Your search keyword '"Ding, Weidong"' showing total 9 results

1. Influence factors and improvement scheme on the breakdown behavior of pseudospark switch.

Author

Yuan, Qi, Sun, Guoxiang, Xue, Haorui, Ding, Weidong, Nie, Shaohao, and Yu, Kunhao

Subjects

PULSE generators, CATHODES, STANDARD deviations, ANODES, VOLTAGE

Abstract

High-power pulse generators are widely used in civil and military fields. The main switch directly determines the output characteristics of the high-power pulse generators, such as the voltage front time (t f). Pseudospark switches (PSS) show a promising future for middle voltage, high repetitive frequency pulse power applications. However, how to further improve the breakdown behavior without reducing its advantages is a challenging task. In this paper, the influence of operating parameters (anode voltage U A and gas pressure p) and structural parameter (number of cathode holes) on the breakdown behavior are investigated, the related mechanism are explained, and specific improvement schemes are proposed. It is found that the t f of the single channel PSS (SCPSS) decreased significantly with increasing p, but hardly varied with U A under moderate p. However, it is not a sound solution to increase the p excessively to reduce t f. Besides, increasing the number of cathode holes can obtain a shorter t f at low pressures (which implies superior repetition frequency performance). However, at 25 Pa, the jitter (which is defined as the standard deviation of t f in multiple tests) of the 2-channel PSS is larger than that of the SCPSS. And the jitter of the 4-channel and 8-channel PSS is also greater than 6 ns and 2 ns, respectively. Through experimental and simulation analyses, it can be explained as the stepwise penetration of the virtual anode and the non-simultaneous ignition of the channels. A scheme to increase the trigger energy (ϵ) has been adopted to improve the simultaneous ignition probability, while shortening t f and reducing jitter. After optimization, the good ignition probability of the 4-channel PSS has been improved to 82% and the jitter has been reduced to less than 1 ns at 25 Pa and 14.7 mJ. [ABSTRACT FROM AUTHOR]

Published

2024

2. Developing characteristics of the positive streamer in water with microsecond pulse voltage.

Author

Wang, Yongsheng, Meng, Yang, Jin, Wenyong, Peng, Mingbin, and Ding, Weidong

Subjects

VOLTAGE, ELECTRON density, FINITE element method

Abstract

Underwater discharge is the typical method used to generate plasma in a liquid phase environment and is employed in many engineering applications. This study analyzes the formation and development process of the positive streamer in water under microsecond voltage. The effects of voltage amplitude, liquid conductivity, and the presence of bubbles on the underwater discharge characteristics are analyzed by establishing a two-dimensional finite element simulation model of a needle-plate gap. The simulation results show that the electron density of the streamer in water can reach 1023 m−3, and as the applied voltage amplitude increases, the development speed of the streamer increases and the head of the stream bifurcates. Moreover, when the conductivity of the water is high, the development speed of the streamer and the density of charged particles increase. Furthermore, the presence of bubbles significantly impacts the development of the discharge morphology, causing the channel to have multiple bifurcations. [ABSTRACT FROM AUTHOR]

Published

2023

3. Development of the Step Pulse Generator for Calibrating the Very Fast Transient Voltage Measuring System.

Author

Ding, Weidong, Wang, Jiachen, Wan, Zhenbo, Su, Fangfei, Mei, Kaisheng, and Qiu, Yuchang

Subjects

*PULSE generators, *VOLTAGE, *ELECTRIC lines

Abstract

To calibrate non-contact sensors with fast response and high scale factor, it is critical to develop step pulse generators capable of generating standard high voltage step pulses and accurately measuring the generated waveform. In this paper, two types of step pulse generators are designed with output voltages of 2 kV and 100 kV. The 2 kV step pulse generator can generate a step pulse with a rise time of ∼300 ps and an adjustable pulse width. A step pulse with a rise time less than 5 ns and a pulse width over 1 μs can be generated with the 100 kV step pulse generator. The uncertainty of 2 kV step pulse generator is then analyzed by simulations and experiments. Finally, a performance comparison with step pulse generators in previous studies is carried out. Bandwidth, linearity and repeatability of the sensors can be verified with the designed two step pulse generators. [ABSTRACT FROM AUTHOR]

Published

2022

4. Surface Flashover Characteristics of Cylindrical Insulator in C 4 F 7 N/CO 2 Mixture Under Switching Impulse Voltage.

Author

Meng, Yang, Ding, Weidong, Li, Zhichuang, Zheng, Zhongbo, Xue, Haorui, and Liu, Wen

Subjects

*FLASHOVER, *CARBON dioxide, *VOLTAGE, *DIELECTRIC strength, *MOLE fraction, *SULFUR hexafluoride, *ELECTRIC insulators & insulation

Abstract

C4F7N/CO2 mixture has been widely studied as an environmental-friendly insulating gas expected to replace sulfur hexafluoride (SF6) in high-voltage equipment. In high-voltage power systems, the medium dielectric characteristics under switching impulse (SI) voltage are an important factor in insulation coordination. Nevertheless, few studies on this aspect of C4F7N/CO2 mixture have been reported. This article investigates the surface flashover of a cylindrical insulator in a C4F7N/CO2 mixture under switching voltage. The effects of molar fraction, gas pressure, creepage distance, and insulator materials on surface flashover voltage are studied in a uniform field. The result shows that the increase of flashover voltage indicates a saturation trend with the increase of C4F7N molar fraction and pressure, respectively. The dielectric strength of 13% C4F7N/87% CO2 relative to SF6 can reach at least 84%. The limiting factors of the flashover voltage increase under high pressure are preliminarily discussed. Additionally, the empirical formula on the critical flashover electrical field has been obtained, which can provide a reference for insulation design for environment-friendly gas insulation equipment. [ABSTRACT FROM AUTHOR]

Published

2022

5. Influences of gas pressure and applied voltage on electron beam generated by triggered pseudospark discharge.

Author

Shen, Saikang, Yan, Jiaqi, Sun, Guoxiang, and Ding, Weidong

Subjects

ELECTRON beams, ELECTRON scattering, VOLTAGE, MICROWAVE materials, DISCHARGE coefficient, WORKING gases

Abstract

Used widely in microwave devices and material processing, triggered pseudospark discharge can generate an electron beam, the adjustability of which is affected greatly by the working gas pressure and the applied voltage of the pseudospark discharge. This paper reports the development of an electron-beam source based on a single-gap triggered pseudospark discharge device. Its working performance, as measured by the peak beam current, charge quantity, and pulse width, was studied experimentally, and the results showed that the peak beam current increased initially and then decreased with increasing gas pressure. This was because the beam current was limited by the low plasma density at low pressures, while the electron scattering and ion neutralization during drift decreased the beam current at high pressures. The pulse width of the beam current was consistent with that of the loop current and was determined by the damping coefficient of the discharge circuit. With increasing gas pressure, the pulse width decreased gradually. When the gas pressure was constant, the peak beam current increased significantly with increasing applied voltage because of the enhanced electron-emission current and weakened electron scattering. The charge quantity of the beam current also increased with increasing applied voltage, but the pulse width decreased slightly. Based on the above results, this paper also reports qualitative analysis of the change of the discharge process corresponding to the variation of the electron-beam parameters with gas pressure and applied voltage. [ABSTRACT FROM AUTHOR]

Published

2022

6. All-solid-state bipolar pulsed generator based on linear transformer driver and push–pull circuit.

Author

Sun, Guoxiang, Wang, Xia, Shen, Saikang, Li, Lanxi, Shang, Tianyi, and Ding, Weidong

Subjects

LINE drivers (Integrated circuits), PULSE generators, ELECTROPORATION, VOLTAGE

Abstract

All-solid-state linear transformer drivers (LTDs) are widely used in high-voltage repetitive nanosecond-pulsed generators, and only a few LTD generators can output bipolar rectangular waves currently. Furthermore, owing to the large reverse overshoot when the output pulse width is long, fewer LTD generators can achieve a rectangular wave output with a microsecond pulse width. In this study, a bipolar LTD circuit topology based on a push–pull circuit is proposed for irreversible electroporation. In this topology, a single-stage LTD module has four push–pull branches in its primary winding to achieve a bipolar output and a short-circuited winding with two resistor–capacitor–diode snubbers to suppress forward/reverse overshoot. A single-stage LTD module and a 12-stage LTD have been tested, and the results show that they can output bipolar rectangular pulses with variable parameters. When the output pulse width is 100 ns to 1 µs, the maximum output voltage amplitude is 5.74 kV, the rise time is 29.1 ns, and the reverse overshoot at 1 µs is 2.9%. When the output pulse width is 1–8 µs, the maximum output voltage amplitude is 2.93 kV, the rise time is 24.3 ns, and the reverse overshoot at 8 µs is 11.3%. [ABSTRACT FROM AUTHOR]

Published

2021

7. Study of the characteristic differences of positive and negative half-cycles from atmospheric pressure glow discharge driven by resonant AC voltage.

Author

Wang, Yongsheng, Liu, Wen, and Ding, Weidong

Subjects

GLOW discharges, ATMOSPHERIC pressure, POWER resources, VOLTAGE, PLASMA electrodes, SUPPLY & demand

Abstract

There are many advantages in obtaining low-temperature plasmas that are rich in active particles by atmospheric pressure glow discharge, so there has been a lot of research on the acquisition method and application of it. However, there is a lack of knowledge about the mechanism of atmospheric pressure glow discharge driven by an AC resonant power supply. In this paper, we describe our study of the characteristic differences between half-cycle positive and negative atmospheric pressure glow discharges driven in open air by an AC resonant power supply, and we describe our analysis of the associated physical mechanism. The comparison and analysis of experimental results indicate that both positive-cycle and negative-cycle discharges led to typical glow discharge and no streamer discharge appeared in the discharge process. There were still charged particles in the discharge channel when the discharge current was zero. With increasing amplitude of the output voltage of the power supply, the glow area near the electrode surface and the plasma distribution area in the discharge channel increased. When the output voltage of the power supply was low, the negative polarity discharge was more likely to form in the gap of the pin-to-plate electrode. In the AC discharge process, the α-mode discharge was dominant, and the developing speed of the positive-cycle discharge was faster than that of the negative-cycle discharge. The polarity effect became less obvious with the increase in the output voltage amplitude of the power supply. [ABSTRACT FROM AUTHOR]

Published

2021

8. High voltage nanosecond pulse generator based on avalanche transistor Marx bank circuit and linear transformer driver.

Author

Deng, Zichen, Yuan, Qi, Shen, Saikang, Yan, Jiaqi, Wang, Yanan, and Ding, Weidong

Subjects

PULSE generators, MODULAR construction, STRESS concentration, ELECTRIC capacity, VOLTAGE, HIGH voltages

Abstract

Avalanche transistor Marx bank circuits (MBCs) are widely used in high voltage repetitive nanosecond pulse generators, but problems exist with respect to increasing the output voltage due to the limited pulsed current. Accordingly, a novel topology based on an avalanche transistor MBC combined with a linear transformer driver is proposed, the latter of which exhibits advantageous stress distribution and modular structure. A four-module prototype with four units in each module is developed in the laboratory. The output characteristics are investigated by varying important parameters such as the main capacitance, the number of conducting units, the number of cascaded modules, and the trigger signal time delay. The test results verify the validity of the proposed topology. For a 50 Ω resistive load, the prototype can generate pulses with an amplitude of 10.9 kV, a rise time of 3.3 ns, and a voltage superposition efficiency of 89%. The topology proposed in this paper may help to provide a method to further improve the output performance of avalanche transistor MBCs. [ABSTRACT FROM AUTHOR]

Published

2021

9. Decomposition characteristics of SF6 under partial discharges with point-to-plane electrode defect

Author

Ding Weidong, Ren Xiang, Zhou Wenwu, Fan Chuan, Song Gao, Li Guojun, and Duan Wei

Subjects

Yield (engineering), Chemistry, Partial discharge, Electrode, Analytical chemistry, Humidity, Electrical and Electronic Engineering, Curvature, Decomposition, Switchgear, Voltage

Abstract

Field experience shows that the long-term existence of the partial discharge (PD) in gas-insulated switchgear (GIS) will gradually erode the insulation and ultimately cause disastrous insulation breakdown. The decomposition compound analysis of SF6 in GIS is an effective method to diagnose the PDs caused by insulation defects. It is significant to clarify the decomposition characteristics of SF6 under PDs, which is common in GIS. In this paper the discharge energy/charge and SF6 decomposition under PDs with point-to-plane electrode defect were investigated under different factors such as needle curvature, applied voltage, gas pressure and moisture content (adsorbent). And the feature extraction of SF6 decomposition under PDs was also discussed. The results show that the yields of SOF2, SO2F2 and SO2 tend to increase approximately linearly with the accumulation of PD energy. In addition, the needle curvature and applied voltage have a great influence on the discharge energy/charge and the yield of SOF2/SO2F2. Also, the adsorbents composed of KDHF-03 or F-03 have a certain effect on the discharge energy. Besides, the discharge energy and charge tend to decrease with the increased moisture content, and the yields of SOF2, SO2F2 and SO2 are affected by the humidity (250 μL/L - 2500 μL/L) observably.

Published

2013