# HWCE_2 - HW/CE#2 EE 362K Spring 2010 Due Friday Feb 12 at the beginning of class Your turn-in for any part requiring use of MATLAB must include a

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HW/CE#2 EE 362K Spring 2010 Due: Friday, Feb 12, at the beginning of class. Your turn-in for any part requiring use of MATLAB must include a printout showing your input statements and MATLAB developed answer(s). You must also include a printout of any plots required. 1. Except where noted otherwise, do parts a through g below using MATLAB: Given the following closed loop transfer function: 2670 389 40 ) 2000 90 ( 335 . 1 ) ( ) ( ) ( 2 3 2 + + + + + = = s s s s s s T s R s Y a. Find the poles and zeroes for T(s) and identify the dominant poles b. Determine, by hand, the values of ζ and ω n for the dominant poles. c. Determine, by hand, rise time t r , settling time t s , and overshoot M p , based on the approximate relationships for dominant second order poles. d. Find the step response for the system. Include your plot in your turn-in. Estimate, from the plot, rise time t r , settling time t s , and overshoot M p and compare these values to what you determined in part c. above.

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## This note was uploaded on 09/27/2010 for the course EE 360K taught by Professor Brown during the Spring '10 term at UT Arlington.

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HWCE_2 - HW/CE#2 EE 362K Spring 2010 Due Friday Feb 12 at the beginning of class Your turn-in for any part requiring use of MATLAB must include a

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