Abstract
Inductance measurements is important for all branches of technology related to the application of electricity: energy and electronics, radio and television, transport and communication, and scientific research. Electromechanical devices and electronic components can be characterized using impedance measurements to identify the parameters of their equivalent electrical model. New inductance measurement methods are being developed in specific fields of activity. Manufacturers of standards and measuring instruments of inductance develop special handbooks outlining various methods of inductance measurement. The State Primary Standard of Ukraine for inductance and loss angle tangent reproduces and transmits a unit of inductance in the range from 1∙10-6 H to 10 H at a frequency of 1 kHz. It is keeping in the SE “Ukrmetrteststandard” and participated in several comparisons of national standards within the framework of the activities of regional metrological organizations. The calibration and measurement capabilities of inductance measurement of national laboratories of different countries were studied to analyze and compare the capabilities of the national standard with the standards of other countries. Long-term instability studies of inductance measures of 1 mH, 10 mH and 100 mH, which are part of the national standard unit of inductance, have been conducted. The research period covered from 2009 to 2022. It was established that the drift lines of the specified inductance measures can be described using linear approximations. The rationale for choosing inductance measures of 10 mH and 100 mH for their use as transmission standards in the calibration of standards, which were organized and conducted by SE “Ukrmetrteststandard” as their pilot laboratory, is given.
Publisher
Lviv Polytechnic National University
Subject
Industrial and Manufacturing Engineering,Metals and Alloys,Strategy and Management,Mechanical Engineering
Reference33 articles.
1. [1] L. Callegaro, "Electrical Impedance: Principle, measurement, and applications", UK: CRC Press, 2012, 302 p. https://www.engineerrefe.com/wp-content/uploads/2021/07/Electrical-Imped....
2. [2] M. Sarul et al., "Measurement of the inductance of a coil with core at different currents by a dc chopper," Electrical Engineering, 82, 2000, 273-277. DOI: 10.1007/s002020000036.
3. [3] Han, X. et al., "Precise Measurement of the Inductance and Resistance of a Pulsed Field Magnet Based on Digital Lock-in Technique," IEEE Transactions on Applied Superconductivity,
4. 22(3), 2012, 9001105-9001105. DOI:10.1109/TASC.2011.2177056.
5. [4] H. B. Ertan and I. Sahin, "Inductance Measurement Methods for Surface-Mount Permanent Magnet Machines," IEEE Transactions on Instrumentation and Measurement, 72, 2023,