• Title/Summary/Keyword: High voltage pulse current

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High-Efficiency Full-Bridge DC-DC Converter with Current-Doubler Rectifier with Asymmetric Pulse-Width Modulation (비대칭 펄스 폭 변조 방식의 배전류 정류기 회로를 적용한 고효율 풀-브릿지 DC-DC 컨버터)

  • Yang, Min-Kwon;Choi, Woo-Young
    • The Transactions of the Korean Institute of Power Electronics
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    • v.20 no.3
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    • pp.280-289
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    • 2015
  • A high-efficiency full-bridge DC-DC converter with a current-doubler rectifier and an asymmetric pulse-width modulation is proposed. Through the asymmetric pulse-width modulation, the proposed converter achieves zero-voltage switching of power switches without the circulating currents. The proposed converter reduces the output current ripple through the current-doubler rectifier. A control strategy is suggested for the proposed converter to charge battery banks. A constant current and constant voltage charging is performed. The proposed converter achieved a higher efficiency compared with the conventional full-bridge DC-DC converter with a phase-shift modulation. The performance of the proposed converter is evaluated by the experimental results for a 1.0 kW prototype circuit.

OPTIMIZATION OF OPERATION PARAMETERS OF 80-KEV ELECTRON GUN

  • Kim, Jeong Dong;Lee, Yongdeok;Kang, Heung Sik
    • Nuclear Engineering and Technology
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    • v.46 no.3
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    • pp.387-394
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    • 2014
  • A Slowing Down Time Spectrometer (SDTS) system is a highly efficient technique for isotopic nuclear material content analysis. SDTS technology has been used to analyze spent nuclear fuel and the pyro-processing of spent fuel. SDTS requires an external neutron source to induce the isotopic fissile fission. A high intensity neutron source is required to ensure a high for a good fissile fission. The electron linear accelerator system was selected to generate proper source neutrons efficiently. As a first step, the electron generator of an 80-keV electron gun was manufactured. In order to produce the high beam power from electron linear accelerator, a proper beam current is required form the electron generator. In this study, the beam current was measured by evaluating the performance of the electron generator. The beam current was determined by five parameters: high voltage at the electron gun, cathode voltage, pulse width, pulse amplitude, and bias voltage at the grid. From the experimental results under optimal conditions, the high voltage was determined to be 80 kV, the pulse width was 500 ns, and the cathode voltage was from 4.2 V to 4.6 V. The beam current was measured as 1.9 A at maximum. These results satisfy the beam current required for the operation of an electron linear accelerator.

Development of PC based High Voltage Generator for Dental CT (PC기반 치과 CT용 고전압 펄스 발생장치 개발)

  • Kim, Hack-Seong;Oh, Jun-Yong;Song, Sang-Hoon;Won, Choong-Yeon
    • Proceedings of the KIPE Conference
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    • 2008.06a
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    • pp.580-582
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    • 2008
  • The object of this paper is develope the PC based controlled high voltage power supply and studies 1.2kW(120kV, 10mA) pulse power X-ray generator possible to adapt fluoroscopy of Dental CT X-ray generator and industrial X-ray pulse power equipment. The developed pulse power X-ray generator consisted of mono-block tank include X-ray tube and high voltage X-ray power supply circuit and high voltage control unit with RS232C/422 communication port. The PC control program of pulse power X-ray generator uses LabVIEW, and the size of high voltage transformer and high voltage generator is minimized by high voltage high frequency inverter has 100kHz switching frequency. Also this paper shows result of X-ray tube voltage and tube current correspond to variable load.

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Breakdown Properties in Physiological Saline by High Voltage Pulse Generator

  • Byeon, Yong-Seong;Song, Ki-Baek;Uhm, Han-Sup;Shin, Hee-M.;Choi, Eun-Ha
    • Proceedings of the Korean Vacuum Society Conference
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    • 2011.08a
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    • pp.333-333
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    • 2011
  • We have investigated the breakdown properties in liquids by high voltage pulse system. High voltage pulse power system is consisted of the Marx-generator with two capacitors (0.5 ${\mu}F$, withstanding voltage is 40 kV), to which the charging voltage can be applied to maximum 30 kV DC, spark gap switch and charging resistor of 20 $M{\Omega}$. We have made use of tungsten pin electrodes of anode-cathode (A-K), which are immersed into the liquids. The breakdown voltage and current signals are measured by high voltage probe (Tektronix P6015A) and current monitor (IPC CM-1.S). Especially the high speed breakdown or plasma propagation characteristics in the pulsed A-K gap have been investigated by using the high speed ICCD camera. We have measured the electron temperature through the Boltzmann plot method from the breakdown spectrums. Here the A-K gap has been changed by 1 mm, 2 mm, and 3 mm. The used liquids are distilled water and solution of salt (0.9 %). The output voltage and current signals at breakdown in distilled water are shown to be bigger than those in saline solution. The breakdown voltage and current characteristics in liquids will be discussed in accordance with A-K gap distances. It is also found that the electron temperatures and plasma densities in liquids are decreased in conformity with A-K gap.

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Current Source Type Pulse Generator with Improved Output Voltage Waveform for High Voltage Capacitively Coupled Plasma System (고전압 용량성 결합 플라즈마 시스템의 개선된 전압 파형 출력을 위한 펄스 전류 발생장치 회로)

  • Chae, Beomseok;Min, Juhwa;Suh, Yongsug;Kim, Hyunbae
    • The Transactions of the Korean Institute of Power Electronics
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    • v.24 no.3
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    • pp.153-160
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    • 2019
  • This study proposes a current source-type pulse generator to improve output voltage and current waveforms under a capacitively coupled plasma (CCP) system. The proposed circuit comprises two parallel-connected current source-type converters. These converters can satisfy the required output waveforms of plasma processing. The parallel-connected converters operate without reverse current fault by applying a time-delay control technique. Conventional voltage source converters based on pulse power supply exhibit drawbacks in short-circuit current, and problems occur when they are applied to a CCP system. The proposed pulse power supply based on a current source converter fundamentally solves the short-circuit current problem. Therefore, this topology can improve the voltage and current accuracy of a CCP system.

A study on the design of triggering pulse generator for the triggered vacuum switch (진공스위치 트리거 발생기 설계에 관한연구)

  • Kim, Mu-Sang;Son, Yun-Gyu;Park, Ung-Hwa;Lee, Byeong-Jun
    • Proceedings of the Korean Vacuum Society Conference
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    • 2016.02a
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    • pp.201.2-201.2
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    • 2016
  • The triggered vacuum switch (TVS) is widely used as a high power switch in the field of pulsed power application. TVS can produce current of higher than 100 kA within a microsecond after being triggered. A triggering high voltage pulse generator supplies a high voltage signal to the trigger system to initiate the discharge between a trigger pin and one of main electrode. The trigger system, which consists of a tungsten trigger electrode and cylindrical ceramic insulator around it, is normally installed at the center of main cathode electrode. The discharging characteristics of the trigger system strongly depend on the geometry, electrode material, vacuum pressure and so on. In addition, we especially will focus on the developing a triggering pulse generator, which can vary not only value of voltage but also pulse duration, because its properties gives pivot influences on the TVS discharge. To verify such effects, we made a 3.3 kJ TVS set-up initially. Thus we will discuss some of prominent results from 3.3 kJ TVS system. In parallel we will show on the design of 300 kJ TVS system for the high current in the future.

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Phase Angle Control in Resonant Inverters with Pulse Phase Modulation

  • Ye, Zhongming;Jain, Praveen;Sen, Paresh
    • Journal of Power Electronics
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    • v.8 no.4
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    • pp.332-344
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    • 2008
  • High frequency AC (HFAC) power distribution systems delivering power through a high frequency AC link with sinusoidal voltage have the advantages of simple structure and high efficiency. In a multiple module system, where multiple resonant inverters are paralleled to the high frequency AC bus through connection inductors, it is necessary for the output voltage phase angles of the inverters be controlled so that the circulating current among the inverters be minimized. However, the phase angle of the resonant inverters output voltage can not be controlled with conventional phase shift modulation or pulse width modulation. The phase angle is a function of both the phase of the gating signals and the impedance of the resonant tank. In this paper, we proposed a pulse phase modulation (PPM) concept for the resonant inverters, so that the phase angle of the output voltage can be regulated. The PPM can be used to minimize the circulating current between the resonant inverters. The mechanisms of the phase angle control and the PPM were explained. The small signal model of a PPM controlled half-bridge resonant inverter was analyzed. The concept was verified in a half bridge resonant inverter with a series-parallel resonant tank. An HFAC power distribution system with two resonant inverters connected in parallel to a 500kHz, 28V AC bus was presented to demonstrate the applicability of the concept in a high frequency power distribution system.

A Basic Study on X-ray Controlled Semiconductor Switch for Pulse Power (펄스파워용 X선제어 무도체스위치의 기본연구)

  • Ko, Kwang-Cheol
    • The Transactions of the Korean Institute of Electrical Engineers
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    • v.41 no.9
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    • pp.1013-1020
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    • 1992
  • The conductivity variation of a high resistivity bulk silicon semiconductor, whose electrodes were deposited with aluminum vapor, was studied experimentally by measuring the X-ray intensity and current flow, which was developed by X-ray radiation while applying a pulse voltage to the silicon, in a load resistor connected to the semiconductor. The current flow observed immediately as the X-ray radiated, and when the X-ray decreased. It was found from the observation of switching current for the X-ray intensity and the voltage applied in the semiconductor that the switching current of the semiconductor increased as the intensity of the X-ray and the applied voltage increased. In case of lower applied voltage, the switching current for higher applied voltage depended on the intensity of the X-ray radiated due to the saturation of electron and hole.

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Three Phase Voltage Source Soft Switching Inverter with High Frequency Pulse Current Transformers

  • Inaba, Claudio Y.;Hiraki, Eiji;Nakaoka, Mutsuo
    • Journal of Power Electronics
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    • v.2 no.4
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    • pp.288-296
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    • 2002
  • In this paper, a high frequency transformer - assisted auxiliary active resonant commutated snubber (HFTA-ARCS) for voltage source soft switching pulse width modulated power conversion circuits is presented. A three phase voltage source type soft switching inverter incorporating HFTA-ARCS circuits in its three bridge legs can reduce current rating of auxiliary active power switches and has sensorless simplified control scheme which any specified boost current management is not required for soft switching. Its operation principle and digital control scheme are described and a practical design method of circuit parameters on this HFTA-ARCS circuit is also introduced on the basis of computer simulation. Moreover, this space voltage vector modulated soft switching inverter system with DSP-based digital control scheme Is discussed and its effectiveness is proved on the basis of performance evaluations. The operating performances of this inverter system are also compared with those of conventional three-phase hard switching inverter under practical conditions of specified parameters.

A New High-Voltage Generator for the Semiconductor Chip

  • Kim Phil Jung;Ku Dae Sung;Chat Sin Young;Jeong Lae Seong;Yang Dong Hyun;Kim Jong Bin
    • Proceedings of the IEEK Conference
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    • 2004.08c
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    • pp.612-615
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    • 2004
  • A high-voltage generator is used to program the anti-fuse of the semiconductor chip. A new high-voltage generator consists of PN diodes and new stack type capacitors. An oscillator supply pulses to the high-voltage generator. The pulse period of the oscillator is delayed by controlling gate-voltage of the MOS. The pulse period is about 27ns, therefore the pulse frequency is about 37MHz. The threshold voltage of PN diode is about 0.8V. The capacitance of new stack type capacitor is about 4pF. The output voltage of the new high-voltage generator is about 7.9V and its current capacity is about $488{\mu}$A.

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