Modeling and Simulation of Multi-State Impulse Voltage Generator 22 kV 32 J

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Panet Suksing
Yutti Chatwaranon
Mallika Chatchawankitkun
Sommart Thongkom
Kawin Jewsuwun
Promphak Boonraksa

Abstract

This article proposed the multi-layer pulse pressure generator includes a charge compression resistor with a value of 6K, a forward wave resistor of 270, and a backward wave resistor of 10 has a spark plug, using a spherical head nut with a diameter of 0.5 centimeters and a gap of 0.3 centimeters. Through experiments, a suspended insulator head was used as the experimental load. When the experiment starts, it can be concluded that the 22kV multi-layer pulse generator can generate pulse voltage. However, the standard 1.2/50 µ s waveform is not available. From the charging waveform to the discharge time is 187.7 ns. When the peak value is reached, the tail wave will quickly decrease to the minimum value. The maximum value is 80 ns. The amplitude 54 V rated voltage 37.6 kV, minimum voltage 20 kV, test output voltage 20-37.6. kV can be seen that when the peak value is reached, the waveform fluctuates up and down to 0, indicating that the actual test results are passed. The oscilloscope has a larger oscillator because in actual testing, compared to analog oscilloscopes

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How to Cite
Suksing, P. ., Chatwaranon, Y., Chatchawankitkun, M. ., Thongkom, S. ., Jewsuwun, K. ., & Boonraksa, P. . (2024). Modeling and Simulation of Multi-State Impulse Voltage Generator 22 kV 32 J. Rattanakosin Journal of Science and Technology, 6(2), 85–98. Retrieved from https://ph02.tci-thaijo.org/index.php/RJST/article/view/251879
Section
Research Articles

References

W. Chaiyaphonphatthana, M. Phetkrai, S. Meeso. (2006). Improvement and development of an impulse voltage generator of 1.2/50 µs 400 kV 8 kJ Bangkok. King Mongkut's University of Technology Thonburi.

W. Cherdchuwuthikul, M. Saekow, S. Pikunthong, N. Sriprasert. (2000). Construction of a 100 kV impulse voltage generator 1360 J. Department of Electrical Engineering, Faculty of Engineering, King Mongkut's University of Technology Thonburi.

S. Sangsa-at. Design and construction of a 1000kV capacitor impulse voltage divider.

S. Sangsa-at. (1995). High Voltage Engineering. Department of Electrical Engineering Faculty of Engineering, Chulalongkorn University.

P. Chan-on, S. Limarayachon, S. Leeruang, W. longkul and A. Rattanawaropas. (2000). Design of an impulse voltage generator 100 kV 1360 joules. Bachelor of Engineering thesis. Department of Electrical Engineering, Faculty of Engineering, King Mongkut's University of Technology Thonburi.

V. Sappasuk, J. Thanawat, S. Sukjadit, S. Punyatham. (2006). Design and Construction of Impulse Voltage Generator A1.2/50 µs 10 kV 1.1 J. Bangkok, King Mongkut's University of Technology Thonburi. pages 85.

C. Noli, Y. Sisang, P. Uthumpirat. (1999). Design and Construction of a 4 kV/ 2kA High Voltage Combination Wave Generator. Bangkok, Mahanakorn University of Technology. page 75.