please help to solve this . Thank you B2. Determine the range of k for stability...
please help to solve this . Thank you
B3. Sketch the root locus for the system shown in the figure below. (The gain K is assumed to be positive.) Observe that for small or large values of the system is overdamped and for medium values of K it is underdamped. R(s) C(s) K(s +2) $+3 s(s + 1) B4a. What are the effects of adding open loop pole to root locus and the system? (around 70 words) (10 marks) B4b....
B3. Sketch the root locus of the control system shown in the figure below K s(52 +65 +25)
B3. Sketch the root locus of the control system shown in the figure below K s(s? + 65 +25)
control systems
1) Using Routh Hurwitz Stability Criteria, determine whether the following system of equation is stable or not. a) S4+253+3S2+45+5=0 2) Using the Routh Hurwitz stability criterion, determine the range of K for stability of the following characteristic equation. a) s4+2s8+(4+K)s2+9s+25=0 3)Sketch the root-locus of the following systems a) G(s)H(s) = s(s+1)(s+2) b) G(s)H(s) = 52(8+3.6) K(5+1)
54 + 1.15 + 10.35 + 5s Plot the root loci for the system with MATLAB "roblem B-10-17 Plorthe root face for the system shown in Figure 10-10-Determine the range of gain K required for stability. Using Routh's stability criterion s(s+2) -105 Control system obleme 10 10
No need to sketch the root locus. Please just answer the Kp
stability range question for the system given in Figure 1 for both
Gp(s) equations. **Note: Numerator of eq.3 should say s^2+2*s+2
R(s) _ Y(S) O KP Figure 1: Generic block diagram. 2. Given the block diagram in Figure 1, (a) Sketch the Root Locus When, (a) 52+2+2 Gp(s) = (52 – 11s+24)(52+75) and (b) 5-9 (5-3) (s2 – 65+5) (s2 +2s - 8) Assuming K, > 0, are...
please help to solve this. Thank you
B2. The characteristic equation of a system is given below. Determine and explain the stability of the system 4s8s +2+10+3 = 0 B3. For a unity feedback system with the plant G(8) 500 (8 + 20%(2 + 4s +10) find the steady-state error for the following test inputs: a. 150(1) (i.e. 15 x unit step input) b. 151(1) (i.e. 15 x unit ramp input) 151 () (i.e. 15 x unit ramp input) (6...
3) (30 points) Find the range of K for the unity feedback system below, but also points and calculate any asymptotes & jw-crossing value. 14. Sketch the root locus and find the range of K for stability for the unity feedback system shown in Figure P8.3 for the following conditions: [Section: 8.5 G(s) = Ke-2+2) 1,
3) (30 points) Find the range of K for the unity feedback system below, but also points and calculate any asymptotes & jw-crossing value....
Question 2 System Stability in the s-Domain and in the Frequency Domain: Bode Plots, Root Locus Plots and Routh- Hurwitz Criterion ofStability A unit feedback control system is to be stabilized using a Proportional Controller, as shown in Figure Q2.1. Proportional Controller Process The process transfer function is described as follows: Y(s) G(s) s2 +4s 100 s3 +4s2 5s 2 Figure Q2.1 Your task is to investigate the stability of the closed loop system using s-domain analysis by finding: a)...
Q2. Fig Q2 shows the block diagram of an unstable system with transfer function G(s) - under the control of a lead compensator (a) Using the Routh's stability criterion, determine the conditions on k and a so that the closed-loop system is stable, and sketch the region on the (k, a)- plane where the conditions are satisfied. Hence, determine the minimum value of k for the lead compensator to be a feasible stabilizing controller. (10 marks) (b) Suppose α-2. Given...