Electrostatic Discharges Between Charged Insulators and Grounded Spheres
Electrostatic Discharges Between Charged Insulators and Grounded Spheres
A commercially available electrostatic field solver enables the accurate calculation of the field distribution existing within the air gap between a charged insulating sheet with a grounded backing and a grounded conducting sphere. These data are input to a computer program which uses a breakdown criterion to determine if the field conditions are sufficient to initiate a discharge between the sphere and the insulator. The program decreases the sphere-to-insulator separation until the breakdown strength of the gap is exceeded. The paper presents results for a range of sphere sizes approaching insulators of different thickness. In addition to this, experimental data on the charge transferred by discharge are discussed in terms of the simulated breakdown field strengths. The reported data should be of interest in some specialist areas of electrostatic technologies such as the manufacture and processing of insulating film and sheet.
Electrostatic discharge, Breakdown field, Charged insulator, Discharge gap.
29-42
Davidson, J L
4d0cf22b-2555-4536-9128-14a3bbb61919
Williams, T J
fb08e360-c70e-4ff1-b27f-d25f18a3e07c
Bailey, A G
4d3e6ad9-acd7-495f-8a49-c77c9e20df5a
Jones, T B
01f2ea76-af33-40e9-952b-1585899ce297
September 2002
Davidson, J L
4d0cf22b-2555-4536-9128-14a3bbb61919
Williams, T J
fb08e360-c70e-4ff1-b27f-d25f18a3e07c
Bailey, A G
4d3e6ad9-acd7-495f-8a49-c77c9e20df5a
Jones, T B
01f2ea76-af33-40e9-952b-1585899ce297
Davidson, J L, Williams, T J and Bailey, A G
,
Jones, T B
(ed.)
(2002)
Electrostatic Discharges Between Charged Insulators and Grounded Spheres.
Journal of Electrostatics, 56 (1), .
(doi:10.1016/S0304-3886(01)00202-9).
Abstract
A commercially available electrostatic field solver enables the accurate calculation of the field distribution existing within the air gap between a charged insulating sheet with a grounded backing and a grounded conducting sphere. These data are input to a computer program which uses a breakdown criterion to determine if the field conditions are sufficient to initiate a discharge between the sphere and the insulator. The program decreases the sphere-to-insulator separation until the breakdown strength of the gap is exceeded. The paper presents results for a range of sphere sizes approaching insulators of different thickness. In addition to this, experimental data on the charge transferred by discharge are discussed in terms of the simulated breakdown field strengths. The reported data should be of interest in some specialist areas of electrostatic technologies such as the manufacture and processing of insulating film and sheet.
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More information
Published date: September 2002
Keywords:
Electrostatic discharge, Breakdown field, Charged insulator, Discharge gap.
Organisations:
Electronics & Computer Science
Identifiers
Local EPrints ID: 258322
URI: http://eprints.soton.ac.uk/id/eprint/258322
ISSN: 0304-3886
PURE UUID: da7d86de-fdb4-4737-8618-a00d8d8b8a13
Catalogue record
Date deposited: 08 Oct 2003
Last modified: 14 Mar 2024 06:07
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Contributors
Author:
J L Davidson
Author:
T J Williams
Author:
A G Bailey
Editor:
T B Jones
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