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Автор: Grafiati
Опубліковано: 6 вересня 2023

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1

Zhang, Jian, Rui Guan, Fei Guo, Yu Zhou, Haozhang Sun, Junjiang Wang, and Yiyun Huang. "Study on the soft-start process of PSM high voltage power supply for ECRH." EPJ Web of Conferences 203 (2019): 04019. http://dx.doi.org/10.1051/epjconf/201920304019.

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Анотація:
The soft-start process of high voltage power supply (HVPS) based on pulse step modulation (PSM) for ECRH on EAST is introduced, which is the first procedure of system operation. The response process is detailed by proposing DC equivalent circuit model, process analysis and performance comparison is given under the conditions of different soft-start resistor parameters, and the theoretical analysis is proved by the simulation package ANSYS Simplorer simulations. The soft-start resistor is designed for the HVPS of 140GHz ECRH system for a smooth charging without overshoot of the capacitor[6], and the final experimental results show that it is in agreement with the theoretical analysis and is stable and reliable to the power devices.
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2

Wang, Mao, Wendong Ma, Yong Yang, Miaohui Li, Zege Wu, Huaichuan Hu, Jianqiang Feng, et al. "Development of lower hybrid wave power feedback control and experiments on EAST." Journal of Instrumentation 18, no. 01 (January 1, 2023): P01010. http://dx.doi.org/10.1088/1748-0221/18/01/p01010.

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Abstract A new method of power feedback control for the lower hybrid wave (LHW) systems on the experimental advanced superconducting tokamak (EAST) is presented. Different methods are applied to control the power of two LHW systems with different frequency at 2.45 GHz and at 4.6 GHz, respectively. The old method is applied to control the 4.6 GHz LHW power through the exciter of klystrons, and the new one is used to control the 2.45 GHz LHW power through the high voltage power supply (HVPS) system. The new method has been applied in EAST and successfully assisted the development of relevant experiments such as loop voltage control, q profile control.
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3

Anastasi, G. A., M. Buscemi, M. Aglietta, R. Caruso, A. Castellina, S. Costa, S. Gallian, et al. "Validation of high voltage power supplies for the 1-inch photomultipliers of AugerPrime, the Pierre Auger Observatory upgrade." Journal of Instrumentation 17, no. 04 (April 1, 2022): T04003. http://dx.doi.org/10.1088/1748-0221/17/04/t04003.

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Анотація:
Abstract In the framework of the upgrade of the Pierre Auger Observatory, a new high voltage module is being employed for the power supply of the 1-inch photomultiplier added to each water-Cherenkov detector of the surface array with the aim of increasing the dynamic range of the measurements. This module is located in a dedicated box near the electronics and comprises a low consumption DC-DC converter hosted inside an aluminum box. All the modules have undergone specific tests to verify their reliability in the extreme environmental conditions of the Argentinian pampa. In this paper, we describe the validation procedure and the facility developed to this aim. The successful results of the tests on the HVPS modules are presented and discussed.
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4

Bader, M. P., A. M. Kosyrev, and N. A. Kukuyuk. "ELECTROMAGNETIC COMPATIBILITY OF HIGH-VOLTAGE ELECTRICAL SYSTEMS." World of Transport and Transportation 14, no. 1 (February 28, 2016): 210–18. http://dx.doi.org/10.30932/1992-3252-2016-14-1-22.

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Анотація:
[For the English abstract and full text of the article please see the attached PDF-File (English version follows Russian version)].ABSTRACT Analysis of performance and reliability of electrical equipment of high-voltage electrical systems (hereinafter - HVES) confirms the need to improve evaluation methods and mathematical modeling of transients in power lines (hereinafter - PL), at substations, and in grounding and protective devices. One of the main problems, however, remains improvement of safety and quality of HVES functioning in accordance with their EMC in modes of overvoltage effects, including determination of evaluation criteria, scientific substantiation of deep forced restrictions of external and internal overvoltage of electrical equipment, optimization of PL protection and substations of the system from different levels of voltage, electromagnetic interference that could cause serious accidents. Keywords: railway infrastructure, electrical power supply, electromagnetic compatibility, high-voltage electrical systems, lightning overvoltage, neutral of transformers. REFERENCES 1.Bader, M. P.Electromagnetic compatibility: Textbook [Elektromagnitnaja sovmestimost’: Uchebnik].Moscow, Transport publ., 2002, 640 p. 2.Bader, M.P., Inkov, Yu.M.Electromagnetic compatibility of traction power supply system and elements of infrastructure in areas with high speed traffic [Elektromagnitnaja sovmestimost’ sistemy tjagovogo elektrosnabzhenija i elementov infrastruktury na uchastkah s vysokoskorostnym dvizheniem].Elektrotehnika, 2014, Iss.8, pp.12-18. 3.Bader, M.P., Inkov, Yu.M.On increasing energy efficiency of converter equipment of traction substations [O povyshenii jenergeticheskoj effektivnosti preobrazovatel’nogo oborudovanija tjagovyh podstancij].Elektrichestvo, 2008, Iss.2, pp.60-65. 4.Marquardt, K. G.Electric power supply of electrified railways [Elektrosnabzhenie elektrificirovannyh zheleznyh dorog].4th ed., rev.and enl.Trans.from English.Moscow, Transport publ., 1982, 524 p. 5.Protection against short circuits feeding on «high» side of a step-down transformer from the traction network [Zashhita ot podpitki korotkih zamykanij na «vysokoj» storone ponizhajushhego transformatora so storony tjagovoj seti]/ A.Kondakov, A.Mizintsev, A.Buryanovaty, S.Rogach.RZD-Partner, 2001, Iss.3, p.111. 6.Tikhodeev, N.N., Shur, S. S.Insulation of electrical networks [Izoljacija elektricheskih setej].Leningrad, Energia publ., 1979, 304 p. 7.Rules for electrical installation [Pravila ustrojstva elektroustanovok].7th ed.Moscow, 2004, 225 p. 8.RD153-34.3-35.125-99 Manual for protection of electrical networks 6-1150 kV against lightning and internal overvoltage [RD153-34.3-35.125-99 Rukovodstva po zashhite elektricheskih setej 6-1150 kV ot grozovyh i vnutrennih perenaprjazhenij] / Ed.by N. N.Tikhodeev.2nd ed.St.Petersburg, Ministry of Energy of the Russian Federation, 1999, 205 p. 9.Instruction on grounding of power units on electrified railways [Instrukcija po zazemleniju ustrojstv elektrosnabzhenija na elektrificirovannyh zheleznyh dorogah].Moscow, Transport publ., 1997, 68 p. 10.Mamoshin, R. R.Improvement of power quality at traction substations of AC roads [Povyshenie kachestva energii na tjagovyh podstancijah dorog peremennogo toka].Moscow, Transport publ., 1973, 224 p. 11.Schwab, A. J.Electromagnetic Compatibility [Elektromagnitnaja sovmestimost’].Moscow, Energoizdat publ., 1995, 480 p. 12.Courtois, C.Bahnenergieversorgung in Frankreich.Elektrische Bahnen, 92 (1994) 6, S.167-170 und 7, S.202-205. 13.Figurnov, E. P.Relay protection [Relejnaja zashhita].Moscow, Transzheldorizdat publ., 2002, 343 p. 14.Mamoshin, R. R.Railway power supply system on AC94 / 27,5 kV with symmetrization traction loads [Sistema elektrosnabzhenija zheleznyh dorog na peremennom toke 94/27,5 kV s simmetrirovaniem tjagovyh nagruzok].Proceedings of scientific-practical conference «Electrification - basis of technical modernization of rail transport».Moscow, VNIIZhT, 2004, pp.58-60. 15.Kosarev, A. B.Basic theory of electromagnetic compatibility of AC traction power supply systems [Osnovy teorii elektromagnitnoj sovmestimosti sistem tjagovogo elektrosnabzhenija peremennogo toka].Moscow, Intekst publ., 2004, 272 p.
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5

Bressan, A., S. Carrato, C. Chatterjee, A. Cicuttin, M. L. Crespo, D. D'Ago, S. Dalla Torre, et al. "The high voltage system the novel MPGD-based photon detectors of COMPASS RICH-1 and its development towards a scalable HVPSS for MPGDs." Journal of Instrumentation 18, no. 07 (July 1, 2023): C07014. http://dx.doi.org/10.1088/1748-0221/18/07/c07014.

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Анотація:
Abstract The COMPASS RICH-1 detector underwent major upgrade in 2016 with the installation of four novel MPGD-based photon detectors. They consist of large-size hybrid MPGDs with multi-layer architecture composed of two layers of Thick-GEMs and bulk resistive Micromegas. A dedicated high voltage power supply system, realized with commercial devices, has been put in operation to protect the detectors against errors by the operator, monitor and log voltages and currents at a 1 Hz rate, and automatically react to detector misbehavior; it includes also the HV compensation for the detector gas pressure and temperature variations. The needs posed to the high voltage power supply systems by the operation of Micro Pattern Gaseous Detectors pushed the development of a novel single channel HV system able to overcome the performance of the commercial devices in terms of high-resolution diagnostic features and intelligent dynamic voltage control. In this talk the COMPASS HV system and its performance are illustrated, as well as the stability of the novel MPGD-based photon detectors during the physics data taking at COMPASS. The performance of the novel single channel power supply system when connected to a single photon Micro Pattern Gaseous Detector is presented in realistic working condition during a test beam with the preliminary results of multiple channels operation.
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6

Yi-yun, Huang, Kuang Guang-li, Xu Wei-hua, Liu Bao-hua, Lin Jian-an, Wu Jun-shuan, Zheng Guang-hua, and Yang Chun-shen. "Design and Simulation for the Pulse High-Voltage DC Power Supply (HVPS) of 1.2 MW/2.45 GHz HT-7U Lower Hybrid Current Drive System." Plasma Science and Technology 2, no. 6 (December 2000): 537–48. http://dx.doi.org/10.1088/1009-0630/2/6/006.

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7

Makov, Sergei, Boris Kudryavcev, Ilya Grinev, and Alexander Minaev. "High voltage energy efficiency power supply." E3S Web of Conferences 279 (2021): 02012. http://dx.doi.org/10.1051/e3sconf/202127902012.

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Анотація:
This article discusses the selection of operating modes for the high voltage power supply of the electrostatic dust collector. Methods of high voltage generation, voltage regulation in converters and the choice of the converter operation mode are considered.
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8

Yu, Gui Yin. "The High-Power of DC Power with Auto Tracking Power Frequency." Advanced Materials Research 383-390 (November 2011): 321–24. http://dx.doi.org/10.4028/www.scientific.net/amr.383-390.321.

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This paper analyzes the reason that the common thyristor trigger is unable to fulfill power supply in wide range changes of frequency. The high precise frequency/voltage converter is used to monitor and track frequency changes of the simultaneous power supply. The simultaneous signal and charge current source are provided by the converter for saw tooth wave trigger. The frequency of saw tooth wave changes as the same time the frequency of power supply changes in wide range. However, the amplitude of the saw tooth wave can be kept constant. This can achieve the controlled angle of the thyristor trigger does not change with the large-scale voltage frequency changes of the simultaneous power supply when the same Phase-shifted control voltage was used.
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9

Nan, Qiu, and Fan Yin Hai. "Digital Controlled High Power Mid-Frequency Pulsed Power Supply." Advanced Materials Research 108-111 (May 2010): 1332–37. http://dx.doi.org/10.4028/www.scientific.net/amr.108-111.1332.

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Анотація:
In this article a novel scheme of high power mid-frequency pulse power supply is proposed. The supply is made up of two major stages. First stage is dual interleaved buck chopper stage in order to make the DC bus and output pulse voltage controllable. Second stage is a inverter converting the DC voltage into a series of square AC voltage pulse. IGBT module(300A-1200V) is used as the main switch device for the proposed supply is a high power application. As we know large capacity power IGBT module can hardly work as high as 40Khz[1], so to solve this problem, interleaved control scheme is incorporated. Basic ideas are to share the total switching losses. To combine several converters working under certain sequence is the key point. Final output pulse frequency is 20-40Khz,voltage level is 0-800V, and pulse width is 0-90% changeable. The whole system is concise effective. Experimental results verified the feasibility of abovementioned power supply.
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10

Shao, Zhu Lei. "Research on 5V Internal Power Supply Circuit of Switching Power Supply." Applied Mechanics and Materials 571-572 (June 2014): 950–54. http://dx.doi.org/10.4028/www.scientific.net/amm.571-572.950.

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Анотація:
In order to guarantee the stability working of internal circuit of switching power supply, an internal power supply circuit with stabilization output was designed in this paper. Based on the voltage stabilization principle of zener diode, the internal power supply circuit put the high input voltage into 5v output voltage. Because of using module circuit, the circuit structure is simplified effectively. Based on 0.35um BCD technology, the internal power supply circuit was built in PSPICE. According to the experimental result, the internal power supply circuit can output stably in different input voltage and environmental temperature.
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11

Gąska, M., G. Kasprowicz, P. Linczuk, R. D. Krawczyk, A. Wojeński, W. Zabołotny, K. Poźniak, et al. "High-voltage Power Supply for GEM Detectors." Acta Physica Polonica B Proceedings Supplement 11, no. 4 (2018): 781. http://dx.doi.org/10.5506/aphyspolbsupp.11.781.

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12

Martin-Ramos, Juan A., Alberto M. Pernia, Juan Diaz, Fernando Nuno, and Juan A. Martinez. "Power Supply for a High-Voltage Application." IEEE Transactions on Power Electronics 23, no. 4 (July 2008): 1608–19. http://dx.doi.org/10.1109/tpel.2008.925153.

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13

Bose, S., S. Saha, and S. Bhattacharya. "High Voltage Power Supply for RPC detectors." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 602, no. 3 (May 2009): 842–44. http://dx.doi.org/10.1016/j.nima.2008.12.152.

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14

Su, Chi-Feng, Chih-Tung Liu, Jong-Shinn Wu, and Ming-Tzu Ho. "Development of a High-Power-Factor Power Supply for an Atmospheric-Pressure Plasma Jet." Electronics 10, no. 17 (August 31, 2021): 2119. http://dx.doi.org/10.3390/electronics10172119.

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Анотація:
This paper presents the design and implementation of a miniaturized high-voltage power supply with power factor correction (PFC) for atmospheric-pressure plasma jet (APPJ) applications. The sinusoidal output frequency and voltage of the power supply can be controlled independently from 16 to 24 kHz and from 1 to 10 kVpeak, respectively. A helium APPJ load is used to assess the performance of the developed power supply. It is shown that the developed high-voltage power supply operates effectively, and the designed PFC converter improves the input current distortion of the power supply. Not only the power factor of the power supply is increased from 0.41 to 0.95, but it also provides a low-ripple DC voltage, which reduces the high-voltage ripple of the output from 730 to 50 Vp-p. In this paper, the proposed design integrates the PFC converter into the high-voltage power supply so that the developed power supply has better electrical characteristics and the overall power supply can be significantly miniaturized.
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15

Pokryvailo, Alex, Costel Carp, and Clifford Scapellati. "A High-Power High-Voltage Power Supply for Long-Pulse Applications." IEEE Transactions on Plasma Science 38, no. 10 (October 2010): 2604–10. http://dx.doi.org/10.1109/tps.2010.2044810.

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16

Alonso, J. M., J. Cardesin, E. L. Corominas, M. Rico-Secades, and J. Garcia. "Low-Power High-Voltage High-Frequency Power Supply for Ozone Generation." IEEE Transactions on Industry Applications 40, no. 2 (March 2004): 414–21. http://dx.doi.org/10.1109/tia.2004.824498.

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17

Blanco Viejo, Cecilio, Miguel Angel Pérez García, Manuel Rico Secades, and Javier Uceda Antolín. "Improved High Voltage, High Frequency Power Supply: Design Criteria." EPE Journal 5, no. 2 (September 1995): 1–19. http://dx.doi.org/10.1080/09398368.1995.11463364.

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18

Munir, Muhammad Miftahul, Dian Ahmad Hapidin, and Khairurrijal. "Designing of a High Voltage Power Supply for Electrospinning Apparatus Using a High Voltage Flyback Transformer (HVFBT)." Applied Mechanics and Materials 771 (July 2015): 145–48. http://dx.doi.org/10.4028/www.scientific.net/amm.771.145.

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Анотація:
Research on nanofiber materials is actively done around the world today. Various types of nanofibers have been synthesized using an electrospinning technique. The most important component when synthesizing nanofibers using the electrospinning technique is a DC high voltage power supply. Some requirements must be fulfilled by the high voltage power supply, i.e., it must be adjustable and its output voltage reaches tens of kilovolts. This paper discusses the design and development of a high voltage power supply using a diode-split transformer (DST)-type high voltage flyback transformer (HVFBT). The DST HVFBT was chosen because of its simplicity, compactness, inexpensiveness, and easiness of finding it. A pulse-width modulation (PWM) circuit with controlling frequency and duty cycle was fed to the DST HVFBT. The high voltage power supply was characterized by the frequency and duty cycle dependences of its output voltage. Experimental results showed that the frequency and duty cycle affect the output voltage. The output voltage could be set from 1 to 18 kV by changing the duty cycle. Therefore, the nanofibers could be synthesized by employing the developed high voltage power supply.
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19

Shao, Zhu Lei. "Design of a High Voltage Switching Power Supply with Soft Switching Technology." Applied Mechanics and Materials 536-537 (April 2014): 1493–96. http://dx.doi.org/10.4028/www.scientific.net/amm.536-537.1493.

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Анотація:
Aiming at the application requirements of miniaturization and energy saving in the field of high voltage power supply, a high voltage switching power supply with soft switching technology was designed. The soft switch technology which makes the loss of switch power supply decrease obviously,and the dual voltage rectifier technology can effectively reduce the volume of switching power supply. Circuit parameters of switching power supply are optimized in order to further improve the efficiency of power supply. From the experiment results, the high voltage switching power supply meets the design requirements, and suitable for the strict requirements of environment on the volume and efficiency.
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20

Ram, Subhash Kumar, Brijendra Kumar Verma, Anand Abhishek, Sachin Devassy, and Sukumar Mishra. "Modular pulsed power supply for characterization of high-power microwave devices." Review of Scientific Instruments 93, no. 11 (November 1, 2022): 114713. http://dx.doi.org/10.1063/5.0095855.

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Анотація:
Developing a robust and reliable high-voltage (HV) pulse power system (PPS) is essential for the characterization and testing of microwave tubes and industrial applications. This paper presents the design, simulation, and implementation of a modular and versatile high-voltage pulse power supply used in microwave device characterization and testing. A microcontroller-based digitally controlled pulse generation unit is also developed to generate the trigger pulses for high-voltage switching modules to control the turn-ON and turn-OFF of the switching devices. The digitally controlled pulse generation unit provides better resolution of pulse width, pulse repetition frequency, and system protection over the entire range of operations. The pulse generation and control circuit controls the pulse repetition frequency (PRF) and pulse wide (PW). The PRF and PW can be varied from 100 to 1000 Hz and 10 to 100 µs, respectively. The experimental prototype with ten series-connected high-voltage modules is connected to achieve a 25 kV pulsed output voltage. The experimental results of HV-PPS on a resistive dummy load and 5 GHz klystron tube are presented in this work.
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21

Zheng, Liang, and Farzana Akter. "Power Quality Control System of High-Power-Density Switching Power Supply for Green Environment." Mathematical Problems in Engineering 2022 (September 16, 2022): 1–11. http://dx.doi.org/10.1155/2022/9692974.

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Анотація:
There is higher harmonics and electromagnetic interference caused by high-power-density switching power supply during high-frequency and normal operations which affects power quality of switching power supply and also impacts the environment. To solve this problem, this paper proposes a dual digital signal processor (DSP) controller suitable for unified power quality regulators and designs high-power-density switching power supply control system for promoting green environment. The overall structure of the system is divided into two parts, the power main circuit and the control circuit. In the main power circuit, the electromagnetic interference (EMI) filter is used to filter the input AC voltage and convert it into a stable DC voltage. A high-frequency inverter is used to invert the DC voltage into a high-frequency AC voltage to achieve harmonic control and reactive power compensation. In the control circuit, dual DSP controller is used to improve real-time detection, control of the output voltage, and current and driver temperature of the high-power-density switching power supply, while high-precision analysis and processing system collect different information and then achieve the power quality control of the switching power supply based on system software to keep this environment green. The experimental results suggest that the harmonic content of the experimental objects controlled by the system is reduced by 16.7% compared with the existing power quality control and the absolute error of the system is less than 0.02 V which improves the de-noising performance. The power generation systems require that the consumption of natural resources and renewable energy solutions can assist in saving the natural resources.
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22

Martiukhin, Ihor, and Ievgen Verbytskyi. "Trolleybus power supply system with high-voltage battery." Bulletin of the National Technical University «KhPI» Series: New solutions in modern technologies, no. 4(6) (December 30, 2020): 34–39. http://dx.doi.org/10.20998/2413-4295.2020.04.05.

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23

David, Beula, Indira Megaravalli Shankarappa, and Balaji Nerayanur. "High voltage power supply controller for Electrostatic precipitators." International Journal of Power Electronics and Drive Systems (IJPEDS) 13, no. 1 (March 1, 2022): 432. http://dx.doi.org/10.11591/ijpeds.v13.i1.pp432-443.

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Анотація:
Gaseous exhausts from various industries pollute the environment with fly-ash generally filtered by electrostatic precipitators (ESPs) before being released to the atmosphere. This paper presents the development of a controller for ESP power supply. The controller maintains the voltage applied to ESP at its maximum average value by duty cycle control that results in an improvement in dust collection-efficiency. The limiting factor for the output voltage is the breakdown of gas (spark/arc) in the electrode gap of ESP. During a spark/arc condition, the duty cycle limit imposed by the controller causes a reduction in output voltage that leads to the prevention of spark/arc. The present design has a response faster than line frequency power supply controllers. The control circuit is simpler, easy to implement and uses a standard PWM controller IC. The design of power stage uses a flyback current-fed push-pull DC-DC converter with multiple secondary circuits, which has the advantages of instantaneous current limit and less voltage stress on rectifier-diodes. Simulation is performed to obtain a 1 kV, 100 W output from a 24VDC source. The results are compared with experimental values to validate the controller’s ability to achieve good load regulation during normal operation and a reduction in output voltage during spark/arc condition.
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24

Liu, Yuan Yuan, Chang Juan Jing, Qing Xi Hu, Qing Wei Li, and Q. G. Wang. "High Voltage DC Power Supply Used in Electrospinning." Applied Mechanics and Materials 33 (October 2010): 96–100. http://dx.doi.org/10.4028/www.scientific.net/amm.33.96.

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Анотація:
Power is the direct force in the process of electrospinning, as voltage takes one of the great main roles effecting the quantity of the fiber, making a model of the generater would be in sense to control the morphology.On analysising the working principle,this paper first design a suitable high voltage dc power,and then take an exam in the Simulink environment of Matlab 2009,finally it was certified to be right comparing to the standard situation.
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25

Barsoum, Nader, and Glenn Isaiah Stanley. "Design of High Voltage Low Power Supply Device." Universal Journal of Electrical and Electronic Engineering 3, no. 1 (January 2015): 6–12. http://dx.doi.org/10.13189/ujeee.2015.030102.

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26

Kim, Jong-Hyun, Byung-Duk Min, Sergey Shenderey, and Geun-Hie Rim. "High Voltage Pulsed Power Supply Using IGBT Stacks." IEEE Transactions on Dielectrics and Electrical Insulation 14, no. 4 (August 2007): 921–26. http://dx.doi.org/10.1109/tdei.2007.4286526.

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27

Park, K. H., S. H. Jeong, D. E. Kim, and B. K. Kang. "High-resolution voltage reference for magnet power supply." Nuclear Instruments and Methods in Physics Research Section A: Accelerators, Spectrometers, Detectors and Associated Equipment 607, no. 3 (August 2009): 648–51. http://dx.doi.org/10.1016/j.nima.2009.06.054.

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28

Hwang, F., Y. Shen, and S. H. Jayaram. "Low-Ripple Compact High-Voltage DC Power Supply." IEEE Transactions on Industry Applications 42, no. 5 (September 2006): 1139–45. http://dx.doi.org/10.1109/tia.2006.880845.

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29

Liu, Yu-Hong. "Research on Producing Low-power Low-voltage DC Power Supply with High-voltage Power Bus." Energy Procedia 12 (2011): 1068–73. http://dx.doi.org/10.1016/j.egypro.2011.10.139.

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30

Han, Gu Jing, Jing Lei Deng, and Dong Xu. "Research on High Frequency and High Voltage Switching Power Supply for Electrostatic Precipitator." Applied Mechanics and Materials 241-244 (December 2012): 653–56. http://dx.doi.org/10.4028/www.scientific.net/amm.241-244.653.

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Анотація:
Electrostatic precipitator is the efficient dust removal equipment for environmental protection. As the core part, high voltage inverter power supply determines the efficiency and effect of dust removal. This paper design a high frequency and high voltage switching power supply for electrostatic precipitator based on FPGA. The power supply system is composed of rectifier and filter circuit, high frequency inverter circuit, step-up transformer and high voltage rectifier silicon reactor circuit. Using IRFP460N as power switches, single-phase full-bridge inverter was set up. The SPWM signals produced by FPGA EP2C5T144C8 were isolated and amplified through drive circuit IR2110. The function of variable frequency and voltage was realized. Hardware test showed the whole system operated safely and reliably.
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31

Phillips, Samuel R. "High-Voltage High-Power Resistive Divider for TFTR Neutral-Beam Power Supply." IEEE Transactions on Plasma Science 15, no. 4 (1987): 467–69. http://dx.doi.org/10.1109/tps.1987.4316731.

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32

Liang, Lixiao, Bo Yi, and Xing Bi Chen. "A Negative Low-Voltage Power Supply Integrated With High-Voltage Devices." IEEE Transactions on Electron Devices 65, no. 5 (May 2018): 1849–55. http://dx.doi.org/10.1109/ted.2018.2815722.

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33

Liu, Bai Fen, and Ying Gao. "Design of a High Power Programmable Intelligent Switch." Applied Mechanics and Materials 389 (August 2013): 421–24. http://dx.doi.org/10.4028/www.scientific.net/amm.389.421.

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Based on the need to develop and test the products, a single phase DSP­based programmable AC power supply is designed. The power supply is capable of providing a stable AC voltage with adjustable amplitude and frequency over a wide range. Moreover, it can generate various high quality and low frequency arbitrary waveforms. Because of the advantages above, it will have great value in practice and a promising future in testing field. The main circuit of the power supply is to use rectifier and filter to make 220V AC voltage become steady DC voltage firstly. Then the inverter and the LC LPF are employed to produce the AC voltage which is required in the test system. The key part of the inverter is phase shift full bridge.
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34

Yang, Hong, Wen Qi Huang, Zhen Fei Wang, Long Guang Chen, and Yao Yin. "High-Efficiency Solar Power Supply Design." Advanced Materials Research 605-607 (December 2012): 433–37. http://dx.doi.org/10.4028/www.scientific.net/amr.605-607.433.

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In order to improve the efficiency of solar module, we have designed the Fresnel lens concentrated system and charging system, their schematic diagrams are depicted detailed in this paper. The experimental data show that adding Fresnel lens parts can improve the solar panels' power from 130% to 200% and incident angle can affect solar panels' voltage current characteristic deeply. All of these results can give some support to design the tracking system.
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35

Yang, Jia Zhi, Fei Yang, Sheng Li Yi, Cun Bo Jiang, Xing Ming Fan, and Fan Yang. "Simulative and Experimental Research of High Isolate High Voltage Pulsed Power Supply." Applied Mechanics and Materials 321-324 (June 2013): 1429–33. http://dx.doi.org/10.4028/www.scientific.net/amm.321-324.1429.

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A high amplitude, fast rising time, and high isolating strength trigger signal is needed for triggering spark gap switch. A high voltage power supply scheme was verified by means of simulation in this paper. Proper parameters of power supply circuit were selected according to the simulation result. Finally, a pulsed power supply was developed. The experimental results show that a negative pulse with 25 kV isolating strength and 15 kV amplitude can be generated by the power supply, and this generated negative pulse can meet the demand of triggering spark gap switch.
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36

Jiang, Qiang. "The Design of 25KV High-Frequency High-Voltage Power Supply." Advanced Materials Research 912-914 (April 2014): 927–30. http://dx.doi.org/10.4028/www.scientific.net/amr.912-914.927.

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In this paper, a HV and HF switch power supply was designed, which was controlled through a single chip microcomputer, also the MOSFET was used as the switch power tube. The PWM (pulse width modulation) technique and half-bridge inverter topology have been used to invert AC into the DC that can be adjust from 0V~25KV and the operating frequency is 35KHz, Through the simulation with the Saber software and practical use, the feasibility of the scheme and the correctness of the design have been verified.
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37

Krishna, T. N. V., P. Sathishkumar, P. Himasree, Dinah Punnoose, K. V. G. Raghavendra, Himanshu, Bandari Naresh, R. A. Rana, and Hee-Je Kim. "4T Analog MOS Control-High Voltage High Frequency (HVHF) Plasma Switching Power Supply for Water Purification in Industrial Applications." Electronics 7, no. 10 (October 11, 2018): 245. http://dx.doi.org/10.3390/electronics7100245.

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High-power plasma power supply is very useful for many industrial and medical applications. Plasma is generated artificially in the laboratory or industry by applying the electric or magnetic field. In this manuscript, we presented the simple 4T analog MOS control high voltage high frequency inverter circuit as a plasma power supply using modulation index technique. The presented plasma power supply operated at 25 kHz frequency and 10 kV peak to peak voltage. It generates a 0 V to 10 kV controllable electric field. The generated electric field is applied and produces plasma, which can be used for many industrial applications. A 10 kV to 5 kW plasma power supply has been practically developed based on the proposed topology and experimentally tested and, additionally, excellent output power conversion efficiency is achieved. From these results, the 4T analog MOS control high voltage high frequency (HVHF) plasma switching power supply is verified.
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38

Tang, Xiongmin, Tianhong Jiang, and Wenrui Fang. "A unipolar compact nanosecond pulsed power supply with high power factor for dielectric barrier discharge applications." Review of Scientific Instruments 93, no. 8 (August 1, 2022): 084707. http://dx.doi.org/10.1063/5.0089020.

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A high voltage with a very short duration and fast rising time is beneficial to generate uniform and diffuse plasma in dielectric barrier discharge (DBD) loads, and a power supply with a high power factor (PF) can reduce the impact on the power grid. According to two requirements, a unipolar high voltage pulsed power supply with power factor correction (PFC) is proposed in this paper. The power supply consists of a unipolar pulse high voltage generating unit, a PFC unit, and a driving circuit. By introducing a feedback clamping diode and a reverse current blocking diode in a flyback converter, repetitive nanosecond pulses are generated in the unipolar pulse high voltage generating unit. Because a discontinuous current mode strategy is adopted in the PFC unit and the driving signal is shared by the two units, a compact structure of the power supply is achieved, and a high PF is obtained. To validate the proposed pulsed power supply, an experimental setup is built for a DBD excimer lamp. The results show that the proposed power supply has the capability of not only providing a unipolar nanosecond pulse high voltage for the DBD excimer lamp but also achieving PF close to 1 and total harmonic distortion of less than 24%.
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39

Li, Hao Hua, You Hua Wang, and Dun Yu Zhu. "Research on Harmonic Elimination of the DC Circuit." Applied Mechanics and Materials 543-547 (March 2014): 693–96. http://dx.doi.org/10.4028/www.scientific.net/amm.543-547.693.

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270V high voltage DC power supply system with grid of light weight, uninterrupted power supply and a two power density higher characteristic, in recent years become a hot research topic in domestic and international air supply system.[ To ensure the high voltage DC bus power quality, for the safe operation of the aircraft is very important. Single phase aeronautical static inverter as a typical aircraft power system load, the input current ripple of the serious pollution of the high voltage DC power supply. Therefore, the harmonic pollution problem of how to control the high voltage DC power supply system has been increasingly concerned aviation power researchers.
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40

Xu, Daiguo, Shiliu Xu, and Guangbing Chen. "High‐speed low‐power and low‐power supply voltage dynamic comparator." Electronics Letters 51, no. 23 (November 2015): 1914–16. http://dx.doi.org/10.1049/el.2015.2796.

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41

Frizen, V., A. Antipin, A. Lapin, and V. Udintsev. "High voltage electric power supply system with contactless power take-off." IOP Conference Series: Materials Science and Engineering 950 (November 7, 2020): 012034. http://dx.doi.org/10.1088/1757-899x/950/1/012034.

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42

Шешунова, Е. В., В. В. Шмигель, and А. С. Угловский. "CALCULATION OF HIGH-VOLTAGE POWER SUPPLY FOR ELECTRICAL INSTALLATIONS." Vestnik APK Verhnevolzh`ia, no. 1(57) (March 30, 2022): 77–85. http://dx.doi.org/10.35694/yarcx.2022.57.1.012.

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В данной статье была разработана структурная схема высоковольтного источника питания со вспомогательными элементами, выполнен расчёт умножителя напряжения на высоковольтных диодах. Коэффициент полезного действия выпрямителя составил 83,4%. В схеме умножения напряжения выбран газосветный трансформатор марки ТГ-1020-К-У2. Соединение трансформатора выполнено по двухтактной схеме со средней точкой регулирования, регулирующий элемент состоит из двух транзисторов – VT1 и VT2. Данная схема позволяет увеличить выходную мощность по сравнению со схемами, где использован один транзистор в качестве регулирующего. In this article, a structural diagram of a high-voltage power supply with auxiliary elements was developed, a voltage multiplier on high-voltage diodes was calculated. The conversion efficiency was 83.4%. In the voltage multiplication circuit a gas-discharge transformer of grade TG-1020-K-U2 was selected. Transformer connection is made according to push-pull circuit with a control midpoint, regulating element consists of two transistors – VT1 and VT2. This circuit allows to increase output power compared to circuits where one transistor is used as regulating one.
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43

Liu, Jianqiang, Shigeng Zhong, Jiepin Zhang, Yu Ai, Nan Zhao, and Jingxi Yang. "Auxiliary Power Supply for Medium-/High-Voltage and High-Power Solid-State Transformers." IEEE Transactions on Power Electronics 35, no. 5 (May 2020): 4791–803. http://dx.doi.org/10.1109/tpel.2019.2941528.

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44

Li, Zheng Da, and Lin Xie. "One Kind of Band-Gap Voltage Reference Source with Piecewise High-Order Temperature Compensation and Power Supply Rejection Ratio." Applied Mechanics and Materials 644-650 (September 2014): 3575–78. http://dx.doi.org/10.4028/www.scientific.net/amm.644-650.3575.

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This paper designed a new band-gap voltage reference circuit with two-stage temperature compensation.It realizes non-linear temperature compensation by using NMOS-pipe leakage current and increases the power supply rejection ratio of the band-gap voltage reference source by introducing negative feedback between the operational amplifier and the power supply. What is more, the paper simulates the band-gap voltage reference source based on CSMC 0.5μm CMOS technique. The result as follow: the band-gap voltage reference source has the temperature coefficient of 8.2ppm/oC among-40-120oC with the supply voltage of 3V, the low-frequency power supply rejection ratio is 83dBat 27oC and the power supply rejection ratio is 71dB in 1KHz, the output voltage regulation is 1.05mV/V in the supply voltage range from 2.4V to 5V.
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45

Savelyev, S. V., and L. A. Morozova. "HIGH POWER CHAOTIC OSCILLATOR." Electronic engineering Series 2 Semiconductor devices 259, no. 4 (2020): 31–36. http://dx.doi.org/10.36845/2073-8250-2020-259-4-31-36.

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The article presents a novel design of a microwave chaotic oscillator. The oscillator contains an inertial converter for the nonlinear amplifier output signal that modulates the supply voltage of the transistor. When the inertia of the converter becomes less than 0.06, the oscillator demonstrates chaotic behavior. We present an experimental model of a chaotic oscillator based on a high power transistor 2T982A-2. The inertial converter circuit contains a diode that perform half-wave conversion of a part of the output signal and a RC circuit with a time constant equal to 0.05 of the duration of an oscillation at the central frequency of the oscillator. The output signal of the inertial converter has been applied to the emitter power supply circuit of the transistor. Modulation of the supply voltage caused the output signal of the oscillator to become a sequence of non-repeating oscillation trains with a random duration and initial phase. The frequency band of the generated chaos with an uneven power spectrum of 4 dB was in a range from 3.1 to 3.3 GHz with an integrated power of 1.2 W. The averaged spectral density of noise oscillations was 6 10-3 W / MHz. Efficiency of the oscillator was 15%.
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46

Yu, Fei. "Research on Controlling Method of High-Power Electromagnetic Transmitter Power Supply." Applied Mechanics and Materials 339 (July 2013): 614–20. http://dx.doi.org/10.4028/www.scientific.net/amm.339.614.

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High-power electromagnetic transmitter power supply is an important part of deep geophysical exploration equipment, especially in complex environments, where how to control the high accuracy and stable output of the power supply as well as the redundancy safety of the system become the key issue in its designing. A triple-loop control including inner current loop, outer voltage loop and load current forward feedback and a digitalized voltage/current sharing control method are proposed for the realization of the rapid, stable and highly accurate output of the system. System simulation and field geological exploration experiments demonstrate the effectiveness of the control method which could ensure both the systems excellent stability and the outputs accuracy.
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47

SEPEHR, Amir, Mehdi SARADARZADEH, and Shahrokh FARHANGI. "High-voltage isolated multioutput power supply for multilevel converters." TURKISH JOURNAL OF ELECTRICAL ENGINEERING & COMPUTER SCIENCES 25 (2017): 3319–33. http://dx.doi.org/10.3906/elk-1604-410.

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48

Jiang, Chao. "Study on High-Voltage Power Supply of Plasma Generator." Applied Mechanics and Materials 130-134 (October 2011): 3381–85. http://dx.doi.org/10.4028/www.scientific.net/amm.130-134.3381.

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A novel Plasma generator is manufactured by Micro-hollow cathode discharge, and it will be used in industry as the contaminated gas disinfection devices. The power supply of the plasma generator is manufactured by high-frequency convertor technology with series-resonant power stage and parallel-load output. In order to improve the reliability of power supply, the mutual-lock circuit of two-switch device is designed. The effective modulation circuit is given in order to realize the many operation-modes of the plasma generator. The experimental results indicate that the power supply operates in resonant condition and realizes the zero current and zero voltage switching. The modulation circuit can adjust the operation-modes of the plasma generator, satisfying the demand of the plasma generator operation.
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49

Ding Mingjun, 丁明军, 李玺钦 Li Xiqin, 黄雷 Huang Lei, 王浩 Wang Hao, and 贾兴 Jia Xing. "100 kV repetition-rate high-voltage pulsed power supply." High Power Laser and Particle Beams 24, no. 4 (2012): 929–32. http://dx.doi.org/10.3788/hplpb20122404.0929.

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50

Li, Yan-Jie, and Yu-Xiang Chen. "Application of High-Voltage Power Supply on Electrostatic Precipitator." World Journal of Engineering and Technology 05, no. 02 (2017): 269–74. http://dx.doi.org/10.4236/wjet.2017.52021.

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