Hi Hoyt, we glad you found the lecture useful! If you want to find more content like this, visit hil.academy/ - an e-learning platform dedicated to teaching HIL testing power electronics and power systems where anyone can enroll adn get certified free of charge.
At 17:27 , in the 3rd state equation of voltage (de/dt), the filtering coefficient "a" is missing from the 2nd term , it must be "-n*a*V/X e cos(δ)" instead of "-n*V/X e cos(δ)", can you verify ? thanks.
Hi there, we reached out to Dr. Pinheiro to confirm the answer to this question and we are waiting to hear back from him. In the meantime, you can check if you might find the answer to your question in one of the UFSM courses at HIL Academy: - Digital Control of Grid-Tied Converters: hil.academy/courses/digital-control-of-grid-tied-converters/ - Control of Microgrids: hil.academy/courses/control-of-microgrids/ We hope these resources will be helpful!
Hi there and thank you for your question! Our engineering team confirmed that the equasion is adf=2*pi*30. All models related to the course this video was recorded for (hil.academy/courses/digital-control-of-grid-tied-converters/) can be found within the Typhoon HIL Control Center software in examples folder: examples\courses\digital control of grid-tied converters We hope this helps and we wish you success with your HIL projects!
Hi there! Please find more information about the presented microgrid in this HIL Academy course, for which this video was created: hil.academy/courses/digital-control-of-grid-tied-converters/
Thanks to the great lecturer and Typhon HIL for providing such an informative lecture.
Hi Hoyt, we glad you found the lecture useful! If you want to find more content like this, visit hil.academy/ - an e-learning platform dedicated to teaching HIL testing power electronics and power systems where anyone can enroll adn get certified free of charge.
@@TyphoonHIL great, I am surely checking it out.
At 17:27 , in the 3rd state equation of voltage (de/dt), the filtering coefficient "a" is missing from the 2nd term , it must be "-n*a*V/X e cos(δ)" instead of "-n*V/X e cos(δ)", can you verify ? thanks.
Hi there, we reached out to Dr. Pinheiro to confirm the answer to this question and we are waiting to hear back from him. In the meantime, you can check if you might find the answer to your question in one of the UFSM courses at HIL Academy:
- Digital Control of Grid-Tied Converters: hil.academy/courses/digital-control-of-grid-tied-converters/
- Control of Microgrids: hil.academy/courses/control-of-microgrids/
We hope these resources will be helpful!
@@TyphoonHILThank you
Hello, thank you very much. Would it be possible to clarify how to compute parameter adf (50:40, c-code, line 22)?
Hi there and thank you for your question! Our engineering team confirmed that the equasion is adf=2*pi*30. All models related to the course this video was recorded for (hil.academy/courses/digital-control-of-grid-tied-converters/) can be found within the Typhoon HIL Control Center software in examples folder: examples\courses\digital control of grid-tied converters
We hope this helps and we wish you success with your HIL projects!
Finały I found information, the answer that was bothering me for months. I guess I would stay here for a while
We are glad you found this tutorial useful! You can find more free learning materials at hil.academy - make sure to check it out!
Is it a hybrid ac dc microgrid?
Hi there! Please find more information about the presented microgrid in this HIL Academy course, for which this video was created: hil.academy/courses/digital-control-of-grid-tied-converters/