The concept of creating an electric field strength meter with the determination of the error of the measurement result and the distance to the field source

A new concept of constructing an electric field strength meter is considered. The concept lies in the fact that along with the measurement of the modulus of the electric field strength vector, the error of the measurement result and the distance to the field source are subject to simultaneous instrumental determination. The field meter is based on a new dual sensor and a method for measuring the electric field strength. The ability of the measurement method to determine the error and the distance to the field source is provided by a dual electroinduction spherical sensor. A feature of a dual sensor is the ability to simultaneously output two field strength values measured at one point, obtained with errors of different signs. This feature made it possible to obtain the measurement result as an average value and two measured values, and thereby reduce the measurement error. The presence of two simultaneously measured values of the field strength also made it possible to obtain an empirical formula for determining the relative distance to the source at each measurement point. The obtained values of the relative distances made it possible to determine the error of the measurement result and the distance from the center of the sensor to the field source using known formulas. The possibility of a field meter to simultaneously instrumentally determine the error of the measurement result and the distance to the field source is considered for the first time.

1. Korobkova V. P., Morozov Yu. A., Stolyarov M. D. [et al.]. Vozdeystviye elektricheskogo polya raspredelitel’nykh ustroystv 500 i 750 kV na obsluzhivayushchiy personal i sredstva dlya ego zashchity [Impact of the electric field of 500 and 750 kV switchgears on operating personnel and means for their protection] // Podstantsii Peremennogo Toka. AC Substations. Moscow, 1974. P. 33–43. (In Russ.).

2. Shkarina Yu. P. Vliyaniye elektroustanovok vysokogo napryazheniya na okruzhayushchuyu sredu [Impact of high voltage electrical installations on the environment]. Moscow, 1988. 104 p. (In Russ.).

3. SanPiN 2.2.4.1191-03. «Elektromagnitnyye polya v proizvodstvennykh usloviyakh» [SanPiN 2.2.4.1191-03. «Electromagnetic fields in industrial conditions»]. URL: https://musorniy.ru/wp-content/uploads/2019/01/sanpin-2.2.4.1191-03. pdf (accessed: 20.06.2023). (In Russ.).

4. Izmeritel’ blizhnego elektromagnitnogo polya ELON. [Near electromagnetic field meter ELON]. URL: https://ppxp.ru/rub/html/pribori/pkosiot/5_09/ (accessed: 15.06.2023). (In Russ.).

5. Izmeritel’ napryazhennosti elektricheskogo i magnitnogo poley promyshlennoy chastoty PZ-50 [Industrial frequency electric and magnetic field strength meter PZ-50]. URL: https://all-pribors.ru/opisanie/17638-19-p3-50/ (accessed: 15.06.2023). (In Russ.).

6. Pribor dlya izmereniya elektricheskogo polya IN•EP-50 [Electric field measuring device INEP-50]. URL: http://www.tecnoshans2006.ru/Documents/ACS/pass_INAP.DOC (accessed: 10.04.2023). (In Russ.).

7. Izmeritel’ napryazhennosti EP promyshlennoy chastoty GRADAN [Industrial frequency ED voltage meter GRADAN]. URL: https://www.korabel.ru/news/comments/izmeritel_napryazhennosti_elektricheskogo_polya_promishlennoy_chastoti_gradan_ot_kompanii_elektroenergetika.html (accessed: 04.06.2023). (In Russ.).

8. Izotropnyy izmeritel’ elektromagnitnogo polya P3-60 [Isotropic electromagnetic field meter P3-60]. URL: https://ciklon-pribor.ru/pdf/p3-60%20pasp.pdf28 (accessed: 07.07.2023). (In Russ.).

9. Izotropnyy analizator polya EFA-3 [Isotropic field analyzer EFA-3]. URL: https://elektrotanya.com/files/e_efa3.pdf (accessed: 08.07.2023). (In Russ.).

10. Portativnyy analizator elektromagnitnogo polya EFA-300 [Portable electromagnetic field analyzer EFA-300]. URL: http://alfa-test.ru/public/catalog/files/1291_efa-300_at_ru.pdf (accessed: 08.06.2023). (In Russ.).

11. Izmeritel’ elektricheskogo polya promyshlennoy chastoty BE-50 [Power frequency electric field meter BE-50]. URL: https://ntm.ru/products/44/7261 (accessed: 08.06.2023). (In Russ.).

12. Izmeritel’ parametrov elektricheskogo i magnitnogo poley VE-metr [Meter of parameters of electric and magnetic fields BE-meter]. URL: https://priborysgk.ru/upload/shop_3/2/0/9/item_209/shop_property_file_209_189.pdf (accessed: 10.07.2023). (In Russ.).

13. Yurkevich V. M., Kondrat’yev B. L. O metodike izmereniya napryazhennosti i drugikh kharakteristik elektricheskogo polya [About the technique for measuring the intensity and other characteristics of the electric field] // Izmeritel’naya Tekhnika. Izmeritel’naya Tekhnika. 1980. No. 5. P. 57–59. (In Russ.).

14. Chugunov S. A., Yurkevich V. M. Rasshireniye zony izmereniya parametrov elektricheskogo polya pri primenenii zondovogo metoda [Expanding the area for measuring electric field parameters when using the probe method] // Izmeritel’naya Tekhnika. Izmeritel’naya Tekhnika. 1981. No. 1. P. 33–35. (In Russ.).

15. Kondrat’yev B. L., Yurkevich V. M. Izmereniya v elektricheskom pole s vyravnivaniyem potentsialov [Electric field measurements with potential equalization] // Trudy Moskovskogo Energeticheskogo Instituta. Trudy Moskovskogo Energeticheskogo Instituta. 1979. Vol. 432. P. 20–22. (In Russ.).

16. Koldekott P., Devore R. V., Sebo S. A. Izmereniye elektricheskikh poley na podstantsiyakh sverkhvysokogo napryazheniya [Measuring electric fields at ultra-high voltage substations] // Elektricheskiye Stantsii Seti i Sistemy. Ekspress Informatsiya. Electric Power Stations Networks and Systems. Express Information. 1977. No. 19. P. 10–26. (In Russ.).

17. Chauzy S., Magnes P. Mise au point d`un mesureur dechamp electrique alternatif 50 Hz // Rev. gen. elec. 1988. No. 7. P. 27–38. (In Engl.).

18. Biryukov S. V. Metod izmereniya napryazhennosti elektricheskogo polya putem vyravnivaniya sostavlyayushchikh [Method for measuring electric field strength by equalizing components] // Datchiki i Preobrazovateli Informatsii Sistem Izmereniya, Kontrolya i Upravleniya (Datchik-2002). Sensors and Information Converters for Measurement, Monitoring and Control Systems (Sensor-2002). Moscow, 2002. P. 25–26. (In Russ.).

19. Biryukov S. V. Metody izmereniya napryazhennosti neodnorodnykh elektricheskikh poley vblizi istochnikov polya trekhkoordinatnymi datchikami [Methods of measuring non-uniform electric field tensity close to field sources by using three-coordinate sensors] // Izvestiya Vysshikh Uchebnykh Zavedeniy. Elektromekhanika. Izvestiya Vysshikh Uchebnykh Zavedenii. Elektromekhanika (Russian Electromechanics). 2003. No. 4. P. 22–25. EDN: HTUFYJ. (In Russ.).

20. Patent 2773868 Russian Federation, IPC G 01 R 29/08, G 01 R 29/12. Sposob izmereniya napryazhennosti elektricheskogo polya sdvoennym datchikom [A method for measuring the electric field strength with a dual sensor] // Biryukov S. V., Tyukina L. V., Tyukin A. V. No. 2021120230. (In Russ.).

21. Biryukov S. V., Tyukina L. V., Tyukin A. V. Metod izmereniya napryazhennosti neodnorodnyh elektricheskih polej po srednemu znacheniyu [Method for measuring intensity of inhomogeneous electrical fields by average value] // Omskiy Nauchnyy Vestnik. Omsk Scientific Bulletin. 2021. No. 4 (178). P. 67–74. DOI: 10.25206/1813-8225-2021-178-67-74. EDN: VISFYM. (In Russ.).

22. Patent 2774654 S1 Russian Federation, IPC G 01 R 29/12. Sposob izmereniya napryazhennosti elektricheskogo polya datchikom sdvoyennogo tipa [Method for measuring electric field strength with a dual-type sensor] // Biryukov S. V., Tyukina L. V., Tyukin A. V. No. 2021120704. (In Russ.).

23. Patent 2776097 S1 Russian Federation, IPC G 01 R 29/12. Sposob izmereniya napryazhennosti elektricheskogo polya s ispol’zovaniyem datchika sdvoyennogo tipa [Method for measuring electric field strength using a dual-type sensor] // Biryukov S. V., Tyukina L. V., Tyukin A. V. No. 2021120706. (In Russ.).

24. Patent 210806 U1 Russian Federation, IPC G 01 R 29/12. Sdvoyennyy datchik dlya izmereniya napryazhennosti elektricheskogo polya s sostavnymi chuvstvitel’nymi elementami [Dual sensor for measuring electric field strength with composite sensing elements] // Biryukov S. V., Tyukina L. V. No. 2022101437. (In Russ.).

25. Shchiglovskiy K. B., Aksel’rod V. S. Pribory dlya izmereniya parametrov elektrostati-cheskogo polya i ikh kalibrovka [Instruments for measuring electrostatic field parameters and their calibration] // Izmeritel’naya Tekhnika. Izmeritel’naya Tekhnika. 1978. No. 5. P. 63–65. (In Russ.).

26. Misakian M., Kotter F. R., Kahler R. L. Miniature ELF Electric Field Probe // Instruments for Scientific Research. 1978. Vol. 49 (7). P. 933–935. DOI: 10.1063/1.1135497. (In Engl.).