Thank you sir.. those who are interested in this area definitely approach you.. slowly our subscribers number will increase.. people concentrate on movies more but less on knowledge .. please keep uploading videos sir . Thank you sir.
Resonant Frequency (ωn): ωn = 2π * Frequency Where Frequency is the desired resonant frequency in Hz. Damping Ratio (ξ): ξ = Damping Factor ξ is typically chosen between 0.1 and 0.7. Total Inductance (L): L = (R / ωn) * sqrt(1 - ξ^2) Where R is the load resistance. Total Capacitance (C): C = 1 / (L * (ωn^2))
On the other hand, I have replicated your model exactly and I am not getting the same results. I have a very distorted current and voltage signal at the output.
The model works, but can we possibly have the paper where you taken the design from? And as said from Ani Emmanuel, there's an error in the LCL filter calculation. I'd like to know more about the design. Thanks for your time.
Thank you for your inquiry. Yes, we can certainly implement a droop-control microgrid. If you have any specific requirements or details you'd like to discuss further, please feel free to provide more information, and I'll do my best to assist you.
Thank you for your video sir. I was wondering what is the different between current control and voltage control grid connected inverter, can you explain it to me sir?
Resonant Frequency (ωn): ωn = 2π * Frequency Where Frequency is the desired resonant frequency in Hz. Damping Ratio (ξ): ξ = Damping Factor ξ is typically chosen between 0.1 and 0.7. Total Inductance (L): L = (R / ωn) * sqrt(1 - ξ^2) Where R is the load resistance. Total Capacitance (C): C = 1 / (L * (ωn^2))
Thank you sir.. those who are interested in this area definitely approach you.. slowly our subscribers number will increase.. people concentrate on movies more but less on knowledge .. please keep uploading videos sir . Thank you sir.
Does this video show grid voltage control or grid current control?
Thank you Sir for the good video
I take great pleasure in assisting you, and I want you to know that I'm here, ready to help whenever you may need my support.
Sir, How did you calculate the PI Controller values?
Thanks for your video! Could you also explain how you design the controller, and why you pick those values of parameters? thx in advance
Thank you. Why is desired id = -250? (at time 15:31)
Great!
Amazing!
Can you please mention the article you taken the values from?
Hello , I have a question if ı want to make rectifier mode would I phase angle make 180 degree? or completely should ı change controller?
Hello, the corrected formula for LCL filter is (Wsw)^2/(Wres)^2
Resonant Frequency (ωn):
ωn = 2π * Frequency
Where Frequency is the desired resonant frequency in Hz.
Damping Ratio (ξ):
ξ = Damping Factor
ξ is typically chosen between 0.1 and 0.7.
Total Inductance (L):
L = (R / ωn) * sqrt(1 - ξ^2)
Where R is the load resistance.
Total Capacitance (C):
C = 1 / (L * (ωn^2))
On the other hand, I have replicated your model exactly and I am not getting the same results. I have a very distorted current and voltage signal at the output.
check everything one by one you will get the same result @@veronicarosero3925
LCL filter part do u refered tech simulators video?
aoa...very good and informative video brother. Can you please mention the article you taken the values from?
Can you share the reference paper you used
Engr. Khalid yahia. Can you please make a lecture on how to design a bidirectional AC/DC Converter(VSC). It would be a great favour.
OK I will
The model works, but can we possibly have the paper where you taken the design from? And as said from Ani Emmanuel, there's an error in the LCL filter calculation. I'd like to know more about the design. Thanks for your time.
Can you please help me once
Gooood
Thanks for your support
Sir if i model dc link as current source how to control it?? also how C value for dc link is calculated ????
what is your matlab version ?
شكرا
Hi Sir. How to control genarating pulses of inverter ex: genarate pulses to control P or Q when load is on or off please suggest me thank you.
is there any difference in LCL Design between rectifier and anverter
any reference book or paper based on this. please suggest it would be great.
sir in two level converter input port 2 BL is showing error then how to execute sir i have my presentation day after tomorrow please help me sir
Eng. can you help me a simulation video of a single stage three phase 100MW grid connected solar PV system using MATLAB Simulink software.
Could you make video on droop control microgrid
Thank you for your inquiry. Yes, we can certainly implement a droop-control microgrid. If you have any specific requirements or details you'd like to discuss further, please feel free to provide more information, and I'll do my best to assist you.
how to control the magnitude of voltage, if the load alternating voltage might be constant.
Thank you for your video sir. I was wondering what is the different between current control and voltage control grid connected inverter, can you explain it to me sir?
very nice and informative, can you please share paper you followed or implemented ... Jazak.ALLAH
good job, but i want ask you about (P,Vg)=???? IN LCL Design
Fantastique
I take great pleasure in assisting you, and I want you to know that I'm here, ready to help whenever you may need my support.
Hi Engr. Khalid, Could you please check the formular for minimum value of LCL filter inductance? The formular in the video seems erroneous.
Resonant Frequency (ωn):
ωn = 2π * Frequency
Where Frequency is the desired resonant frequency in Hz.
Damping Ratio (ξ):
ξ = Damping Factor
ξ is typically chosen between 0.1 and 0.7.
Total Inductance (L):
L = (R / ωn) * sqrt(1 - ξ^2)
Where R is the load resistance.
Total Capacitance (C):
C = 1 / (L * (ωn^2))
Sir is there file available of this video plz
Thank you bro. But there L min and Calculations are not very clear.
hi, my output did not come like expected, although i replicated your model
Hello Sir,
Can we use this for Bi-Directional Power flow?