Summary: 0:00 Field Oriented Control in Real Time 1:32 Establishing Space Vector Conventions 4:28 How Do You Control Torque on a DC Motor 7:57 How Do You Control Torque on a Permanent Magnet AC Motor 8:22 Steps of Field Oriented Control 16:35 The Clarke Transform 20:09 Stationary vs Synchronous Reference Frames 24:13 The Park (dq0) Transform 27:09 FOC in dq reference frame 34:00 FOC in a Nutshell 35:35 Round of questions 46:00 Simulation Exercise Setup 1:12:05 Simulation Run
"Mod-01 Lec-17 Dynamic Equations of Induction Machines". If you type it on youtube, at around 20 minutes of the first part of the video is about it there are both "spatial representation and phasor representation".
These lectures are excellent! Thank you. I'm not going to waste too much time with BLDC projects ever again. I just learned about FOC yesterday and I'm never doing it the old way again.
Quote: _"I just learned about FOC yesterday and I'm never doing it the old way again."_ Same here. I had trouble finding any info on sensorless Delta commutation. The focus seems to be on the Wye configuration. The problem with the Delta wound BLDC is that all three phases are energized simultaneously. I'm going to experiment with current sensing circuits.
I finished watching all of these lectures and this is my second time watching them again. I also watched all of the Control System lectures by Richard Polley that preceded these. It was really intense and extremely informative. It's starting to sink in though! Thank you for sharing this with us.
I worked on a motion controller and end up with a good servo Driver.But I had couple of things that was hard to understood. After this, i got answers for most of my problems.And the lecturer is a best one that i have saw.Amazing ! From SL
i filled a HD bucket with water and made some soap bubbles. when you stop spinning it is easier to see what was stationary in the rotating frame was infact rotating.
Does anyone remember when did he say that DC motor is actually AC motor where FOC is performed by its mechanical structure. I'm pretty sure it was in one of his 'teaching old motors new tricks' serie.
awesome, clear, easy to understand lecture. Does this series cover AC induction motors at any point and how to handle the i(sub d)? This is also known as the flux current in the rotor. Asynchronous motors work just like they sound, the rotor is out of synchronous alignment with the stator EMF, inducing current thru the rotor - asynchronous motors do not have permanent magnets.
Excellent classes please can you help me how to adjust zero to servomotors that use resolver with the help of the oscilloscope thank you very much greetings from Venezuela
@Texas Instruments: Does this software simulate available for free in your website? Please let me know and I appreciate for your help. I really interested in this whole topic
If i use a series PI Regulator for Torque and Flux currents, do the regulator gain deterministic calculations remain same as mentioned in the lecture part I? i.e. we have to cancel zero of PI regulator with the pole of motor winding. If it is so, then how we will relate the 2 PI regulator zeros with 3 winding poles (L/R) since it is a 3 phase machine and we have only 2 PI regulators?
I think there is something wrong with coffee cup analogy, actually the observer have to get inside of the cup and start spinning himself in same direction as that of bubbles, than only bubbles would become stationary.
There is something I don't unserstand. Space state representation is not Phasor representation... Then what are this signals actually? Are we working with magnitudes only? What about the frequency of these signals?
I don't see why not, but the question would be why? That is an honest question. If you are going to introduce control, why would you use a single phase motor? You already have start windings. I would suggest it goes against reason to build a controller for a single phase motor.
we need more of this type of lectures these days. people from industry with lots of experience, teaching new engineers.
Summary:
0:00 Field Oriented Control in Real Time
1:32 Establishing Space Vector Conventions
4:28 How Do You Control Torque on a DC Motor
7:57 How Do You Control Torque on a Permanent Magnet AC Motor
8:22 Steps of Field Oriented Control
16:35 The Clarke Transform
20:09 Stationary vs Synchronous Reference Frames
24:13 The Park (dq0) Transform
27:09 FOC in dq reference frame
34:00 FOC in a Nutshell
35:35 Round of questions
46:00 Simulation Exercise Setup
1:12:05 Simulation Run
@2.20 - 2.25 "This is spatial representation, not phasor representation". That simple statement has cleared up so much of my confusion on this topic!
"Mod-01 Lec-17 Dynamic Equations of Induction Machines". If you type it on youtube, at around 20 minutes of the first part of the video is about it there are both "spatial representation and phasor representation".
These lectures are excellent! Thank you.
I'm not going to waste too much time with BLDC projects ever again.
I just learned about FOC yesterday and I'm never doing it the old way again.
Quote: _"I just learned about FOC yesterday and I'm never doing it the old way again."_
Same here. I had trouble finding any info on sensorless Delta commutation. The focus seems to be on the Wye configuration. The problem with the Delta wound BLDC is that all three phases are energized simultaneously.
I'm going to experiment with current sensing circuits.
I finished watching all of these lectures and this is my second time watching them again. I also watched all of the Control System lectures by Richard Polley that preceded these. It was really intense and extremely informative.
It's starting to sink in though!
Thank you for sharing this with us.
can you share a link to those Lectures please because i cant find them !
Amazing teacher. I wish I had the same quality of teachers during my university years.
This guy is an amazing teacher...made things so simple to understand.
What's his name?
Why these videos do not appear at the top of the list in searches for motor control, foc, etc? Please TI promote them more!!! Amazing content!
The speaker is awesome.
I worked on a motion controller and end up with a good servo Driver.But I had couple of things that was hard to understood. After this, i got answers for most of my problems.And the lecturer is a best one that i have saw.Amazing !
From SL
I really like this presenter, I think that he is very good at this topic.
i feel obligated to buy some components from TI. This is an amazing series.
Excellent Lecture. Explained very very well.
❤
Best lecture about motor control I've ever seen.
This lecture is just awesome, thank you.
all of the action, words of professor, is professional
very helpful, thx for the person who posts it !!!
Loved it. Your simplification just clocked in❤️
I can see this... and how this Technology makes set up times cut in half, also shutdown and start up times!
i filled a HD bucket with water and made some soap bubbles. when you stop spinning it is easier to see what was stationary in the rotating frame was infact rotating.
Does anyone remember when did he say that DC motor is actually AC motor where FOC is performed by its mechanical structure. I'm pretty sure it was in one of his 'teaching old motors new tricks' serie.
awesome, clear, easy to understand lecture. Does this series cover AC induction motors at any point and how to handle the i(sub d)? This is also known as the flux current in the rotor. Asynchronous motors work just like they sound, the rotor is out of synchronous alignment with the stator EMF, inducing current thru the rotor - asynchronous motors do not have permanent magnets.
Which book gives the same detailed explanation of this transformation from stationery ref frame to rotating frames
Excellent ! Thanks
Excellent classes please can you help me how to adjust zero to servomotors that use resolver with the help of the oscilloscope thank you very much greetings from Venezuela
WOuld you please post a link to the software used in this lab?
Cpu overheating--apply fresh thermal paste to your CPU's heatsink.
@Texas Instruments: Does this software simulate available for free in your website? Please let me know and I appreciate for your help. I really interested in this whole topic
What is the name of this software every one?
How will calculate desired torque and desired flux ?
awesome, helpful...Respect.
I like your lecture 😍
If i use a series PI Regulator for Torque and Flux currents, do the regulator gain deterministic calculations remain same as mentioned in the lecture part I? i.e. we have to cancel zero of PI regulator with the pole of motor winding. If it is so, then how we will relate the 2 PI regulator zeros with 3 winding poles (L/R) since it is a 3 phase machine and we have only 2 PI regulators?
hello sir, do you already have an answer for your question. If you do, could you please explain it to me in few sentences? Thank you!
I think there is something wrong with coffee cup analogy, actually the observer have to get inside of the cup and start spinning himself in same direction as that of bubbles, than only bubbles would become stationary.
Spin on an office chair while holding the cup
How do we calculate commanded value in PI controller?
There is something I don't unserstand. Space state representation is not Phasor representation... Then what are this signals actually? Are we working with magnitudes only? What about the frequency of these signals?
Could you tell me how to get in touch with the teacher?
does any1 know where i can get the vissim simulation files hes legolab
I have some questions !
Can FOC be applied on single phase induction motor?
I don't see why not, but the question would be why? That is an honest question. If you are going to introduce control, why would you use a single phase motor? You already have start windings. I would suggest it goes against reason to build a controller for a single phase motor.
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