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    Journals >High Power Laser and Particle Beams >Volume 35 >Issue 6 >Page 065006 > Article
    • High Power Laser and Particle Beams
    • Vol. 35, Issue 6, 065006 (2023)
    Development of high-power pulse inductor for vertical field power supply of TT-1 device
    Wendi Fan1、2, Rui Guan2、3, Jian Zhang2、3, and Yiyun Huang2、3、*
    Author Affiliations
  • 1Institute of Physical Science and Information Technology, Anhui University, Hefei 230039, China
  • 2Institute of Plasma Physics, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei 230031, China
  • 3Science Island Branch, University of Science and Technology of China, Hefei 230026, China
    • show less
    DOI: 10.11884/HPLPB202335.220393 Cite this Article
    Wendi Fan, Rui Guan, Jian Zhang, Yiyun Huang. Development of high-power pulse inductor for vertical field power supply of TT-1 device[J]. High Power Laser and Particle Beams, 2023, 35(6): 065006 Copy Citation Text show less
    Vertical field circuit topology
    Fig. 1. Vertical field circuit topology
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    Simulation waveform of pulse inductor current
    Fig. 2. Simulation waveform of pulse inductor current
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    Three winding methods of inductor
    Fig. 3. Three winding methods of inductor
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    Rectangular conductor coil
    Fig. 4. Rectangular conductor coil
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    Three dimensional model of inductor
    Fig. 5. Three dimensional model of inductor
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    Maxwell simulation model
    Fig. 6. Maxwell simulation model
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    Excitation circuit
    Fig. 7. Excitation circuit
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    Magnetic field distribution of pulse inductor
    Fig. 8. Magnetic field distribution of pulse inductor
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    Overall temperature rise of pulse inductor
    Fig. 9. Overall temperature rise of pulse inductor
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    Schematic diagram of test circuit
    Fig. 10. Schematic diagram of test circuit
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    Pulse power supply device
    Fig. 11. Pulse power supply device
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    Waveform diagram of pulse inductive current experiment
    Fig. 12. Waveform diagram of pulse inductive current experiment
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    Maximum temperature position of pulse inductor temperature rise experiment
    Fig. 13. Maximum temperature position of pulse inductor temperature rise experiment
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    coil inductance Lo/mH coil resistance Ro/mΩ pulse capacitorsCv/mF charging voltage Uo/V peak current Ip/kA peak current time tp/ms
    8.4673.697244.711
    Table 1. Main working parameters of pulse inductor
    work cycle/minpulse discharge time/sinductance/mHwithstand voltage/kVmaximum working voltage/Vmaximum working current/ADC resistance/mΩduty cycle
    515.81039614693<251/300
    Table 2. Main designing parameters of pulse inductor
    atomic weight density/ (kg·m−3) resistivity/ (nΩ·m) resistance temperature coefficient/ (nΩ·m−1·K−1) tensile strength/ MPa positive modulus of elasticity/ GPa linear expansion coefficient/ (10−6K−1) specific heat capacity/ (J·kg·−1·K−1) thermal conductivity/ (W·m−1·K−1)
    aluminum36.98270028.30.1150~2006323900231
    copper63.54889017.770.09525350~47012017392436
    Table 3. Comparison of properties between aluminum and copper
    Abstract
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    Figures&Tables (16)
    Equations (20)
    References (14)
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    Wendi Fan, Rui Guan, Jian Zhang, Yiyun Huang. Development of high-power pulse inductor for vertical field power supply of TT-1 device[J]. High Power Laser and Particle Beams, 2023, 35(6): 065006
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