Consider the control systemshown in Figure 2. It is desired todesign a PID controller such thatthe dominant closed-loop polesare located at (s=-1+j 1.732). Forthe PID controller, choose a =1and then determine the values ofK and b. Sketch the root-locusdiagram for the designed systemConsider the system shown in Figure below. It is desired to design a PIDcontroller such that the dominant closed-loop poles are located at s = -1 ± j√3.For the PID controller, choose a 1 and then determine the values of K and b.R(s)(s+a)(s+b)KPID controllerGe(s)32+1PlantG(s)C(s)

Step 1: Step 2: Step 3: Step 4:

Answered: Consider the control system shown in…

Introductory Circuit Analysis (13th Edition)

13th Edition

ISBN:9780133923605

Author:Robert L. Boylestad

Publisher:Robert L. Boylestad

Chapter1: Introduction

Section: Chapter Questions

Problem 1P: Visit your local library (at school or home) and describe the extent to which it provides literature...

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c) i) Figure 5 of logic gates. Draw the truth table and A S Figure 5 Y (ii) State one difference between an op amp and a logic gate (iii) Define the term negative feedback as used with opamps and state an advantage of using negative feedback in an opamps.
part d only
(b) Draw the diagram of a traditional three-opamp instrumentation amplifier. Write down expressions for the differential and common-mode gains of the complete circuit, including the circuit fragment shown in Figure Q2a.
solve carefully
Please solve fast
In a controller,Ki refers to O a. Proportional gain O b. Integral gain O c. Dervative gain O d. None of the above
Microcontroller
Re design the system below into Closed-loop control of the speed of a turntable. Draw the block diagram model. Battery Speed Turntable www DC DC motor amplifier (a) Control device Actuator Process (a) Open-loop (without feedback) control of the speed of a turntable. (b) Block diagram model. Desired speed (voltage) Amplifier DC motor Turntable Actual speed (b) To obtain disk rotation, we will select a DC motor as the actuator because it provides a speed proportional to the applied motor voltage. For the input voltage to the motor, we will select an amplifier that can provide the required power. The open-loop system (without feedback) is shown in (a). This system uses a battery source to provide a voltage that is proportional to the desired speed. This voltage is amplified and applied to the motor. The block diagram of the open-loop sys- tem identifying control device, actuator, and process is shown in (b). Speed setting
Draw the AC circuit for basic differential amplifier design
Answer the questions about the Binary Weighted DAC: i. Design a 6-bit Binary Weighted Resistor DAC with Vref = 3.3 V, the feedback resistor RF = 16KN. Use commercially available resistors in your eircuit diagram. ii. Determine the analog output of the designed 6-bit Binary Weighted Resistor DAC, Vout for input bits (a) 100010 and (b) 101000.
For DAC with resolution of 0.16 volt and to full scale reading of 10 voltages: Design suitable Binary Weighted Resistor DAC and sketch the circuit Design R-2nR DAC and sketch the circuit Calculate the input digital signal and the related output signal at 25% intervals of the full scale voltage value. Calculate the voltage at the ladder points. Put the result fo your calculation in a i. ii. iii. iv. table.
Given the error of Figure, plot a graph of a proportional-integral controller output as a function of time. Let KP =3, KI = 4.7 s-1, and p(0) = 19.5%. given ep(%) =5.2 %. ep 1 4 Time a) From 0 to 1, P = b) From 1 to 3 P = c) From 3 to t P = d) Output graph Draw the graph in paper and submit through the link. (%) JOJ

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