Parameter identification and application of Jiles-Atherton model for Fe-based nanocrystalline cores under pulsed excitation

Jiang Jinbo; Li Yi; Cao Yu; Cai Wanchen; Yao Yandong; Xu Lin

doi:10.11884/HPLPB202436.230363

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Jiang Jinbo, Li Yi, Cao Yu, et al. Parameter identification and application of Jiles-Atherton model for Fe-based nanocrystalline cores under pulsed excitation[J]. High Power Laser and Particle Beams. doi: 10.11884/HPLPB202436.230363

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Jiang Jinbo, Li Yi, Cao Yu, et al. Parameter identification and application of Jiles-Atherton model for Fe-based nanocrystalline cores under pulsed excitation[J]. High Power Laser and Particle Beams. doi: 10.11884/HPLPB202436.230363

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Parameter identification and application of Jiles-Atherton model for Fe-based nanocrystalline cores under pulsed excitation

doi: 10.11884/HPLPB202436.230363

Jiang Jinbo^{1, 2
,},
Li Yi¹,
Cao Yu³,
Cai Wanchen⁴,
Yao Yandong¹,
Xu Lin¹

1.
College of Engineering and New Energy, China Three Gorges University, Yichang 443002, China
2.
Hubei Provincial Engineering Research Center for Power Transmission Line, Yichang 443002, China
3.
State Grid Chaohu Power Supply Company, Chaohu 238000.China
4.
State Grid Dandong Power Supply Company, Dandong 118000, China

Received Date: 2023-10-20
Accepted Date: 2023-12-24
Rev Recd Date: 2024-01-17

Available Online: 2024-04-07

Abstract

Abstract

The classical Jiles-Atherton (J-A) equation has been modified through theoretical analysis, which enhances its adaptability under pulsed conditions. Hysteresis loops of Fe-based nanocrystalline cores are measured at different magnetization rates by using an experimental platform for pulsed magnetization properties. The genetic algorithm (GA) is used for J-A parameter identification under pulsed excitation, and the validity of the modified J-A equations is verified by fitting the algorithmically simulated hysteresis loops to the experimentally tested hysteresis loop dataset. Finally, the J-A parameter obtained by GA optimization are applied to the definition of magnetic core parameters in the field-circuit coupling model of the pulse transformer, the simulation and experimental errors when the primary voltage of the pulse transformer is 1.5 kV are analyzed. The results show that the pulse front error of the output waveform is 3.33% and the amplitude error is 2.91%, which is more accurate than the conventional nonlinear solving method of J-A parameter. This indicates that the optimized J-A parameter can be better applied to the modeling and simulation of magnetic-containing components in pulsed power systems.
- Fe-based nanocrystalline,
- pulsed magnetization properties,
- Jiles-Atherton model,
- genetic algorithm,
- pulse transformer

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References(19)

References

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