Relation between flux linkage and voltage constant | power_PMSy​nchronousM​achinePara​ms

20 Feb. 2019
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Aktualisiert 1 Mai 2024
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Hello to everyone,
I am currently working on mathematical modeling of permanent magnet synchronous motor and stuck in computing some variables from standart manufacturer specifications.
Actually, I want to understand how can I compute flux linkage from Back EMF (Ke) constant.
In Simulink, the Permanent Magnet Synchronous Machine block (Simulink Library -> Simscape/Power Systems/Specialized Technology/Fundamental Blocks/Machines), under the Advanced tab, there is a GUI which name is "Compute from standard manufacturer specifications". In this GUI, I am able to understand the math beyond the Voltage constant (ke) transformations between Vpeak/kRPM and Vrms/(rad/s). But I can't understand how the "flux linkage established by magnets (V*s)" is calculating from this voltage constant value.
Unfortunately, there is no information in Help section of this block about this topic.
Can someone please explain this relation by mathematical derivations.
Thanks in advance.
Best Regards,
Yasin

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Yasin Cetin
Yasin Cetin am 23 Feb. 2019

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ramesh.PNG
solved, thanks.

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Jacob
Jacob am 25 Apr. 2023
seems correct.
Using the above equation and data, where omega M = 1 and 4 pole pairs
flux linkage = sqrt(2)/sqrt(3)*0.03133/(4*1) = 0.0063952
Mohammad Nair
Mohammad Nair am 19 Apr. 2024
Could you please specify the source for this?
Radek
Radek am 1 Mai 2024
Bearbeitet: Radek am 1 Mai 2024
Why divide by sqrt(3) if voltage is already stated as rms? And then why multiply by sqrt(2)?

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armorfid
armorfid am 2 Okt. 2023
Bearbeitet: armorfid am 2 Okt. 2023

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The exact relationships between voltage constant Ke [V/krpm], torque constant Kt [N·m/A], and flux linkage λpm [V·s] are described on this page: https://www.mathworks.com/help/mcb/ref/surfacemountpmsm.html
These are valid for both surface and interior PMSM.

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Radek
Radek am 1 Mai 2024
Why mathworks divides Ke based on peak voltage by sqrt(3) ? That implies RMS regime. But RMS is meanigless in FOC theory.
At least I can exaplin the 2/3 term seems they can be exaplained by from adding https://e2e.ti.com/support/microcontrollers/c2000-microcontrollers-group/c2000/f/c2000-microcontrollers-forum/298101/torque-calculation-and-definition-of-flux-unit-v-hz/1043212#1043212
Radek
Radek am 1 Mai 2024
Also, here mathworks doesn't use sqrt(3) https://www.mathworks.com/help/sps/ug/parameterize-a-permanent-magnet-synchronous-motor.html. But they talk about Voltage peak to ground.
And the voltage between line conductors is 3 times the phase conductor to neutral voltage, so I guess that is what is happening. V_L-L is converted to V_L-N.

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Yasin Cetin
Yasin Cetin am 20 Feb. 2019
Bearbeitet: Yasin Cetin am 20 Feb. 2019

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Hello again,
I found at the bottom of the following link
"As expected, the measured torque and back EMF constants have approximately the same value (0.18) and are related to the permanent magnet flux linkage via the number of pole pairs N of the motor:
flux linkage = (back EMF constant)/(number of pole pairs)"
https://www.mathworks.com/help/physmod/sps/examples/parameterize-a-permanent-magnet-synchronous-motor.html
But, in the GUI which I mentioned above post, results are not satisfying this equation. (0.03133/0.00639521 = 4.899)

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