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Title

Method to determine solar-blind ultraviolet energy and electrical corona loss relation

Journal title

Opto-Electronics Review

Yearbook

2022

Volume

30

Issue

4

Affiliation

Coetzer, Casper J. : Department of Electrical, Electronic and Computer Engineering, University of Pretoria, Hatfield 0028, South Africa ; Myburgh, Hermanus C. : Department of Electrical, Electronic and Computer Engineering, University of Pretoria, Hatfield 0028, South Africa ; West, Nicholas : Department of Electrical and Information Engineering, University of Witwatersrand, Johannesburg, Wits 2050, South Africa ; Walker, Jerry : Walmet Consultancy (Pty) Ltd, Powerville, Vereeniging 1939, South Africa

Authors

Coetzer, Casper J. ; Myburgh, Hermanus C. ; West, Nicholas ; Walker, Jerry

Keywords

AC voltage ; algorithm corona cameras ; electrical discharges ; optical energy ; radiometric measurements

Divisions of PAS

Nauki Techniczne

Coverage

e143433

Publisher

Polish Academy of Sciences (under the auspices of the Committee on Electronics and Telecommunication) and Association of Polish Electrical Engineers in cooperation with Military University of Technology

Bibliography

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  2. Lindner, M., Elstein, S., Lindner, P., Topaz, J. M. & Phillips, A. J. Daylight Corona Discharge Imager. in 1999 Eleventh International Symposium on High Voltage Engineering 4, 340–352 (IEEE, 1999). https://doi.org/1049/cp:19990864
  3. Bass, M. et al. Handbook of optics, Volume II: Design, fabrication and testing, sources and detectors, radiometry and photometry, (McGraw-Hill, Inc., 2009).
  4. Coetzer, C. et al. Status Quo and Aspects to Consider with Ultraviolet Optical versus High Voltage Energy Relation Investigations. in Fifth Conference on Sensors, MEMS, and Electro-Optic Systems 11043, 1104317 (SPIE, 2019). https://doi.org/10.1117/12.2501251
  5. Coetzer, C. J. & West, N. Radiometric calibration and measurement algorithm for electrical inspection solar-blind ultraviolet cameras. Opto-Electron. Rev. 30, e140128 (2022). https://doi.org/24425/opelre.2022.140128
  6. Suhling, K., Airey, R. W. & Morgan, B. L. Optimisation of centroiding algorithms for photon event counting imaging. Instrum. Methods Phys. Res. A. 437, 393–418 (1999). https://doi.org/10.1016/S0168-9002(99)00770-6
  7. Boksenberg, A., Coleman, C., Fordham, J. & Shortridge, K. Interpolative centroiding in CCD-based image photon counting systems. Electron. Electron. Phys. 64, 33–47 (1986). https://doi.org/10.1016/S0065-2539(08)61601-7
  8. Coetzer, C.,Vermrulen, H. J. & Herbst, B. M. Aspects that need to be considered for the calibration of ultraviolet solar-blind cameras used for electrical inspection. in International Conference Insulator News & Market Report (INMR)273–301 (2013).
  9. Coetzer, C., Groenewald, S. & Leuschner, W. An analysis of the method for determining the lowest sensitivity of solarblind ultraviolet corona cameras. in 2020 International SAUPEC/Rob-Mech/PRASA Conference 1–6 (IEEE, 2020). https://doi.org/10.1109/SAUPEC/RobMech/PRASA48453.2020.9040997
  10. Fordham, J., Moorhead, C. & Galbraith, R. Dynamic-range limitations of intensified CCD photon-counting detectors. Not. R. Astron. Soc. 312, 83–88 (2000). https://doi.org/10.1046/j.1365-8711.2000.03155.x
  11. Bergamini, P. et al. Performance evaluation of a photon-counting intensified CCD. in EUV, X-Ray, and Gamma-Ray Instrumentation for Astronomy VIII 3114, 250–259 (SPIE, 1997). https://doi.org/10.1117/12.283773
  12. Chunyan, Z. et al. Study on application of ultra-violet instrument in external insulation detection of electric device. in 2008 International Conference on High Voltage Engineering and Application 391–393 (IEEE, 2008). https://doi.org/10.1109/ICHVE.2008.4773955
  13. Zhuansun, X. et al. The impact of negative DC corona discharge on the ultraviolet photon count in rod to plane air gaps. in 2015 IEEE Con-ference on Electrical Insulation and Dielectric Phenomena (CEIDP) 362–365 (IEEE, 2015). https://doi.org/10.1109/CEIDP.2015.7352091
  14. Jang, J.-S. R. Fuzzy modeling using generalized neural networks and kalman filter algorithm. in AAAI 91, 762–767 (1991).
  15. Wang, S., Lv, F. & Liu, Y. Estimation of discharge magnitude of composite insulator surface corona discharge based on ultraviolet imaging method. IEEE Trans. Dielectr. Electr. Insul. 21, 1697–1704 (2014). https://doi.org/10.1109/TDEI.2014.004358
  16. Maistry, N., Schutz, R. A. & Cox, E. The quantification of corona discharges on high voltage electrical equipment in the UV spectrum using a corona camera. in 2018 International Conference on Diag-nostics in Electrical Engineering (Diagnostika) 1–4 (IEEE, 2018). https://doi.org/10.1109/DIAGNOSTIKA.2018.8526024
  17. Li, Z. et al. Effects of different factors on electrical equipment UV corona discharge detection. Energies 9, 369 (2016). https://doi.org/10.3390/en9050369
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  20. Coetzer, C., Becker, T., West, N. & Leuschner, W. Investigating an alternate detector for solar-blind ultraviolet cameras for high-voltage inspection. in 2021 Southern African Universities Power Engineering Conference/Robotics and Mechatronics/Pattern Reco-gnition Association of South Africa (SAUPEC/RobMech/PRASA) 1–6 (IEEE, 2021) . https://doi.org/10.1109/SAUPEC/RobMech/PRASA52254.2021.9377216
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Date

02.12.2022

Type

Article

Identifier

DOI: 10.24425/opelre.2022.143433
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