Calibration of energy and power meters under non-sinusoidal conditions
Calibration of energy and power meters under non-sinusoidal conditions
- Author(s): D. Georgakopoulos and P.S. Wright
- DOI: 10.1049/ip-smt:20050098
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- Author(s): D. Georgakopoulos 1 and P.S. Wright 1
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View affiliations
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Affiliations:
1: National Physical Laboratory, Teddington, UK
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Affiliations:
1: National Physical Laboratory, Teddington, UK
- Source:
Volume 153, Issue 6,
November 2006,
p.
241 – 247
DOI: 10.1049/ip-smt:20050098 , Print ISSN 1350-2344, Online ISSN 1359-7094
Power systems contain distorted voltage and current waveforms. Currently, there is not a preferred set of voltage and current waveforms for the calibration of power and energy meters under non-sinusoidal conditions. The paper concentrates on the calibration of power and energy meters under sinusoidal and non-sinusoidal conditions. In particular, criteria for selecting voltage and current waveforms, a calibration procedure and a set of voltage and current waveforms for the calibration of power and energy meters under non-sinusoidal conditions are proposed.
Inspec keywords: power meters; power system harmonics; harmonic distortion; power system measurement; calibration
Other keywords:
Subjects: Power system measurement and metering; Power and energy measurement; Measurement standards and calibration; Power supply quality and harmonics
References
-
-
1)
- R. Sasdelli , A. Ferrero. , A. Menchetti , L. Reretto . About the accuracy of some proposed procedures for revenue metering under non-sinusoidal unbalanced conditions. ETEP , 361 - 368
-
2)
- E. Nagel . (1961) The structure of science: problems in the logic of scientific explanation.
-
3)
- S. Svensson . A wattmeter standard for the audio frequency range. IEEE Trans. Instrum. Meas. , 431 - 433
-
4)
- A. Manssor , W.M. Grady , P.T. Staats , R.S. Thallam , M.T. Doyle , M.J. Samotyj . Predicting the net harmonic currents produced by large numbers of distributed single phase computer loads. IEEE Trans. Power Deliv. , 2001 - 2006
-
5)
- P.S. Filipski , P.W. Labaj . Evaluation of reactive power meters in the presence of high harmonic distortion. IEEE Trans. Power Deliv. , 1793 - 1799
-
6)
- Tolbert, L., Holis, H. D., Hale, P.S.: ‘Evaluation of harmonic suppression devices’. IEEE IAS Annual Meeting, San Diego, CA, 6–10 Oct. 1996, pp. 2340–2346.
-
7)
- Power system harmonics: an overview. IEEE Trans. Power Appar. Syst. , 2455 - 2460
-
8)
- M. Etezadi-Amoli , T. Florence . Voltage and current harmonic content of a utility system – a summary of 1120 test measurements. IEEE Trans. Power Deliv. , 1552 - 1557
-
9)
- T.C. Shuter , H.T. Vollkommer , T.L. Kirkpatrick . Survey of harmonic levels on the American electric power distribution system. IEEE Trans. Power Deliv. , 2204 - 2210
-
10)
- G. Bucci , C. Landi . On-line digital measurement of the quality analysis of power systems under nonsinusoidal conditions. IEEE Trans. Instrum. Meas. , 853 - 857
-
11)
- A.E. Emanuel , J.A. Orr , D. Cyganski , E.M. Gulachenski . A survey of harmonic voltages and currents at the customer's bus. IEEE Trans. Power Deliv. , 411 - 421
-
12)
- R. Arseneau , P.S. Filipski . A calibration system for evaluating the performance of harmonic power analysers. IEEE Trans. Power Deliv. , 1177 - 1182
-
13)
- IEC 62052:2003: a ‘Electricity metering equipment (a.c.)-particular requirements (part 22: static meters for active energy (classes 0,2 S and 0,5 S)).
-
14)
- A. Ferrero , C. Muscas . On the selection of the “Best” test waveform for calibrating electrical instruments under nonsinusoidal conditions. IEEE Trans. Insturm. Meas. , 382 - 387
-
15)
- M.H. Rashid . (1993) Power electronics: circuits, devices and applications.
-
16)
- Tolbert, L., Holis, H.D., Hale, P.S.: ‘Survey of harmonics measurements in electrical distribution systems’. IEEE IAS Annual Meeting, 6–10 Oct. 1996, San Diego, CA, 2333–2339.
-
17)
- D. Hume . (1748) An enquiry concerning human understanding.
-
18)
- C.H. Hu , C.J. Wu , S.S. Yen , Y.W. Chen , B.A. Wu , J.S. Hwang . Survey of harmonic voltage and current at distribution substations in Northern Taiwan. IEEE Trans. Power Deliv. , 1275 - 1281
-
19)
- Turgel, R.S.: `Sampling techniques for electric power measurement', US Department of Commerce, Institute for basic standards, National Bureau of Standards, 1975.
-
20)
- I.M. Nejdawi , A.E. Emanuel , D.J. Pileggi , M.J. Corridori , R.D. Archambeault . Harmonics trend in NE USA: A preliminary survey. IEEE Trans. Power Deliv. , 4 , 1488 - 1494
-
21)
- F.J.J. Clarke , J.R. Stockton . Principles and theory of wattmeters operating on the basis of regularly spaced sample pairs. J. Phys. E: Sci. Instrum. , 645 - 652
-
22)
- Tolbert, L.M.: `Harmonic analysis of electrical distribution systems', ORNL-6887, OAK Ridge National Laboratory report, 1996.
-
23)
- IEEE Std 519-1992: IEEE recommended practices and requirements for harmonic control in electrical power systems.
-
24)
- Ihlenfeld, W.G.K.: Personal communication, 2004.
-
25)
- L.G. Durante , P.K. Ghosh . Active power measurement in nonsinusoidal environments. IEEE Trans. Power Syst. , 1142 - 1147
-
26)
- M.F. Mcgranaghan , R.C. Dugan , J.A. King , W.T. Jewell . Distribution feeder harmonic study methodology. IEEE Trans. Power Appar. Syst. , 3663 - 3670
-
27)
- E.F. Fuchs , D.J. Roesler , K.P. Kovacs . Aging of electrical appliances due to harmonics of the power system's voltage. IEEE Trans. Power Deliv. , 301 - 307
-
28)
- Georgakopoulos, D., Wright, P.S.: NPL report, 2005.
-
1)