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I am trying to simulate the PMSM in fault mode with phase loss at 0.25 sec, but the simulation results are incorrect. For example, the rotor speed changes too much when a phase is missing. I tried to assemble the model in dq coordinates and abc coordinates on my own, but the results are the same. Who can tell you how to modify the engine model so that the simulation shows the correct results?
Many educators use Simulink for their virtual labs. Starting in R2021a, you can add comments to blocks in a Simulink model. If you use Simulink in your class, you can use this to prompt questions to your students or to provide them feedback. Students working in groups can collaborate directly in the Simulink Editor, such as by suggesting alternative designs.
Click here to learn how to view, add, and reply to comments on blocks.
You may also want to learn more about Virtual Labs and Projects with MATLAB and Simulink, or read some Tips for Moving your Lab-based Classes Online.
Hi, MathWorks / MATLAB / Simulink community! I have recently started working my way through the book mentioned in the topic, and I am wondering if anybody out there would be interested and have time to help me review some of my work on the exercises. Specifically, I'm currently working "Exercise 7.9 - Challenge: Design of a Type 2 PLL" and I am not convinced that my implementation is correct, but I'm having some trouble with debugging.
Is anyone interested and have time to review my implementation and give some feedback? I'd definitely appreciate it.
Thanks!
Shaun Lippy Middleburg, VA, USA
Hi everyone, I'm trying to estimate the Frequency Response of a buck converter. I've found this article: https://it.mathworks.com/company/newsletters/articles/estimating-the-frequency-response-of-a-power-electronics-model.html I've adapted the procedure to a buck converter and followed the instructions but something went wrong. In the last step I've performed a time-domain verification in a Simulink® simulation with the switch-mode buck converter and a Transfer Function block implementing the parametric estimation and compare the response of both systems to the same small perturbation signal but the estimated model response doesn't match the switching model response. I don't know why I've got a diverging systems. I've tried to reduce the load and modify the duty cycle but nothing changed. How can I fix it?
Hi All,
Looking for guidance on how to represent a PMSM 3-Phase Converter (DC bus to AC) as a simply 1st Order Transfer Function in my Simulink model.
Researching this, have found we can show the Power Converter as a simple gain and time delay such as G_inv(s) = K_Inv/(1 + T_inv s)
The gain requires V_cm, which is the control voltage, is this control voltage the "Forward Voltage, Vf" in Switching Devices tab in the block?
Is my assumption for the tf for the converter correct?
Thanks
Patrick
As an environment for modeling, simulating, and testing dynamic systems, Simulink is used for:
- Creating virtual simulation labs for interactively exploring technical concepts and building intuition in areas like controls , circuits , mechanics , and signal processing
- Collaborating and implementing software- and hardware-based projects in areas like robotics, instrumentation, and FPGA’s
Simulink is now available in a web browser as Simulink Online.
Simulink Online is available to anyone with access to MATLAB Online (see supported license types here) and a Simulink license.
Just sign into MATLAB Online and either start Simulink or open a Simulink model.
Learn more about Simulink Online at the product page on our website.
Simulink Online currently supports the following toolboxes, with more to be added in the future!
- Simulink
- Stateflow
- Simscape
- Simscape Electrical
- Simscape Multibody
- Simulink Control Design
- DSP System Toolbox
In this article, we discuss how educators can adopt simulation, alternative hardware, and other teaching resources to transition lab-based classes to distance learning: https://medium.com/mathworks/tips-for-moving-your-lab-based-classes-online-1cb53e90ee00.
Do you teach a lab-based class? Please share your thoughts, questions, experience, and feedback on these ideas here. I also welcome you to invite your colleagues to join the discussion here.
Hi, Currently modelling an reciprocating engine coupled to a linear PMSM motor/generator for my PhD. I have downloaded the "Model File Package for Motor Control Design Public Video" simulink model.
Is it possible to convert to rotational PMSM simscape plant model used for a linear PMSM model? As there are none in the library to just drag into the existing control model.
Any ideas i can represent a linear motor based on this existing control model?
My output from the machine needs to be linear position w.r.t, with a total stroke of approximately 100 mm. Can i convert the rotational constant speed input at port "W" to a sinusoidal velocity profile (such that it replicates the velocity profile of a linear machine)?
Any help would be great.
Thanks
Hi everyone,
I am trying to control an actuator with brushless DC Motor in Simulink. At one point, I am in need of the motor rotation and the only parameter available to me is the duty cycle and the direction of rotor. I knew that it is not possible to calculate rotation from duty cycle. In case if some one have idea about this or some suggestions, could you please share with me
Thanks in advance
From where i can start to learn . Please suggest a particular topic or lectures.
Hi,Everyone,I am new member here. I want to learn simulation on projects. Please suggest, from where i can start Simulink easily and learn from Basics to Advance level.
I am trying to design the outer voltage loop of the inverter but i am unable to remove the 5,7th harmonics from the capacitor voltage as i am trying to supply nonlinear load. The file is in matlab2018b.
Model-Based Design speeds up developing embedded software for controllers in power electronics-based systems. Wherever you plan to use digital controls, you can use Model-Based Design to develop, test, and implement your algorithms. You can learn more about Model-Based Design in this white paper .
