High-precision measurement equipment for EMC antenna calibration
- Autores: Shkurkin M.S.1
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Afiliações:
- Russian Metrological Institute of Technical Physics and Radio Engineering
- Edição: Volume 74, Nº 1 (2025)
- Páginas: 35-42
- Seção: ON THE 70TH ANNIVERSARY OF VNIIFTRI
- URL: https://journal-vniispk.ru/0368-1025/article/view/327996
- ID: 327996
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Resumo
The article formulates the problems of antenna calibration used for testing for electromagnetic compatibility.It is noted that the apparatus and calibration methods of test antennas existing in the Russian Federation do not allow for an effective achievement of EMC test goals, primarily due to high uncertainties of their antenna factor. To achieve the required accuracy of measurements of antenna characteristics and, as a result, electromagnetic compatibility parameters a High-precision measurement equipment for EMC antenna calibration are presented. The application of this equipment allows not only to carry out high-precision measurements of the characteristics of radiated industrial radio interference, but also to implement three classical methods of antenna measurements over a metal ground plane in a large semi-anechoic shielded chamber, as well as a method of measurements at close distances. Based on these methods, algorithms and methods for measuring the characteristics of antennas and antenna calibration test sites have been developed. The main results of the development are presented, including the results of experimental studies of the functionality and metrological characteristics of the measurement system using the example of precision resonant dipoles. The results obtained will be used to create the technical basis for a system to ensure the uniformity of measurements of the characteristics of antennas used for electromagnetic compatibility tests. The developed large polygonal semi-anechoic chamber can be considered as a reference test site of the Russian Federation and in the CIS countries, including during interlaboratory comparison tests.
Sobre autores
M. Shkurkin
Russian Metrological Institute of Technical Physics and Radio Engineering
Email: shkurkin@vniiftri.ru
Bibliografia
Малай И. М., Титаренко А. В., Шкуркин М. С. Современное состояние и перспективы развития эталонной базы в области антенных измерений СВЧ-диапазона. Материалы научно-технической конференции «Метрология в радиоэлектронике». Т. 1. Менделеево, ВНИИФТРИ, С. 111–116 (2018). https://elibrary.ru/xvntel Тищенко В. А., Лукьянов В. И. Методы определения коэффициента калибровки измерительных антенн. Альманах современной метрологии, (2(30)), 45–55 (2022). https://elibrary.ru/ingqhf Анютин Н. В., Логутов Д. В. Результаты электродинамического расчета полубезэховой камеры для испытаний на электромагнитную совместимость. Материалы X научно-практической конференции «Метрология в XXI веке», ВНИИФТРИ, Менделеево, 24 марта 2022. С. 10–16 (2023). Smith A. A. Jr. Standart-site method for determining antenna factors. IEEE Transactions on Electromagnetic Compatibility, EMC-24(3), 316–322 (1982). https://ieeexplore.ieee.org/document/4091565 Smith A. A., Jr., German R. F., Pate J. B. Calculation of site attenuation from antenna factors. IEEE Transactions on Electromagnetic Compatibility. EMC-24(3), 301–316 (1982). https://ieeexplore.ieee.org/document/4091564 Donglin Meng. A fast way to accurately calibrate tunable dipole antennas at VHF. IEEE Transactions on Electromagnetic Compatibility, 60(1), 86–95 (2018). https://ieeexplore.ieee.org/document/7940008 Sugiura A. Formulation of normalized site attenuation in terms of antenna impedances. IEEE Transactions on Electromagnetic Compatibility, EMC-32(4), 257–263 (1990). https://ieeexplore.ieee.org/document/59884 Molina-Lopez V., Botello-Perez M., Garcia-Ruiz I. Validation of the open-area antenna calibration site at CENAM. IEEE Transactions on Electromagnetic Compatibility, 58(4), 1126–1134 (2008). https://ieeexplore.ieee.org/document/4731839 Leal U., Myriam A. Characterization of the antenna calibration test site (CALTS) of the National Center for Metrology (CENAM) of Mexico. Chalmers University of Technology (2013). https://hdl.handle.net/20.500.12380/175778 Alexander M., Sugiura A. CISPR standard for calibration of EMC antennas. 2010 Asia-Pacific International Symposium on Electromagnetic Compatibility, 12–16 April 2010, Beijing, China, 786–789 (2010). https://ieeexplore.ieee.org/document/5475829 Шкуркин М. С. Средства и методы оценки соответствия измерительных площадок для испытаний автомобиль ных компонентов по CISPR 25. Альманах современной метрологии, (1(37)), 102–110 (2024). https://elibrary.ru/rllpas Kleine-Ostmann T., Huncke F., Schwarzbeck D. et al. Results of an intercomparison for free space antenna factor measurements within the German Calibration Service (DKD). Advances in Radio Science, 14, 11–16 (2016). https://doi.org/10.5194/ars-14-11-2016
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