Simscape Model source code

2016 11 18
4 个回答
更新时间:2024 1 2
9 次查看(30 天)

0 个投票

I have created a Simscape model by dragging dropping and connecting various components from the electrical foundation library. Now I am interested in looking at the underlying Simscape language source code of the interconnected components. This is similar to how I use OpenModelica for example. How do I do this? I have figured out how to view the source for a single component, but not the entire composition that is in my .slx file. The underlying goal here is to have a look at the DAEs and their interconnections.
Thanks!
~ry

请先登录,再回答此问题。

回答(4 个)

Lucas Lebert
Lucas Lebert 2016-12-6

0 个投票

Hi Ryan, you can access the source code of every block from the Simscape Foundation Library->Electrical, if you double click on the block and click on the link "Source Code". However this is not possible for blocks of the Simscape Electronics library. There is no option to access the source code of these blocks. The functionality of these blocks is explained in detail in the MATLAB documentation though.

2 个评论
显示 无 隐藏 无

Ryan Goodfellow
Ryan Goodfellow 2016-12-21
Hi Lucas,
Thanks for the response, but it does not address the question. I have already stated that I know how to get the equations for a particular component. What I want is the DAE equation system for a composition of components that I create in the designer interface. I require these equations to run a structural analysis algorithm I have coded.
liqun fang
liqun fang 2022-4-25
Hey , have you solved this problem?

请先登录,再进行评论。

Rafa Fernan
Rafa Fernan 2017-11-21

0 个投票

Hi Ryan,
I'm looking for the same topic, how I can get the DAE equation system of my simscape system. Did you get it Ryan?
Regards Rafa
Anjali
Anjali 2024-1-2

0 个投票

% DC Servo Motor Control System
% Motor parameters J = 0.01; % Inertia b = 0.1; % Damping coefficient K = 0.01; % Motor constant R = 1; % Resistance L = 0.5; % Inductance
% Transfer function of the motor numerator = K; denominator = [J*L (J*R + L*b) (R*b + K^2)];
G = tf(numerator, denominator);
% Proportional-Integral (PI) Controller Kp = 10; % Proportional gain Ki = 1; % Integral gain
controller = pid(Kp, Ki);
% Closed-loop system closedLoopSystem = feedback(G * controller, 1);
% Time vector t = 0:0.01:5;
% Step response of the closed-loop system step(closedLoopSystem, t); title('DC Servo Motor Control System Step Response'); xlabel('Time (seconds)'); ylabel('Position');
% Displaying the closed-loop t
Anjali
Anjali 2024-1-2

0 个投票

% DC Servo Motor Control System
% Motor parameters J = 0.01; % Inertia b = 0.1; % Damping coefficient K = 0.01; % Motor constant R = 1; % Resistance L = 0.5; % Inductance
% Transfer function of the motor numerator = K; denominator = [J*L (J*R + L*b) (R*b + K^2)];
G = tf(numerator, denominator);
% Proportional-Integral (PI) Controller Kp = 10; % Proportional gain Ki = 1; % Integral gain
controller = pid(Kp, Ki);
% Closed-loop system closedLoopSystem = feedback(G * controller, 1);
% Time vector t = 0:0.01:5;
% Step response of the closed-loop system step(closedLoopSystem, t); title('DC Servo Motor Control System Step Response'); xlabel('Time (seconds)'); ylabel('Position');
% Displaying the closed-loop t

类别

帮助中心File Exchange 中查找有关 Electrical Sensors 的更多信息

产品

标签

Community Treasure Hunt

Find the treasures in MATLAB Central and discover how the community can help you!

Start Hunting!

Translated by