Hello, Thanks for the nice explanation. I am not getting similar result. I have emailed you my simulation file. Could you please take a look at what might be wrong with my simulation setup?
@eng.khalidyahia2976 قبل ثانيتين If you have any specific questions about simulations or any other topic, feel free to email me through khalidy34@gmail.com
Thank you Sir for this video. Please tell me how you calculated R_load = 100 ohm. My load is non-linear, how to calculate non-linear load? Please answer my question.
Rectifier control usually deal with converting AC to DC, and their control might involve ensuring a stable DC output voltage while the inverter control needs to ensure that the AC output closely resembles a sinusoidal waveform in terms of frequency, amplitude, and phase.
Could someone please tell me how to derive the formula for calculating the values of K as a function of C and L, for the voltage and current loops? I would be very grateful. Voltage Loop: KP = 3*C/T = 1.5 KI = 3*Rl/T = 300 Current Loop: KP = 3*L/T = 10 KI = 3*Rl/T = 400
Eng. khalid can I get a contact with you please for some questions regarding to the grid contact with the Inverter. Thanks for helpful videos Note: with payment I don’t mind If that possible please let me know
In rectifier and inverter pulse-width modulation (PWM) control strategies, multiplying the voltage components Vd and Vq by 2/Vdc is a common practice to ensure that the modulation index remains within an acceptable range. By multiplying the voltage components by 2/Vdc , you're effectively normalizing them with respect to the DC bus voltage. This ensures that the modulation index remains within the permissible range (typically between 0 and 1). If the modulation index exceeds 1, it could lead to overmodulation.
@eng.khalidyahia2976 قبل ثانيتين If you have any specific questions about simulations or any other topic, feel free to email me through khalidy34@gmail.com
nice video... please make videos on control and power sharing of wind turbines as well....thanks
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?
Would it be possible to provide the reference paper(or book) that covers this implementation?
Thank you Mr khalid
How did you find the control time constant??
Can you explain why your current feedback loops are positive? Why arent you subtracting Iq from Iq reference to make an error?
Hello, Thanks for the nice explanation. I am not getting similar result. I have emailed you my simulation file. Could you please take a look at what might be wrong with my simulation setup?
Helo sir,its really help full
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.
Same exact sim model , and dont get same results . Do you have any specific scope settings worth mentioning to help me troubleshoot ?
@eng.khalidyahia2976
قبل ثانيتين
If you have any specific questions about simulations or any other topic, feel free to email me through khalidy34@gmail.com
Hey
Thank for this video, but it is not getting any good results of this in my MATLAb. Sir can you please have a look at my model?
Mine too.
I cant get the desired vdc ..i don't how to solve it.please help
melat desto, I could fix my problem, If you I can help you
@@kevinhawram1879 i'm also not getting result. Please help me to solve it sir
Hello my dear I simulating the same project exactly but not obtained the same your result
Why we set the constant current equal zero plz
Thank you Sir for this video. Please tell me how you calculated R_load = 100 ohm. My load is non-linear, how to calculate non-linear load? Please answer my question.
Isn't it the same as the design of three-phase inverter because the control blocks look the same
Rectifier control usually deal with converting AC to DC, and their control might involve ensuring a stable DC output voltage
while the inverter control needs to ensure that the AC output closely resembles a sinusoidal waveform in terms of frequency, amplitude, and phase.
Could someone please tell me how to derive the formula for calculating the values of K as a function of C and L, for the voltage and current loops? I would be very grateful.
Voltage Loop:
KP = 3*C/T = 1.5
KI = 3*Rl/T = 300
Current Loop:
KP = 3*L/T = 10
KI = 3*Rl/T = 400
Eng. khalid can I get a contact with you please for some questions regarding to the grid contact with the Inverter. Thanks for helpful videos
Note: with payment I don’t mind
If that possible please let me know
i like the music
Hello sir, can you plz upload the simulation of flicker free LED driver without electrolytic capacitor simulation.
Can you show us how to model PI controller using mathematical equations
Please refer to my previous videos where I have explained this before.
Bro I have some project for you do you work with me ???
why u multiply vd & vq to (2/Vdc)
In rectifier and inverter pulse-width modulation (PWM) control strategies, multiplying the voltage components Vd and Vq by 2/Vdc is a common practice to ensure that the modulation index remains within an acceptable range. By multiplying the voltage components by 2/Vdc , you're effectively normalizing them with respect to the DC bus voltage. This ensures that the modulation index remains within the permissible range (typically between 0 and 1). If the modulation index exceeds 1, it could lead to overmodulation.
sir please show three phase current also
I need this PowerPoint file please
How to reduce transient?
@eng.khalidyahia2976
قبل ثانيتين
If you have any specific questions about simulations or any other topic, feel free to email me through khalidy34@gmail.com
could you share simulation file.
If you have any specific questions about simulations or any other topic, feel free to email me through khalidy34@gmail.com
Sir kindly Share your Email.
Thanks in anticipation
Why we set the constant current equal zero plz