Zero phase filtering for lightning impulse evaluation: a K-factor filter for the revision of IEC60060-1 and-2
Zero phase filtering for lightning impulse evaluation: a K-factor filter for the revision of IEC60060-1 and-2
The next revision of the international standard for high voltage measurement techniques, IEC 60060-1, is planned to include a new method for evaluating the parameters associated with lightning impulse voltages. This would be a significant improvement on the loosely defined existing method which is in part reliant on operator judgment and would ensure that a single approach is adopted worldwide to determine peak voltage, front and tail times, realizing standardization in measured parameters across all laboratories. Central to the proposed method is the use of a K-factor to attenuate oscillations and overshoots that can occur with practical generation of impulse voltages for testing on high voltage equipment. It is proposed that a digital filter that matches the K-factor gain characteristic be implemented and used for this purpose. To date causal filter designs have been implemented and assessed. This paper is concerned with the potential application of a non-causal digital filter design to emulate the K-factor. The approach has several advantages; the resulting design is only second order, it can be designed without using optimisation algorithms, it is a zero phase design and it matches the K-factor almost perfectly. Parameter estimation using waveforms from the IEC 61083 -2 Test Data Generator and experimental impulse voltages has been undertaken and obtained results show that the zero phase filter is the ideal digital representation of the proposed K-factor. The effect of evaluating parameters by the proposed method is compared to mean-curve fitting and the challenge of effective front time evaluation is discussed.
3-12
Lewin, P.L.
78b4fc49-1cb3-4db9-ba90-3ae70c0f639e
Tran, T.N.
1554bb74-41c5-437f-85f9-e262160c5432
Swaffield, D.J.
d5828393-2cfb-4f1b-ace4-cd44e0ee5542
Hallstrom, J.K.
a6f4f725-ac01-4506-8ed0-44547783e781
January 2008
Lewin, P.L.
78b4fc49-1cb3-4db9-ba90-3ae70c0f639e
Tran, T.N.
1554bb74-41c5-437f-85f9-e262160c5432
Swaffield, D.J.
d5828393-2cfb-4f1b-ace4-cd44e0ee5542
Hallstrom, J.K.
a6f4f725-ac01-4506-8ed0-44547783e781
Lewin, P.L., Tran, T.N., Swaffield, D.J. and Hallstrom, J.K.
(2008)
Zero phase filtering for lightning impulse evaluation: a K-factor filter for the revision of IEC60060-1 and-2.
IEEE Transactions on Power Delivery, 23 (1), .
(doi:10.1109/TPWRD.2007.911124).
Abstract
The next revision of the international standard for high voltage measurement techniques, IEC 60060-1, is planned to include a new method for evaluating the parameters associated with lightning impulse voltages. This would be a significant improvement on the loosely defined existing method which is in part reliant on operator judgment and would ensure that a single approach is adopted worldwide to determine peak voltage, front and tail times, realizing standardization in measured parameters across all laboratories. Central to the proposed method is the use of a K-factor to attenuate oscillations and overshoots that can occur with practical generation of impulse voltages for testing on high voltage equipment. It is proposed that a digital filter that matches the K-factor gain characteristic be implemented and used for this purpose. To date causal filter designs have been implemented and assessed. This paper is concerned with the potential application of a non-causal digital filter design to emulate the K-factor. The approach has several advantages; the resulting design is only second order, it can be designed without using optimisation algorithms, it is a zero phase design and it matches the K-factor almost perfectly. Parameter estimation using waveforms from the IEC 61083 -2 Test Data Generator and experimental impulse voltages has been undertaken and obtained results show that the zero phase filter is the ideal digital representation of the proposed K-factor. The effect of evaluating parameters by the proposed method is compared to mean-curve fitting and the challenge of effective front time evaluation is discussed.
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Published date: January 2008
Organisations:
EEE
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Local EPrints ID: 263459
URI: http://eprints.soton.ac.uk/id/eprint/263459
ISSN: 0885-8977
PURE UUID: a861e070-a847-4ab9-bff1-2e3c328209f7
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Date deposited: 15 Feb 2007
Last modified: 15 Mar 2024 02:43
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Author:
P.L. Lewin
Author:
T.N. Tran
Author:
D.J. Swaffield
Author:
J.K. Hallstrom
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