Space Charge Behavior in Ethylene Propylene Rubber Under a 50-Hz AC Electric Field

Dai, Chao; Yin, Yi; Zhou, Guiyue; Miao, Linxin; Wu, Jiandong

doi:10.1109/access.2019.2955167

Cited by 4 publications

(4 citation statements)

References 21 publications

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“…It can be seen that the electric field in the material is significantly distorted, where the field inside the sample is enhanced and the field near the electrode is weakened. The distortion rate δ of electric field is applied to characterize the changing of electric field as follows [21]:

δ_{bulk} = \frac{E_{\max} - E_{av}}{E_{av}} δ_{el} = \frac{E_{av} - E_{\min}}{E_{av}} .

where the E max is the maximum value of electric field inside the sample, E min is the minimum value of electric field near the electrode and E av is the ideal average electric field. Due to the significant injection of electron in cathode, the δ el near cathode and δ bulk inside the material are shown in Table 1.…”

Section: Resultsmentioning

confidence: 99%

Section: Space Charge and Electric Field Distributionmentioning

confidence: 99%

“…Based on the results in Figure 9, the dependence of charge mobility on electric field is applied in the simulation, and the corresponding diffusion coefficient of charge is also calculated through Equation (21).…”

Section: Simulation Of Space Charge Based On the Mobility-limited Cha...mentioning

confidence: 99%

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Mobility‐limited charge injection in cross‐linked polyethylene under extra high electric field

et al. 2020

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In this study, characteristics of charge injection under extra high electric field (above 100 kV/mm) in cross-linked polyethylene (XLPE) were investigated by experiments of conduction current and space charge. The results show that current density from low electric field to sample breakdown corresponds to space charge limited current (SCLC) theory. More specifically, Schottky current is similar to experiment current before 100 kV/mm, while the J-E curve conforms to a modified SCLC theory after 100 kV/mm. Besides, the non-linear coefficient of J-E curve from 100 kV/mm to extra high electric field is smaller than theoretical value, and the injection depth of space charge is restricted as the field becomes higher than 100 kV/mm, which may be caused by the negative differential mobility of charge. Driven by extra high electric field, charge collides with lattice of dielectric and scatters. As a result, mean free time of charge decreases and charge mobility is reduced with the increased field. Consequently, considering the decrease in charge mobility, a mobility-limited charge injection equation is proposed, and the validity of the proposed equation under extra high electric field is demonstrated by space charge simulation. This is an open access article under the terms of the Creative Commons Attribution-NonCommercial License, which permits use, distribution and reproduction in any medium, provided the original work is properly cited and is not used for commercial purposes.

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δ_{bulk} = \frac{E_{\max} - E_{av}}{E_{av}} δ_{el} = \frac{E_{av} - E_{\min}}{E_{av}} .

Section: Resultsmentioning

confidence: 99%

Section: Space Charge and Electric Field Distributionmentioning

confidence: 99%

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Mobility‐limited charge injection in cross‐linked polyethylene under extra high electric field

et al. 2020

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“…It has been widely utilized in the traditional measurement environments including DC and AC voltages within power frequency. For the researches on the same insulating material, it has been found that different voltage conditions can lead to different charge accumulation phenomena [13,14]. Moreover, since the injection barriers and the mobilities of electrons and holes from the electrodes are different, the polarity of applied voltages can also affect the charge distributions inside the same samples [15].…”

Section: Introductionmentioning

confidence: 99%

Research on the Effect of Unipolar Pulse Wave Voltage on Space Charge Characteristics for High-Frequency Equipment Insulation

Ren

Tanaka

Miyake

et al. 2021

IEEE Trans. Dielect. Electr. Insul.

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This paper reports the effect of DC and pulse wave voltages on space charge characteristics of polyimide material for high-frequency insulation. The pulsed electroacoustic method is used to measure the charge distribution inside the material under the pulse wave voltages with different amplitudes, polarities, frequencies and duty ratios. Comparative results show that positive charge is more likely to accumulate inside the polyimide. The amount of accumulated charge under pulse wave voltages is larger than that under DC voltages. With frequency, more space charge is accumulated under negative pulse wave voltages with a frequency above 50 Hz, while it is not larger than 100 Hz under positive voltages. The maximum distortion of electric field appears under the negative pulse wave voltage with the frequency of 500 Hz, which is 1.19 times the applied field strength. When the duty ratio of the pulse wave voltage exceeds 50%, the distribution of accumulated charge tends to be stable. The research results can provide a reference for the practical application and modification design of polyimide materials in power electronic equipment.

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The Influence of Thermal Aging on Space Charge Distribution in Oil-impregnated Paper under AC Field

Zhou

Yin

et al. 2021

2021 International Conference on Electrical Materials and Power Equipment (ICEMPE)

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Space Charge Behavior in Ethylene Propylene Rubber Under a 50-Hz AC Electric Field

Cited by 4 publications

References 21 publications

Mobility‐limited charge injection in cross‐linked polyethylene under extra high electric field

Mobility‐limited charge injection in cross‐linked polyethylene under extra high electric field

Research on the Effect of Unipolar Pulse Wave Voltage on Space Charge Characteristics for High-Frequency Equipment Insulation

The Influence of Thermal Aging on Space Charge Distribution in Oil-impregnated Paper under AC Field

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