Problem 5. Determine the Z-transfer functions Y(z)/ R(z) of the system shown in the following igure. Y(s) R(s) D(z) ZoH G2(s) GI(s)
Q: Problem 3 Consider the discrete-time linear time-invariant system with transfer- function: 22 H(2)…
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Q: 1- Find the transfer function , for the network shown in Figure 1. 4 1H ll 1H ll 1F 1F
A: Draw the circuit in the s-domain.
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Q: Question (4) A system has the state-space equations 11 |x1(k) 31 [x2(k). |x(k)| y(k) = [-2 1] x2(k)]…
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Q: 1.For the electrical system shown below, calculate the transfer function Y(s)/U(s)? * C L R y O…
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Q: (b) Suppose a system of an input function x(t) and a transfer function of h(t) given in the image.…
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Q: i Consider the given block diagram representation of a system where R(s) and D(s) are the reference…
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Q: When 2u (t) is applied to the input of the control system given the transfer function above, the…
A: From the given figure the graph or curve attains its final value which is 0.75 in 0.6 seconds. also…
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Q: MI Ma 2. G(s) = X, cs) Fes) (tng)
A: Write the force balance equation on each mass Force due to spring = KX Convert into s domain…
Q: Find the transfer function G(s) = V.(s)/V¿(s) for each network shown in figure below. %3D + Vo(1)– 1…
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Q: 5. for the block diagram of a system shown, determine the transfer function? G R(s) + Y(s) G G G, H…
A: Transfer function is define as the ratio of input of the system to the output of the system…
Q: Q1\ Find the Transfer Function for the system below. ww
A: In this question , we will find transfer function of given system...
Q: Design a controller for a plant that has the transfer function shown below. The resulting system…
A: Write the transfer function,
Q: A system is described by its state-space model as indicated below. Convert the state-space model to…
A: This problem can be done by finding transfer function of given system
Q: 8. for the block diagram of a system shown, determine the transfer function? H, R(s) Y(s) A G G, H…
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Q: 7. for the block diagram of a system shown, determine the transfer function? R(s) +. Y(s) G G, H, H,…
A: For the block diagram shown above transfer function is determined by using the block diagram…
Q: Find the transfer function of the below mechanical systems.
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Q: A filter circuit using a doubly terminated two-port network is seen in the diagram below. Within the…
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Q: 4. For the system shown below a. Find the transfer function G(s) = X(s)/F(s). b. Find 5, wn, %OS, T,…
A: Control systems are represented by transfer function. This can be written in both time domain and…
Q: 1. Simplify the block diagram shown in Figure 1,, Obtain the transfer function relating C(s) and…
A: As per our policy, i have attempted one question. Simplify the block diagram
Q: z = +1 The transfer function of the causal LTI system is given by: 1 + b1z- + b2z-2 1 + aj z- + azz-…
A: Given
Q: 2.a. Determine the transfer function Y(s)/R(s) for the system below. Express your result as a ratio…
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Q: 1 A discrete-time system has the transfer function H z = Tr-04): z(z–0.4) If the input is x[n] = (0.…
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Q: 4. Write the mathematical equations for the mechanical system given. Also find the transfer function…
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Q: Q.9 Find the transfer function given below: G₁ X(s)- H G₂ Y(s) X(s) Y(s) of the system -Y(s)
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Q: Quèstion 5 The complement of the following function F(x.y,z)-Sum(2,3,6) is given by: Note: Prod is…
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Q: Problem 1. Determine the transfer function of systems shown in the diagrams below. 3 x[n] y[n] Σ Σ Σ…
A: The transfer function for the system can be determined by using the Mason’s gain formula:
Q: 2. Obtain the transfer function for the network shown below R. V,(s) V_(s) R V;(s) T(s) = V,(s)
A: In this question we need to find a transfer function of the given circuit..
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Q: 7. Consider the system having transfer given by: K G(s): s(s+ 4)(s+4 + j4) Determine the breakaway…
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Q: Consider closed loop transfer function is, C(s) s+1 R(s) s² +(3+K)s+K Calculate the value of K such…
A: Closed loop transfer function is given, Ts=s+1s2+3+ks+k The open loop transfer function is given by…
Q: raw a parallel-form block diagram for the following system transfer function: H(2) - Te+1/3){:-3/4)…
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Q: The input-output relation for a system is given as y(n)=4x(n-2). Find out the transfer function…
A: Given information: A discrete-time system is given and the input-output relation for the system is…
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Q: Find the transfer function, G(s) = V(s)/V(s), for the network shown in the figure below. 1 H vị(t)…
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Q: Examples • Consider the following transfer functions. • Determine whether the transfer function is…
A: In this question we will write about proper and improper transfer function..
Q: Find the transfer function, G(s) = VL(s)/V(s), for the network shown in the figure below. 2 H v(1) E…
A: Using nodal analysis and ohms law find the transfer function VL(S)/Vs(S).
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A: find the overall transfer function for the given block diagram;
Q: Determine system stability and system type if its transfer function is * (s+1) G(s) s(s+2)(s+3)²
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Q: C) Transfer function of a system is used to calculate which of the following? a) The order of the…
A: In this question we will find transfer function use..
Q: 5. Find the transfer function, H(z) in z-domain. x [n] – y[n] D + E X -1/2 2 X D 1/3 X
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Q: PROBLEM: Find 5, wn; Ts, Tp, T,, and %OS for a system whose 361 transfer function is G(s) %3D s2 +…
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Q: Determine the a) transfer function, b) system zeros, and c) system poles of the given electrical…
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- When the unit step function is applied to the input of the control system given below, the peak time of the output signal is 0.59 s and the settlement time is 0.88 s. It is also known that the steady state error of the system is 10% for the same input. So what is the unknown K2 value in the transfer function? calculate.Suppose that a continuous-time sinusoid x(t) = 4 cos(1800pi*t+ pi/3) is sampled with a sampling frequency of fs, producing the discrete-time signal x[n] = x(n/fs).1. Find a value of fs so that x[n] = 4cos(0.4pi*n−pi/3).2. Find a value of fs so that x[n] = 2 for all n.3. Find a value of fs so that x[n] = 2(−1)^nFor the system shown in the attached image, assume A = 1300 and n = 860. Draw the root locus for K > 0 and find the range of K for closed-loop stability when:i. G(s) = Kii. G(s) = K(s + 200) / (s + 1000)
- 100 y(t)+ y (t) = X(t) for a system defined by a first-order differential equation:a. Draw the log magnitude(dB)-log frequency graph of H (jw) (phase graph is not requested. it is expected that the frequency axis will also be logarithmic when plotting the log magnitude graph).b. If the magnitude of H(jw) is -40 dB, it is assumed that the input is suppressed. it is given that the signal X (t) = coswat is suppressed by this system. What is the smallest wa value in this case?The transfer function is H(s) = (1.2s+0.18)/(s3 + 0.74s2 + 0.92s) and C(s) = (K(s+1))/ s A) A disturbance input W(s) =W/sk , where W is a constant, into the feedbackcontroller as shown below. We set R(s) = 0. What type of disturbance input W(s)(step, ramp, or parabola) can thesystem reject (i.e., the steady-state error ess is a nonzero constant)? (B) Suppose you want to design the controller C(s) to produce a closed-loop response to areference step input that has no more than 30% maximum overshoot (Mp ≤ 0.30) and a peak timeof no more than 8 sec (tp ≤ 8). Given the specifications on Mp and tp , compute the constraintson the damping ratio ζ and the damped natural frequency ω, assuming that the closed-loop systemis approximated as a 2nd-order underdamped system. Sketch the allowable regions in thecomplex plane (the s-plane) that these constraints define, and shade in the regions where the polesshould not be placed.ANSWER THE FOLLOWING QUESTIONS Given the closed loop system, what is the forward transfer function? a. 0.1Ks b. 0.1 c. K / [(1 + K)s + 1] d. 0.1K / [(1 + K)s + 1]
- In a linear time-invariant discrete-time system, x[n] is the input and y[n] is the output. Unit at the entrance of the systemWhen initial conditions are zero when step (u[n]) is applied y[n] = 3(1/2)^n It is known that u[n] is output.Accordingly, create the transfer function of the system and find the unit sample answer for this system. (h[n]=?) Reminder: This question also covers z-transformation and inverse z-transformation.The input to a linear time invariant system is a white Gaussian noise. The impulse response of the LTI system is given by h(t) = e-10t u(t) The output of the LTI system is denoted by Y(t). Find Mean of Y(t) Power spectral density of Y(t) Autocorrelation function of Y(t E[Y(t)2] P[Y(1) > √?0/2]express C(z) as a function of the input and the transfer functions shown. Please answer in typing format please ASAP for
- Task-1: Convert the following difference equations into z transforms:(a) y ( n ) = x ( n − 2)(b) y ( n ) = 0.1 x ( n ) + 0.9 x ( n − 1) − 0.3 y ( n − 1) Task-2: Find and plot zeros and poles of the systems defined by the difference equations given in Task-1. Task-3: Find and plot (a) Unit impulse responses (b) Unit step responses (c) Ramp responses :(x(n)=[1 2 3 4]) in time domain. Task-4: Plot frequency responses of the systems.Find the poles and zeros of the following transfer functions and draw the picture of the poles and zeros in the plane of s poles and zeros in the plane of s : Please answer all subparts not only first three subparts either dislike Its compulsory to answer in typing format please4. Transfer function of the system is defined as the ratio of Laplace output to Laplace input considering initial conditions________a) 1b) 2c) 0d) infinite 5. Feedback can always reduce the effects of noise and disturbance on system performance? a) Trueb) False 10. For open control system which of the following statements is incorrect?a. Less expensiveb. Recalibration is not required for maintaining the required quality of the output c. Construction is simple and maintenance easyd. Errors are caused by disturbances 11.the closed loop system is.a. Autopilot for an aircraft b. Direct current generator c. Car starter d. Electric switch