number samples:10
sampling time:5msec
Will thumbs up. Thank you. Use Simulink to simulate the behavior of the difference equation y[n] x[n] (1/4)y[n-. Use a s...
Fig. 2 4 of Example 1 Simulate Sine wave f(t)-sin(1000 *2π*1) 1. Create a new model window by choosing "File">"Ne"> "Model" 2. Drag "Sine Wave" block from "Simulink" -> "Sources" to the model window; 3. Drag "Scope" block from "Simulink"-"Sinks" to the model window 4. Left-press the mouse when the arrow becomes a single cross by moving the mouse near to the right side of "Sine Wave; keep left button pressed and move the single cross to the left side...
Prelab Preparation: For the RC circuit shown in Figure 1, derive the modeling equation relating the output volta ge Vout to the input voltage vin. What is the transfer function? What is the time constant of the system? Vout Figure 1: RC Circuit What is the analytical step response solution in terms of vin, Rand C? For assumed values of R 1 K, and C 6.8 uF, perform a simulation using Matlab/Simulink assuming an input square wave signal of 5Vpp,...
As a first approximation, sound waves can be described using rays to express position, propagation direction, and propagation path. An equation describing echo can be defined as; y(n) = x(n) + Ža,x(n-de) k=1 where : x(n) represents the straight path signal a, is an attenuation factor between 0 and 1 for reflected signals d. is a time delay for reflected signals In this equation y(n) is the sound sink and the straight path ray from the sound source is represented...
part II is what I need help one. part 1 is also attached for your reference Part II: Low Pass Filter contd. Noise Removal To observe the noise removal capabilities of a low -pass filter, we will add a second input to the system to simulate noise Step 1: Alter your Simulink model by adding another sine wave function and use a Sum block to add the inputs together as the new input to the system. The second sine function...
3. Use MATLAB to plot the root locus of S +4 s 6s +13 H(s)1 Provide the commands you used and a copy of root locus figure. Also calculate the angles that the root locus leaves the complex poles. Use sgrid to plot lines of 0.7,0.8,0.9, and 0.99 and wn circles of 2,4, and 6. Provide command and plot of root locus with sgrid. Click on the root locus to determine the gain (K) where ζ-0.9 and ζ-0.99 intersect the...
.matlab Objective: This activity has the purpose of helping students to to use either Simulink or VisSim to simulate the system behavior based on its Block Diagram representation and plot its response. Student Instructions: The following spring-mass-damper system has no external forcing, that is u(0)-0. At time t- 0 it has an initial condition for the spring, which it is distended by one unit: y(0)-1. The system will respond to this initial condition (zero-input-response) until it reaches equilibrium. 0)1initial condition...
Objective: This activity has the purpose of helping students to to use either Simulink or VisSim to simulate the system behavior based on its Block Diagram representation and plot its response Student Instructions: The following spring-mass-damper system has no external forcing, that is Lu(0) 0. At time t"0 it has an initial condition for the spring, which it is distended by one unit; yO) 1. The system will respond to this initial condition (zero-input-response) until it reaches equilibriunm. | yin«...
Refer to the difference equation given below to answer the following questions: 2.15y(n) 1.31y(n+ y(n)-2.x(n-1) +2.42x(n) (i) Using the basic building blocks, sketch the block diagram representation of this discrete-time system, where x(n) is the input and y(n) is the output of the system. (ii) Determine the system function and the unit sample response of the system
1. A difference equation is shown below. y(n)- -0.25 y(n-1)+ 0.125 y(n-2)+ x(n)+x(n-1) (a) Find the transfer function H(z) = Y(z)/ X(z) (b) Find Y(z) ifx(n) = (0.4)nu(n) (n=0,1,2,3, ) (c) If x(n) = y(n)-0 for all n < 0, calculate the values of y(0), y(1) and y(2) directly from the difference equation.
Styles Paragraph 6. Given the difference equation y(n)-x(n-1)-0.75y(n-1)-0.125(n-2) a. Use MATLAB function filterl) and filticl) to calculate the system response y(n)for n 0, 1, 2, 3, 4 with the input of x(n (0.5) u(n)and initial conditions x(-1)--1, y(-2) -2, and y(-1)-1 b. Use MATLAB function filter!) to calculate the system response y(n) for n-0, 1, 2, 3,4 with the input of x(n) (0.5)"u(n)and zero initial conditions x(-1)-0, (-2)-0, and y(-1)-0 Design a 5-tap FIR low pass filter with a cutoff...