Title :
Improvement of frequency response for a zero-flux current measuring system
Author :
Hammarqvist, M. ; Elg, A.-P. ; Bergman, Arik ; Wolbert, J. ; Blennow, J??rgen ; Gubanski, Stanislaw
Author_Institution :
SP Swedish Tech. Res. Inst., Boras, Sweden
Abstract :
Magnetic zero-flux current transformers are widely utilized to measure AC and DC electrical currents. To improve the AC characteristics between 10 Hz and 100 kHz, a method is proposed to evaluate adjustments in the circuitry; increase of the amplification in the AC feed-back circuit and introduction of an external coaxial read-out shunt resistor. The method is generally applicable and includes a coaxial current path within the entire reference system and traceability to national standards. The AC working range is extended from about 1 kHz to about 3 kHz. Outside the nominal AC working range, the scale factor variation is reduced from 45 % to 3.5% and the phase angle error offset changes from ca 5.8 μs to below 0.3 μs.
Keywords :
amplification; circuit feedback; current transformers; electric current measurement; frequency response; magnetic flux; measurement standards; readout electronics; resistors; AC electrical current measurement; AC feedback circuit; DC electrical current measurement; amplification; coaxial current path; coaxial readout shunt resistor; frequency 1 kHz to 3 kHz; frequency 10 Hz; frequency 100 kHz; frequency response; frequency response improvement; magnetic zero flux current transformer; national standards; phase angle error offset; scale factor variation; zero flux current measuring system; Current measurement; Current transformers; Frequency measurement; Frequency response; Magnetic flux; Resistors; Standards; AC current; current transformer; frequency response; measurement technique; traceability; zero-flux;
Conference_Titel :
Precision Electromagnetic Measurements (CPEM 2014), 2014 Conference on
Conference_Location :
Rio de Janeiro
Print_ISBN :
978-1-4799-5205-2
DOI :
10.1109/CPEM.2014.6898537
