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a Discretizing the following system using s- -1) with sample period T-1,0.1,0·01 900 H(s) = 82+28+900...
4. For the following state table 00 11 01 01 00 1 1 01 11 jus Design the system using a T flip flop for q, and an SR flip flop for the equations for the flip flop inputs and the output.
4. For the following state table 00 11 01 01 00 1 1 01 11 jus Design the system using a T flip flop for q, and an SR flip flop for the equations for the flip flop...
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1. Consider the system shown in Figure 1 below. Ideal Ideal y(t) Sample period T Sample period T Figure 1. System for Problem 1. The input to the above system is x(), the output is y), and the sampling period for both the ideal A/D and ideal D/A is T>0. For your answers to the various parts below, be sure to include appropriate units, where applicable. a) Suppose that x(t)-5. Determine all numerical values...
a) Find the output of the system 1 h[n] = 28[n + 1] + [n] +3 while x[n] = 28[n + 1] + [n – 1] +2 0[n – 1] - [n – 2] b) Find the output of the system h(t) for the x(t) given below. x(t) let, lo, Ost<2 others h(t) = {0; -15t52 others x(t) h(t) 1 -1 2 c) Find the state-variable description of the system represented by block diagram given below. S x[n] S y[n]...
1. Consider the system shown in Figure 1 below. Ideal Ideal r(t) Sample period Sample period T Figure 1. System for Problem 1. The input to the above system is x(), the output is y(), and the sampling period for both the ideal A/D and ideal D/A is T>0. For your answers to the various pa be sure to include appropriate units, where applicable. rts below., Suppose that x(1) Justify your answer. a) 5. Determine all numerical values of T...
р Question 3 Consider the transfer function, H(s), of a non-causal LTI system H(S) = s+2 (8+3)(82 +8+5) (82–8+5) 1. Determine ROC for H(s) = = = xx, E P T
4. the LTI system which we are given the following information: h(t) X(s) s +2 s-2 andel-)-jeuc). (a) Determine H(s) and its region of convergence (b) Determine ht) (c) If keep the same system, but change the input x(t)-e-31 , determine the output y(t)
9.7. Determining the ROCS of the following systems: S ooslas arb bos (a) The system with the impulse response of h(t) 5.2'u(t). (b) The system with the impulse response of h(t) 4.2'u(2 - t). (c) The system with the impulse response of h(t) 20e [u(t)- u(t12)]1 =
9.7. Determining the ROCS of the following systems: S ooslas arb bos (a) The system with the impulse response of h(t) 5.2'u(t). (b) The system with the impulse response of h(t) 4.2'u(2 -...
1. Consider the standard unity feedback system with the feedforward transfer function K(a+3) 82-2 KG(s) Using the root locus plot, determine the range(s) of K such that the closed-loop system is stable. Determin all the points of interest for the root locus plot.
1) For the following state table, design the system using SR flip flops. 0 0 1 10 01 10 11 0o 01 0
1) For the following state table, design the system using SR flip flops. 0 0 1 10 01 10 11 0o 01 0
Using the Following Functions G(s) = 1 and H(s) = 1 1. Enter the G(s) and H(s) functions. (Take advantage of using either symbolic tool or entering vector format with Commands like tf to generate the transfer function.) Your goal is to find the following a) X(5) - O Y ) Cascade system b) XI(6) — 6) → Y(s) Parallel System X2(8) — 20) R(S) O G() Yes H(s) Feedback System (Hint: Use commands like cascade(tf), parallel(tf) and feedback(tt)) 2....