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Article Navigation> JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY> 2011> 20(1): 23-29
YANG Gui-li, JIAO Qing-jie, JIN Zhao-xin, XU Xin-chun. Electrothermal energy conversion mechanism of micro-scale semiconductor bridge[J]. JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2011, 20(1): 23-29.
Citation: YANG Gui-li, JIAO Qing-jie, JIN Zhao-xin, XU Xin-chun. Electrothermal energy conversion mechanism of micro-scale semiconductor bridge[J].JOURNAL OF BEIJING INSTITUTE OF TECHNOLOGY, 2011, 20(1): 23-29.
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Electrothermal energy conversion mechanism of micro-scale semiconductor bridge

  • 1.

    State Key Laboratory of Explosion Science and Technology, Beijing Institute of Technology, Beijing 100081, China

  • 2.

    Xi’an Electronic Engineering Research Institute, Xi’an 710100, China

  • Received Date:2009-12-14
    Abstract
  • The response characteristics of resistance is observed by the analysis of experimental data of micro-scale semiconductor bridge (MSCB) under different voltage inputs. Two critical voltages are found. One is called exploding voltage, above which the MSCB can be melted and vaporized without generating a plasma, and the other is called producing a plasma voltage, above which the MSCB is entirely vaporized, and then the current flows through the vapor producing the plasma. Based on the non-Fourier heat conduction theory, the electrothermal energy conversion model is established for the stage from heating to exploding, and then the correlation of MSCB and time is obtained by graphic calculation. Importantly, the critical exploding voltage and exploding time are also derivate. With the comparison between the analytical result from the theoretical model and that from experimental data, it has been demonstrated that the theoretical model is reasonable and feasible for designing the exploding voltage and exploding time.
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    • References (9)
  • [1]
    Hollander Jr L E. Semiconductor explosive igniter: US, 3366055 . 1968-01-30.
    [2]
    Bickes Jr R W, Schwarz A C. Semiconductor bridge (SCB) igniter: US, 4708060 . 1987-11-24.
    [3]
    Benson D A, Bickes Jr R W. Tungsten bridge for the low energy ignition of explosive and energetic materials: US, 4976200 . 1990-12-11.
    [4]
    Kim J, Nam K S, Jungling K C. Plasma electron density generated by a semiconductor bridge as a function of input energy and land material[J].IEEE Transactions on Electron Devices,1997,44(6):1022-1026.
    [5]
    Benson D A, Larsen M E, Renlund A M, et al. Semiconductor bridge: a plasma generator for the ignition of exp1osives[J].Journal Appl Phys,1987,62(5):1622-1632.
    [6]
    Renlund A M, Triott W M. SCB plasma spectroscopy, SAND-86-2211-UC-13 . Albuquerque, NM: Sandia National Laboratories, 1986.
    [7]
    Lee Kye-Nam, Park Myung-I1, Choi Sung-Ho,et al. Characteristics of plasma generated by polysilicon semiconductor bridge (SCB)[J].Sensors and Actuators A, 2002,96:252-257.
    [8]
    Kim J, Roh T M, Cho Kyoung-IK,et al. Optical characteristics of silicon semiconductor bridge under high current density conditions[J]. IEEE Transactions on Electron Devices,2001,48(5):852-857.
    [9]
    Yang Guili, Jiao Qingjie. Calculating the resistance of double V-shaped semiconductor bridge[J]. Initiators and Pyrotechnics,2009(3):1-5.(in Chinese) (Edited by
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