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How to plot step response of second order system?
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omgNot = 1;
zetaNot = 0.6;
H = tf(omgNot^2,[1, 2*zetaNot*omgNot, omgNot^2]);
stepplot(H)
I am using the code above to plot the step response of a second order system, but I am getting the follwoing error
Invalid default value for property 'InputName_' in class
'DynamicSystem':
Attempt to execute SCRIPT strings as a function:
I would really appreciate your help. Thank you.
댓글 수: 7
madhan ravi
2019년 2월 4일
The best option is to contact mathworks support team by clicking the Contact Us button on the top right corner if this page. And finally post the solution (the reason) provided by them as an answer and accept it so it might be helpful for others.
답변 (4개)
Hiroumi Mita
2019년 2월 4일
Do you have any MATLAB workspace variables pre-defined and the name is such as,'tf' ,'sterpplot', or ' DynamicSystem'?
Needless to say, double defined same name of pre-defined functions and workspace variable is prohibited.
The reason is priority of workscape name and functionname depends on the prioirty of MATLAB path.
If you have 'tf' where is in MATLAB workspace variable , this is the highest priority.
Second, if you have 'tf' function or other famous name's function you personally programed in current directory which name is same as functions as provided by toolboxes , the function located in current directory has higher priority than Toolboxes.
Please check above.
In my environment , your scriput runs normally.
댓글 수: 1
madhan ravi
2019년 2월 4일
It would have been crystal clear when typing
which ... -all
as the OP has posted the results of it , neither it is a variable or a custom made function/script. Possible reason could be that the OP has made some changes in the default script file.
Vikas Panit
2021년 8월 18일
You can use the MATLAB pre-defined variables of Control Systems Toolbox to solve the following problem. If you dont have Control Systems toolbox download from here - https://in.mathworks.com/products/control.html
Here is the code you can use to find step response of second order system and command window output:
wn= input('frequency')
zeta= input('damping factor')
k= input('constant')
num= [k*wn^2]
deno= [1 2*zeta*wn wn^2]
g= tf(num, deno)
t= feedback(g,1)
step(t, 'r')
댓글 수: 0
Afshan.N.
2023년 7월 13일
wn= input('frequency') zeta= input('damping factor') k= input('constant') num= [k*wn^2] deno= [1 2*zeta*wn wn^2] g= tf(num, deno) t= feedback(g,1) step(t, 'r')
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