Find the discrete time unit step response of the system with transfer function G(z) = (z−1)/z(z+1)
Find the discrete time unit step response of the system with transfer function G(z) = (z−1)/z(z+1)
(25 points) Find the discrete time unit step response of the system with transfer function G(2) = 2(2+1)
5. (30) Find the unit step response of the system where its transfer function is defined as s + 10 G(s) = 20 (s2 + 165 + 100)(s + 1)(s + 2) Sketch the time response of this system roughly.
you can use matlab to solve
1. Given the plant model differential equation: y" + 6y'+ 12y 12u(t) Find: a) G(s) continuous transfer function he step response of the unity feedback system c) The appropriate sampling time d) G(z) pulse transfer function e) Continuous State Space, A, B, C, D f) Discrete State Space, A, B, C, D
1. Given the plant model differential equation: y" + 6y'+ 12y 12u(t) Find: a) G(s) continuous transfer function he step response of...
4. Given the discrete time system y(k +1)-y(k) x(k + 1) find the system transfer function and its response for a sampled unit.
1) Given the system with u[n]- the discrete unit step input xiln 1] xiIn] r2ln] 0 find: (note this is very easy since A is diagonal) a) DTS Resolvent Matrix and State transition matrix b) Transfer function Y(z)/U(z) = T(z) c) Total response if the input u[n] is a discrete unit step and IC [1;1]
The open loop transfer function of a discrete-time system is given by k (z+0.9) G (2) = (z-1)(z-0.7) i) Draw the root locus for the system for variations in the value of K ii) Determine the marginal value of K for stability.
a) Develop the system response for a unit step function having the following transfer function. (5 <1) gs + f ss+260 $+02 b) Develop an equation that could be used to determine the rise time using the (0-100) criteria
Prelab Answer the following questions 1. What is the unit-step response of a system with trans fer function G(s)- ST +1 where and τ are constants > 0? 2. Make a hand-sketch of the response of the unit-step response of the system in Part 1 3. What is the value of the step response of the system in Part 1 when t? 4. Find or derive the expression for the transfer function from voltage to angular speed of an unloaded...
discrete-time linear system with transfer function (2) (z+2) (2-0.5)(z+0.8)(z+0.9) causal and stable. This system is possibly bota O True O False Question 8 Consider the discrete-time filter with transfer function (2) z+1 2-0.95 This filter is a high-pass filter. O True O False
Please show the solution to the problem above
15. A discrete-time system has a transfer function (the z transform of its impulse response) H)Ifa unit sequence 24 . If a unit sequence and y[2]? + z + u[n] is applied as an excitation to this system, what are the numerical values of the responses y[O]. y