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1

Characteristics of Magnetic Core in Magnetic Pulse Compression System

100%

Zhang D., Yan P., Sun Y., Wang J., Zhou Y., Pan R.

Acta Physica Polonica A

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2009

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vol. 115

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issue 6

1001-1003

EN

In order to obtain the characteristics of magnetic core under ≈0.5-5 μs saturation time, a one-stage magnetic pulse compression circuit without external demagnetization circuits which are commonly used in magnetic compressors is designed. The current through the core is calculated by voltage across the resistive load, and the loop voltage is picked up with a single wire loop and integrated by software. B-H curves are derived from the measured voltage and current wave forms. B-H curves show that the core loss is in inverse proportion to the time to saturation, whereas the percentile core loss decreases as the charging energy increases. While the eddy current loss and dissipated energy are in direct proportion to dB/dt. The low inductance of magnetic switch indicates that the core is saturated and behaves as an air core. By applying custom characteristics to each stage in Pspice simulation, more practical energy transfer in magnetic pulse compression and the effects of leakage current are presented.

2

Synchronization Study and Introductory Experiment οf Laser-Triggered Surface Flashover in Voltage Pulse

100%

Pan R., Wang J., Sun Y., Sun G., Yan P., Zhang D.

Acta Physica Polonica A

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2009

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vol. 115

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issue 6

1167-1169

EN

With the aim of studying the characteristics of laser-triggered surface flashover in voltage pulse, synchronization problem of laser pulse and voltage pulse should be solved. A single/double harmonic, with wavelength λ of 1064/532 nm, Q-switched Nd:YAG laser is used to trigger the surface flashover. The synchronization problem is solved using a self-made digital delay/pulse generator. The delay time and jitter of Marx's trigger input and output, Marx's trigger output and Marx's output, laser input and output are respectively measured. Based on the result of the delay time and the timing sequence of the laser triggering system, the synchronization of laser pulse and voltage pulse is obtained through adjusting the channel delay time of digital delay/pulse generator. In addition, introductory experiment of laser-triggered surface flashover is carried out using the flat electrodes and columned insulators.

3

Development of a 20 kJ Sparker for High Resolution Ocean Seismic Survey

84%

Sun Y., Gao Y., Yan P., Wang J., Yuan W., Wu H., Wang Y., Wan P., Zhao G.

Acta Physica Polonica A

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2009

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vol. 115

|

issue 6

1059-1061

EN

An ocean sparker with a stored energy of 20 kJ was developed for high resolution ocean seismic survey. The sparker is mainly composed of a high voltage high frequency charging supply, energy storage capacitors, a discharging switch and discharging electrodes. The H-bridge inverter and series resonant mode were adopted in the charging supply, and a dry high voltage transformer was used to improve the safety and maintenance, the average charging rate exceeded 4 kJ/s. An optical fiber connected between the high voltage system and the control system was used to isolate high voltage and transmit the high voltage signal. The high voltage electrodes of the discharging electrodes consisted of several hundreds of electrodes. The experimental results show that the sparker can be operated at repetition rates of 12 shots/min, and can meet the expected design requirements. Further field tests will be done in the near future.

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Characteristics of Magnetic Core in Magnetic Pulse Compression System

Synchronization Study and Introductory Experiment οf Laser-Triggered Surface Flashover in Voltage Pulse

Development of a 20 kJ Sparker for High Resolution Ocean Seismic Survey