Reinforcement Problem # 3 (30 pts.) A) Given For the open-loop process with negative feedback R(S)...
Reinforcement Problem #1 (20 pts.) A) Glven For a feedback control system with an open-loop process and negative feedback described RES. Ge(s) - 2, Gp(s) - 7 . H(s) - 1. B) Determine Step 1: The value of the open-loop transfer function Gcs) Go(s)H(s) Step 2: The values of the open-loop static error constants ke ki, and K. Step 3: The transfer functions CSR(S) and E(SYR(S) Step 4: Find aft) and eft due to a unitate test input (r) (1)...
Reinforcement Problem #3 (25 pts.) A Given For the open-loop process described thru a Bode diagram line approximation: -20 dB/dec 40 dB -40 de dec 008 100 -20 dec B) Determine Step 1: The system type (0.1 or 2). Explain Step 2: The amount of open-loop poles and Zeroes, and define variables, like or for the ones not specie Step 3: The general description of the normalized open-loop transfer function Ges) G(s)H(s) Step 4. The values of the unspecified poles...
Reinforcement Problem #7 (15 pts.) A) Given For the AC circuit in the frequency domain given: 100 Heo 40290*v B) Determine Step 1: Reduce the circuit to the left of terminals a and b to leave only one source Step 2: Reduce the circuit to the left of terminals a and b to its simplest form. Step 3: Show the Thévenin equivalent circuit. Step 4: Show the Norton equivalent circuit Evaluation Criteria Rubric for Reinforcement Problem #7 Activities Step 1....
Reinforcement Problem # 4 (25 pts.) A) Given For an AC electric power circuit given: 10KW 25040' Vms 0.81ag B) Determine Step 1: The values for the load average power PL, reactive power QL, and complex power SL Step 2: The value of the line current Step 3: The value of the line average power Pi, reactive power α, and complex power Step 4: The value of the power factor of the entire electrical power circuit (seen by source generator)....
Reinforcement Problem # 6 (20 pts.) A) Given The circuit shown is at equilibrium at t = 0 : 2.52 Ict) 00 2F 100 Vct) 2A B) Determine Step 1: The value of Vc(0), Step 2: The value of Vco). Step 3: The time constant , Step 4: The expression of voltage Vc(t) for t2 0 secs, Step 5: The expression of current Ic(t) fort 0 secs. Step 6: Show the MATLAB plot of Vo(t) and Ic(t) with your name....
Reinforcement Problem # 4 (20 pts.) A) Given A state-space system is described: (39)+(7 933) (195) y = (0 - 1)(**) +(1) B) Determine Step 1: The block diagram representation with x1(0) = x2(0) = 0. Step 2: The transfer function Y(S)/F(s) through block diagram reduction. Step 3: The output value of y(t) due to input f(t) = u(t). Evaluation Criteria Rubric for Reinforcement Problem # 4 Gained Activities Step 1. Step 2. Step 3 Describe the techniques and procedures...
Design Information The process model Gp(s) and the design requirements for each design team are given in the table: Process Model Design Requirements Design Team Gp(s) ON ess Design Teamrocess Modern 6 GP(s) = 51.15+1 / 20 r/s .5 | 0% (ramp) The requirements undamped will meet a specific undamped natural frequency wN, a damping ratio &, and a steady-state tracking error. Your report for this design must include the following steps: Part # 1: System Description Step # 1:...
PROBLEM 4 Suppose that a system is shown in Figure 4. There are three controllers that might be incorporated into this system. 1. Ge (s)-K (proportional (P) controller) 2. GS)K/s (integral (I) controller) 3. G (s)K(1+1/s) (proportional, integral (PI) controller) The system requirements are T, < 10 seconds and P0 10% for a unit step response. (a) For the (P) controller, write a piece of MATLAB code to plot root locus for 0<K<,and find the K value so that the...
Problem 3. (15 points) Consider the feedback system in Figure 3, where G(s)1 (s -1)3 Ge(s) G(s) Figure 3: Problem 3 1. Let the compensator be given by a pure gain, ie, Ge(s)-K, K 0 (a) Draw the root locus of the compensated system (b) Is it possible to stabilize the systems by selecting K appropriately? If so, find the range for K such that the closed-loop system is BIBO stable. If not, explain. 2. This time, let the compensator...
Problem 5 (15 points) A unity negative feedback closed-loop system has the closed- loop transfer function given below. (s + 4) G (5) " (s +50) (s + 2)(s + 5) Compute the percent overshoot and rise time of the step response. Process D(3) GE) HX) Figure 1.