Please give some idea. In a cruise controller the throttle of a car is controlled by a servomechanism with theaim of keeping the vehicle moving at a velocity set by the driver. We model the system with thedifferential equationmi u bvwhere u is the velocity of the car, m = 1500 kg is the mass of the car and b = 100 Ns/m is the frictioncoefficient (mainly due to air resistance). We want to design a PI-controller for the cruise controller.a) Find the transfer function from reference, r, to output velocity when u = kp(r − v) + kï ſ (r — v).b) Approximate your transfer function in a) by the second order system H(s) = ao/(s² + b₁s + b2),with ao, b₁ and b2 constant. Choose parameters (kp, ki) for the PI-controller to get an overshootof 10% and a rise time of 2 s.c) What is the relation between the rise time and overshoot of the system in a) and the simplifiedsecond order model assumed in b)? (Are they smaller or larger? Motivate.)

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Answered: In a cruise controller the throttle of…

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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2. Find the equation(s) of motion of the following system. How many DOF does this system have? The displacement of the mass is measured from the position where the spring is unstreched. Is this system linear or nonlinear? Define the state variables and express the equation(s) of motion in state form. Gravity should be included and the Coulomb friction coefficient of the rough ground is u. F,(0 x,(t) Friction, u
Transfer function
S:51)
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11. Consider a system that can be modeled as shown. The input x in (t) is a prescribed motion at the right end of spring k 2. Find X(s) the system transfer function Xeq(s)* m k₂ ww Xin The values of the parameters are m= 30 kg, k ₁=700 N/m, k 2= 1300 N/m, and b=200 N- s/m. Write a MATLAB script file that: (a) calculates the natural frequency, damping ratio, and damped natural frequency for the system; and (b) uses the impulse command to find and plot the response of the system to a unit impulse input.
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Please help me solve no. 2 below. Please provide a clear and readable solution. Thanks in advance!!! The course subject is Feedback and Control System. NOTE: The lesson is ROTATIONAL MECHANICAL SYSTEMS.
Figure Q3 shows one cart with a mass that is separated from two walls by two springs and a dashpot, where kı, k2 and ka are the first, second spring and dashpot coefficients, respectively. The mass, m could represent an automobile system. An external force is also shown as F(t). Only horizontal motion and forces are considered. F(t) is input and x2(t) is output. (a) Derive all equations related to the system (b) Construct the block diagram from equation in (a) (c) Obtain the transfer function of the system
4G I. 3:22 A moodle1.du.edu.om Consider the 3 degree of freedom robot manipulator as shown in the figure Link 3 Länk 2 Trint 1 The objective is to find the kinematics inverse of the robot Px=0.9 m, Py=0.6, L1=1.5m, L2=1.5m and qz= 2 rad The value of cos(q2) is equal to Choose... + The positive value of sin(q2) is equal to Choose... + The value of q2 in rad is Choose... + The value of qı in rad is Choose... + The value of q3 in rad is Choose... +
Question 3. Consider a mass-spring translational mechanical system in series. The spring has a nonlinear characteristics such that the relationship between the spring force and the spring displacement can be described mathematically f.(t) = 3x. Assume that the applied force is f(t) = 6+ 8f (t), where 8f(t) is a small force about the 6 Newton constant value. Assuming the output to be the displacement of the mass, obtain the state space representation of the system about the equilibrium displacement.
Given the vibrating system below: K4 Y(t) =Ysin30t where for = 30 and Y=20mm Find the following K1 K2 m C3 H C2 C1 C5 C4 1. Frequency Ratio 2. Displacement Transmissibility Ratio 3. Absolute displacement of the mass 4. Type of Damping 5. Equation of motion x(t). Assume Initial conditions for displacement and velocity 6. Graph 2 cycles of the vibrating system. You can use third party app for this. M = 10 kg K1=100 N/m K2= 80 N/m K3=75 N/m K4= 120 N/m C1 = 20Ns/m C2=40 Ns/m C3= 35Ns/m C4= 15 Ns/m C5= 10 Ns/m
K ww J B viscous damping m x, F a) get the equation of motion by drawing free body diagrams of the given system. b) get the transfer function of the system. 0(s)/F (s) =? Show all decals in detail.

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