3-PH PLL for 400Hz Supply
2 visualizaciones (últimos 30 días)
Mostrar comentarios más antiguos
Hi,
I am using Matlab R2020 and TI F28388D to implement a PLL for 3-Ph grid connected converter. My grid is 400Hz. I have attached my block diagram. It does synchronize to the grid, however I am getting high frequency noise. Unfortunately I cannot attach a video of my pulses, but I can send via email if someone is intrested. Can someone please give some advice how to reduce the noise? I am using GaNs as my switching devices, so even a SC for 100ns would be catostrophic.
My sample time is 3.33e-6
PID Controller Parameters are
P= 40
I= 5000
D= 20
Thank you
Regards
Bilal
0 comentarios
Respuestas (1)
Joel Van Sickel
el 12 de Mayo de 2020
Hello Bilal,
I don't have the particular support package installed, so its possible I missed it, but it looks like you perform no filtering on your inputs. However, maybe you are filtering on the TI block in hardware, in which case I apologize. You can either implement a PLL that naturally fiters out this noise, or you can just filter the inputs, and take the phase shift into account. I didn't take a close look at what PLL approach you were using as there are so many, but you could probably just put a low pass filter on the inputs and take into account the phase shift you inject from that. This is especially true since you have a fixed line frequency and the noise from a GaN converter should be pretty far away from 400 Hz.
I would recommend including a plant model in your simulation so that you can test new ideas by injecting noise into the simulation and vetting your approach before attempting it in HW. Maybe you have done that, but the shared model shows the controller only.
Regards,
Joel
1 comentario
Comunidades de usuarios
Más respuestas en Power Electronics Control
Ver también
Categorías
Más información sobre FPGA, ASIC, and SoC Development en Help Center y File Exchange.
Community Treasure Hunt
Find the treasures in MATLAB Central and discover how the community can help you!
Start Hunting!