Show all your work II of the following transfer functions. Also function represents a stable system....
Show all your work leading up to tne laT JUlu (1) Plot the poles and zeros of the following transfer functions. Also, identify if the transfer function represents a stable system. (20) (s+2)(s-5) (s+4) (s2+6s)(s2 +16) s(s+4)(s+7) (s+2) (s+3) (s2+9) (s2+4s2+13s) (s-1)(s2+10s+34) C. (22 Show all your work leading up to tne laT JUlu (1) Plot the poles and zeros of the following transfer functions. Also, identify if the transfer function represents a stable system. (20) (s+2)(s-5) (s+4) (s2+6s)(s2 +16)...
with out using mat lab please, thank u (2) Draw the frequency response for the following transfer functions: (s +104)(s +108) a. (5+105)(s+107) (5+104)4 " (s+103)2(s+105)2 (s+102)? (s+105) “ (s+103)4(s+106)2
(1) Plot the poles and zeros of the following transfer functions. Also, identify if the transfer function represents a stable system. (15) (s+2)(s-5) (s-4)(s²+6s)(s²+9) a. s(s+4)(s+7) b. (s+1)(s+7)(s+9) (s+2)(s+3)(s²+25) (s3+13s2+42s)(s+1)(s²+8s+16) C. (2) Draw the fre meney raenoncafor the Cllawing tane fnetiene
(2) Draw the frequency response for the following transfer functions: (20) (s+105)(s+10") 10(s+104)(s+10°) a. (s+10³)²(s+10®)* b. 10(s+10*)*(s+107)2
2. The transfer function of a CT LTI system is given by H(s) (s2 +6s +10) (s2 -4s +8) a) Draw the pole-zero plot of the transfer function. b) Show all possible ROC's associated with this transfer function. c) Obtain the impulse response h(t) associated with each ROC of the transfer function. d) Which one (if any) of the impulse responses of part c) is stable? 2. The transfer function of a CT LTI system is given by H(s) (s2...
Q13,Q14 please. 25 For the system with transfer function G(S) [13] draw the bode (magnitude and s2+4s+25 phase) plot on the semi-log paper. [14] The frequency response test ona system yielded the following data: db 0.1 -14 900 610 450 0.5 1 5 5 10 00 10 7.5 -450 50 19 -1360 100 -31 -1800 Plot the data on a semi-log graph sheet. And, also determine the system transfer function in a frequency domain. 25 For the system with transfer...
4 2. The open-loop system with transfer function G(s)- is stable without a controller. s2 +6s +10 However, improvement of the transient response of the system is required such that (i) it settles in half the time, and (ii) the overshoot does not change. op pols roquire o achieve these perfomance the location of the euminent a requirements (b) Design a controller that achieves these performances requirements when the system is controlled using negative unity feedback. (c) Draw a block...
15 pts) For the following transfer functions. explain why the responses will be stable (or unstable) and oscillatory (or non- oscillatory) to an impulse input. 2-1 a. H(s)-+9 s+2 s2 +2s +10 s+1 c. H(s)-
Express the following transfer functions, H(s) in a state variable a) 1st Companion Form b) Jordan Form. Draw Block Diagrams showing outputs. Check controllability and observability of the state space equations. H(s) = 1/(s2+4s+4)
Problem 2 110] Consider the following transfer function (5)10000s+ 1000 (s) 101, +100 i. Find the poles and zeros of the transfer function [5] ii. Draw the frequency response chart of the transfer function. Magnitude scale must be Problem 2 110] Consider the following transfer function (5)10000s+ 1000 (s) 101, +100 i. Find the poles and zeros of the transfer function [5] ii. Draw the frequency response chart of the transfer function. Magnitude scale must be