I am struggling with a little project I decided to tackle. I am trying to replicate an example I found on a book using matlab simulink but I have no experience with simulink and control theory (I do understand the principles etc.).
The control block diagram is given but I do not understand some blocks and how to add my input (sine wave block on simulink)?
Here are the details:
Example I wish to reproduce
Schematic of the converter and desired control block diagram
If anyone could give me a little insight or direct me to some examples from which I could build on an understanding would be great!
Thank you in advance.
The portion entitled controller is the closed-loop feedback control for the system. K(s) would typically contain some type of PI control. In a more complicated control system, the structure of K(s) may be a little different, but will usually always contain an integration in order to ensure that the system eventually settles at the desired value.
The input Iref is your current command. In this case you would inject your sinusoid here which would produce a current waveform matching your desired output. If your desired output.
Output m is the modulating waveform produced by the controller. Everything inside the half-bridge converter section is a representation of the converter and everything that it is interfaced to (voltage sources).
The feedforward filter here is also a very important component. Since Vs contains an alternating waveform, the feed forward filter allows the system to respond to changes in Vs without relying on feedback compensation K(s). This helps to decouple current regulation from changes in voltage VD.
To start with the project, you can probably build the half bridge converter as shown. You can inject 400*cos(377t - pi/2) as VD.
For the feedback compensator K(s) you can feed the input into two gains (Ki and Kp) which you will select values for later. At the output of Ki insert an integrator (1/s) then sum the output of Kp and the integrator together.
For the feed-forward filter, you should probably just use a low pass filter with a gain of 1 at DC. The low pass filter prevents noise from entering the system. In this case you are running a simulation, so there will be no noise. However, the filter will eliminate any algebraic loops, which can cause warnings or errors in the simulation.
You can input your control signal at Iref.
Related
I am new to Simscape. I would like to find a minimalist way to display voltage and current at various points in a circuit. Ideally just floating text labels with no 'wires' or connections visible. For example "Vbe 0.4v" or "Ic 20mA"
Currently I am using 3 standard blocks to achieve this and the circuit looks cluttered.
Is there a way to do what I want with some coding?
Currently, you have several options, some involve more work. Here are two ideas:
A) If your circuit is 3-phase, you can use the Busbar block and enable Frequency and Time solver in the Solver Configuration block, to display the initial voltages (and also power flows). This uses the Load-Flow Analysis feature starting R2019b. Check out this simple example.
B) Connect Voltage Sensor blocks to the nodes you want to sense voltage on, and connect the voltage PS output to a Simulink Display block, which will display the numerical value in real-time.
I would like to make a discrete filter, where the sampling rate can be controlled by an input. I am trying to understand how the discrete filter block looks, "under its own mask." Is there anyway to retrieve the code behind this block so it can be modified for my use?
You can use an user-defined function as a filter, pick the filter transfer function, translate it into a difference equation (the discrete-time equivalant to the diferrential equation), implement that difference equation in a function and feed the sampling rate as an input (the sampling rate will appear as a constant in your difference equation).
The block is too complex and has too many options to simply be able to look under the mask. Your best option is to have a look at the documentation, which does show some detailed implementation of the block in some articular cases to get an idea and then try to recreate the discrete filter you want from basic building blocks, using a constant sample time at first, until you can validate your own implementation against the Simulink library block. Only then, start considering how you will change the sample time. Your main problem though is that the filter coefficients will change with the sample time, so you need to be able to re-calculate them on the fly. It's not an easy problem, I don't even know if it's possible.
I am currently studying a doctoral thesis in control theory. At the end of every chapter there is a simulation of a relative-with-the-subject problem. I have finished the theory,but for further understanding I would like to reproduce the simulations. The first simulation is as follows :
The solution of the problem concludes in a system of differential equations whose right hand side consists of functions with unknown parameters. The author states the following : "We will use neural networks with one hidden layer,sigmoid basis functions and 5 weights in the external layer in order to approximate every parameter of the unknown functions.More specifically, the weights of the hidden layer are selected through iterative trials and are kept stable during the simulation." And then he states the logic with which he selects the initial values of the unknown parameters and then shows the results of the simulation.
Could anyone give me a lead on where to look and what I need to know in order to solve this specific problem myself in MATLAB (since this is the environment I am most familiar with)? Because the results of a google search are chaotic since I don't really know what I'm looking for.
If you need any more info,feel free to ask!
You can try MATLAB's Neural Network Toolbox. This gives you an nice UI where you can configure the network, train it with data to find the parameter values and test for performance. No coding involved.
Or, you can program it by hand. Since you are working with one hidden layer, it should be very simple. I am sure any machine learning or neural net (NN) textbook would have one example of it. You can also look into GitHib for projects. There should be many NN projects there, in case you are looking to salvage code from existing project.
Most importantly, you should start by learning about NN, if you haven't done that already. NN with single hidden layer is easy to implement once you understand the equations for the forward and back propagation.
I am doing a project on Open Modelica and i have to simulate filters on it using active elements(op amp). Modelica plots graph with respect to time but i want my graphs with respect to frequency to analyze the frequency response of the system. I searched the internet but couldn't find anything useful. Please reply as soon as possible.
If you want to plot a variable with respect to another variable you can use plotParameteric from OMShell (OpenModelica Shell). In OMEdit (OpenModelica Connection Editor) you can click on parametric plot button x(y) and then select 2 variables.
I assume that what you want is a Bode plot. If so, it is important to understand that such a plot does not arise from a transient simulation. It is necessary to transform your system into a linear, time-invariant representation in order to express the response of your system in the frequency domain.
I do not know what specific features OpenModelica has in this regard. But those are at least the kinds of things you should search the documentation for. If you have access to MATLAB, then all you really need to do is extract the linearized version of the model (normally expressed as the so-called "ABCD" matrices) and MATLAB can get you the rest of the way.
There is also the Modelica_LinearSystems2 library which might be compatible with OpenModelica (I have no idea). It includes many types of operations you would typically perform on linear systems.
I have set up a model using SimMechanics. It outputs data at the times where the solver steps to. Is there any possibility to have some kind of dense output such that it is possible to interpolate these data to get the solution at arbitrary points without losing the high order of the integrator?
In Matlab this is easily possible using the function deval after the integration of one of the built-in ODE integrators.
In SimMechanics I can select these integrators, too. Is there some kind of analouge way to deval?
Yes, it's possible, although it's a Simulink functionality, not specific to SimMechanics. In the Configuration Parameters of the model, you can set the model to Produce Specified Output Only (see http://www.mathworks.co.uk/help/simulink/gui/data-import-export-pane.html#bq9_fhw-1), under Data Import/Export. This way, only the outputs you specify will be produced regardless of the time steps taken by the solver.