gc1 (3000*(s 35)/(s24's12) Gc2-(5% + 200)/((s + 3)*(s + 4)) Gc3 (1000s4000s4) (s6) Gp2 (2s 2) (s1)(s4)A2"(s 40) Assume r(t) and d(t) are unit steps
Determine the gain K, to obtain a steady state error of
0.10:
*Hint, What type is the transfer function?
**Assume the input is a unit input (i.e. step, ramp, or
parabola)
Determine the gain K, to obtain a steady state error of 0.10: "Hint, What type is the transfer function? "Assume the input is a unit input (i.e. step, ramp, or parabola) R(s) C(s) t- s2+12s+32 s2+5s+6
Determine the gain K, to obtain a steady state error of 0.10: "Hint,...
R(s) Gc(s) Gp(s) Y(S) For the given system above, determine the gain K that will give the system desired response below: . Settling time of 2 seconds Peak time of 0.5 seconds . The given plant has a transfer function of: Gp - (s+8( (s+6)(s + 4)) . The controller has a transfer function of: Gc (s+33.7392s
Given the system below, determine the steady state error for a step input, R 100: R(s) t- s3+15s2+71s+105 C(s) s4+18s3+108s2+216s *Assume k = 1.
Copy of R(S) Gc(s) Gp(s) Y(s) Determine the Final Value Theorem (FVT, yt>infinity) for the system above and using the data below Gc(s)-42 (s+12) (s+100) Gp(s) = 1/((s+16).(s^2+ 15%+125)) r(t) = 7.5 (hint: convert to Laplace domain)
Question 6: a) Derive and expression for the steady state error of the system described below when a unit ramp function is used as input. r(t) —+ Q G.(s) Gy(s) y(t) H(s) 10 b) Find the steady state error with a ramp input as a function of K, when the transfer functions of the system are given as: Gc= + 3 G p = Gips? +45 +10 and H= 0.1 c) For what values of K would the system have...
Y(S) Gp(s) Gc(s) R(S) For the given system above, determine the gain K that will give the system desired response below . Settling time of 2 seconds . Peak time of 0.5 seconds . The given plant has a transfer function of: Gp - (s +8V( (s +6'(s+4) The controller has a transfer function of: Gc (s+33.7392Vs
Y(S) Gp(s) Gc(s) R(S) For the given system above, determine the gain K that will give the system desired response below . Settling...
4 R(s) Y(S) Gp(s) Gc(s) For the given system above, determine the gain K that will give the system desired response below: Settling time of 1.6 seconds . Peak time of 0.8 seconds · The given plant has a transfer function of:Gp-6+8n (s + 6 .(s + 4)) . The controller has a transfer function of: GC = (s+ 11.1812/s
4 R(s) Y(S) Gp(s) Gc(s) For the given system above, determine the gain K that will give the system desired...
QUESTION t- Y(S) Gc(S) Gp(S) R(s) For the given system above, determine the gain K that will give the system desired response below: Settling time of 5 seconds Peak time of 0.5 seconds The given plant has a transfer function of: Gp (s4V(s0) (s1)(s 2) (s6) · The controller has a transfer function of: GC = (s+2.8417)
QUESTION t- Y(S) Gc(S) Gp(S) R(s) For the given system above, determine the gain K that will give the system desired response below:...
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