I have followed your steps exactly, but do not get the same output graphs. Did you alter step sizes or have anything other values defined before the video started?
the theta used inside ParkClark block, I believe it should've been the electrical theta not the mechanical theta. Please tell me which one is correct :)
@@zezooRO Hello, excuse me, could you please explain why the voltage equation is an electrical angle but Clarke transformed it into a mechanical angle? I read in the book that the voltage equation is the mechanical angle, and the Clarke transformation is the electrical angle
1/s is an integrator in s-domain (an integration in time-domain becomes division by s in s-domain) - look at the formula: we've got an ordinary differential equation here (where the derivation of a variable (d/dt wm) appears together with the variable (wm)), so how do you obtain wm (which as I said, is necessary to calculate its derivative) from its derivation? by integration...
File available for purchase. Contact me on ig instagram.com/hm2007plus8/
Very informative video sir, It would be really helpful if you make videos on flux weakening and MTPA control.
Derivative of state '1' in block 'deneme_sim/Subsystem/Integrator1' at time 0.0094853267617892138 is not finite
What is the name of the book you got the equations from?
please help me on 'speed control of IPMSM by using SMO and High frequency signal injection method'.
Can you release the video about SPMSM in the stationary reference frame ? Tks a lot ❤
Is it possible to fault your model of synchronous motor on Simulink?
Do it for synchronous generators plz
sir why speed is going in negative direction in starting
I'm having an error with the maxConsecutiveMinStepsize
How can i get the machine parameter thet_m it is not in the datasheet
Someone can please suggest a book or paper where this exact derivation is available?
I have followed your steps exactly, but do not get the same output graphs. Did you alter step sizes or have anything other values defined before the video started?
no everything is as demostrated in the video
the theta used inside ParkClark block, I believe it should've been the electrical theta not the mechanical theta. Please tell me which one is correct :)
Rewatch the video you'll understand
There is no ParkClark block in matlab 2018b version...so what to do now?
@@kms7616 Make your own, you have the equations
@@HigherMeditations2007plus8 Thank you so much it is clear to me now, except the poles mentioned are stator poles or rotor poles?
@@zezooRO Hello, excuse me, could you please explain why the voltage equation is an electrical angle but Clarke transformed it into a mechanical angle? I read in the book that the voltage equation is the mechanical angle, and the Clarke transformation is the electrical angle
please answer 1 question: Why x 1/s in wm?
1/s is an integrator in s-domain (an integration in time-domain becomes division by s in s-domain) - look at the formula: we've got an ordinary differential equation here (where the derivation of a variable (d/dt wm) appears together with the variable (wm)), so how do you obtain wm (which as I said, is necessary to calculate its derivative) from its derivation? by integration...
where can I find derivation?
Any electrical machines book
id not equal zero why
thank you bhayya subscribed to you
could you share the slx file
Hello, files are only available for purchase
@@HigherMeditations2007plus8 how much is the file ?
error in the constant block. its 3*pi/2 not 3*pi/4 , since pole pair number 2 cancels the denominator 2.
There's no error, think about it. And it is not 'pi' its p,