Study of the critical frequency of a constant generator high voltage
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Abstract
The high-frequency high-voltage DC generator, which contains serial voltage doublers at output, is considered. The mathematical model of voltage doubler with secondary winding reactive parameters is developed. To optimize a conversion frequency and a ripple of the high-voltage DC generator at the rated load current, analytical solutions for currents and voltages are obtained
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References
Besson G.M., Dynamic Multi-Spectral X-ray Projection Imagine. United States Patent No.: US 6,950,492 B2. September 27, 2005
E. Sato, “Repetitive flash x-ray generator utilizing a simple diode with a new type of energy-selective function”, Review of Scientific Instruments, vol. 61, no. 9, pp. 2343–2348, Sep. 1990. DOI:10.1063/1.1141958
C. N. Boyer, G. E. Holland, and J. F. Seely, “Intense nanosecond duration source of 10–250 keV x rays suitable for imaging projectile-induced cavitation in human cadaver tissue”, Review of Scientific Instruments, vol. 76, no. 3, Mar. 2005. DOI:10.1063/1.1864792
T. Onodera, S. Tanaka, S. Matsumoto, High voltage power supply with time limiting nonlinear feedback. United States Patent No.: 4,614,999. September 30, 1986
Y.Y. Drabovych, I.A. Krishtafovych, and I.H. Ponomaryov, Small springs high direct voltage, Kyiv: Prepr. IED, Academy of Sciences of the Ukrainian SSR, 1983, p. 34.
E. Chu, L. Gamage, M. Ishitobi, E. Hiraki, and M. Nakaoka, “Improved transient and steady‐state performance of series resonant ZCS high‐frequency inverter‐coupled voltage multiplier converter with dual mode PFM control scheme”, Electrical Engineering in Japan, vol. 149, no. 4, pp. 60–72, Sep. 2004. DOI:10.1002/eej.10345
S.Y. Myroshnychenko and Y.A. Shchygolev, “Simulation model of the high-voltage generator of the X-ray television system”, Electronics and communication, no. 2–3, pp. 166–171, 2009.
A.N. Gorsky, Y.S. Rusyn, and N.R. Ivanov, Calculation of electromagnetic elements of sources of secondary power supply, Moscow: Radio i svyaz, 1988, p. 176.
S.I. Miroshnichenko and Y.A. Shchigolev, “Model electrical strength of high voltage X-ray diagnostic transformer complex”, Electronics and communications, no. 1, pp. 142–144, 2008.
I.N. Bronshtein and K.A. Semendyaev, Handbook of mathematics for engineers and college students, Moscow: Nauka, 1986, p. 544.
