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Eng. Khalid Yahia
Malaysia
เข้าร่วมเมื่อ 4 ธ.ค. 2011
Three-Phase Half-Wave and Full-Wave Controlled Rectifier | MATLAB Simulation Tutorial
In this video, we explore the simulation of both three-phase half-wave and full-wave controlled rectifiers using MATLAB/Simulink. Controlled rectifiers are widely used in power electronics to convert AC to DC power efficiently and precisely.
🔍 What You’ll Learn:
Key concepts of rectifiers and their applications in power electronics.
The difference between half-wave and full-wave rectification in three-phase systems.
Step-by-step MATLAB simulation setup for three-phase rectifiers.
How to adjust and analyze waveform outputs for both rectifier types.
Practical use cases of these rectifiers in real-world power systems.
💻 Tools Used:
MATLAB/Simulink for modeling and simulation.
Whether you're a student, engineer, or power electronics enthusiast, this tutorial provides a clear understanding of how three-phase controlled rectifiers function and offers hands-on experience with their simulation. Don’t forget to download the simulation files below to follow along with the video!
Chapters: 0:00 Introduction
0:48 Overview of Three-Phase Controlled Rectifiers
1:01 Half-Wave Rectifier Simulation
4:13 Full-Wave Rectifier Simulation
22:10 Comparing Results & Analysis
If you found this video helpful, please like and subscribe for more power electronics and MATLAB tutorials!
🔍 What You’ll Learn:
Key concepts of rectifiers and their applications in power electronics.
The difference between half-wave and full-wave rectification in three-phase systems.
Step-by-step MATLAB simulation setup for three-phase rectifiers.
How to adjust and analyze waveform outputs for both rectifier types.
Practical use cases of these rectifiers in real-world power systems.
💻 Tools Used:
MATLAB/Simulink for modeling and simulation.
Whether you're a student, engineer, or power electronics enthusiast, this tutorial provides a clear understanding of how three-phase controlled rectifiers function and offers hands-on experience with their simulation. Don’t forget to download the simulation files below to follow along with the video!
Chapters: 0:00 Introduction
0:48 Overview of Three-Phase Controlled Rectifiers
1:01 Half-Wave Rectifier Simulation
4:13 Full-Wave Rectifier Simulation
22:10 Comparing Results & Analysis
If you found this video helpful, please like and subscribe for more power electronics and MATLAB tutorials!
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Thank you for the video for the 3 phase joined grid inverter, it helped me in synchronous analysis.
Ok will many thanks
Sir we are facing lots of error in code,can you please help us?please do send your mail id sir
khalidy34@gmail.com
Can anyone explain me why the grid side output voltage is -316 to +316? And it is rms or peak value?
The peak value is obtained, but if you need the RMS value, divide it by √2 (square root of 2)
Sir what is the device that you connected PLL frequency at 8:39
Can you sharebase paper Simulink file?
Why was no transformer used after the LCL filter??
وفقك الله ، اريد ان اتواصل معك هل يمكنني
ممكن khalidy34@gmail.com
اريد التواصل معك ضروري
كيف اقدر اتواصل معك؟
How can I contact you?
Can you let me know what are the some reference papers used by you to do this project?
Hello, hope you are well. Can you please mark a simulation video on single phase standalone inverter with dq control ?
I have already created a simulation for a single-phase standalone inverter based on dq. Please recheck all the videos.
Hello Sir, where the duty ratio is important in this presentation?
The duty ratio is critical because it controls the output voltage or power in systems like inverters and converters. It directly affects efficiency, switching losses, and harmonic content, optimizing the system's performance. Proper duty cycle management can minimize heat generation, improving the longevity of electronic components. Additionally, it plays a key role in maintaining stable output characteristics under varying conditions.
I'm assuming that 25.07 is the angular velocity of the blades in rpm. but how did you obtain it?
Error: contains 1 algebraic loop. I am using MATLAB 2024a version. Please help
Did u find a solution?
Did u find a solution?
I just need an article without a controller that I can get mechanical torque output data from, where can I find it?
I am not getting the same results as you shown . Not getting current.
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 , I have a question if ı want to make rectifier mode would I phase angle make 180 degree? or completely should ı change controller?
hi i need some help
how did you determine the values of PI gain values
What do you mean by Vin ?! From where it com?!
From where we get Vo = 500v?!
2:21 Sir, if I want the Vo=48v and Powe= 5KW , how do I can change the numbers ?!
how to calculate ki sir?
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
Can you send me the file
Hi, Thank you very much for your video ! It is very helpful. But what is N in the output current formula?
Can I ask you about the presence of N in the current circuit? Why does it cause a malfunction when the circuit is turned on?
@@عاشقةجوريسينغاوبيروي I am not sure. What value did you give to N in your input data ?
@@felivigneau6314 I tried it and changed the N to Ns and set the operating time to 50 and the circuit worked for me
Thanks sir
What is the diode thermal voltage
Please make one video for unipolar
The presentation of the Design and Simulation of MPPT with PI controller in Simulink demonstrated an excellent didactic approach. Clear visualizations and step-by-step explanations made complex concepts accessible, offering a comprehensive learning experience in photovoltaic system control algorithms. Lovely background music!
Which version ofatlan are you using
can you how to decide Vdc voltage value
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?
Plz can i have your mail cause I'm having problem with this
what is your matlab version ?
Hello Sir, Can you please explain how to design a grid connected inverter (grid following) apt for power system fault studies?
How to adjust PI controller parameters using algorithm
nice song khalid ;)
سلام استاذ احتاج مساعدتك في محاكاة نماذج أخرى مثل نموذج تبسيط وقياسي ونماذج السبع والستة والخمس معلمات الخ ارجو منكم رد في اقرب وقت
Why we set the constant current equal zero plz
Why we set the constant current equal zero plz
Dear Sir, Thanks very much for distributing such kind of videos. But unfortunately in some episodes video are little bit turbid and very hard to see the content.
Noted thanks.
there is a syntax error in fcn 2
Sir please write the correct fcn
Can you mention the time and the equation
@@Eng.Khalid_Yahia that error is rectify
@@Eng.Khalid_Yahia sir please tell whee we put scope so that we will get graph as a output
Good job dr.khalid
موفق يادكتور
اللهم آمين شكرا باشمهندس مشاعر ربنا يوفق الجميع
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.
Thank you bro. But there L min and Calculations are not very clear.
Thanks for your video! Could you also explain how you design the controller, and why you pick those values of parameters? thx in advance