Title :
Continuous calibration of Rogowski coil current transducer
Author :
Paulus, S. ; Kammerer, J.-B. ; Pascal, J. ; Hebrard, L.
Author_Institution :
ICube, Strasbourg, France
Abstract :
Rogowski coils (RC) used for high-accuracy contact-less current measurement ask for precise sensor geometry and specific conditions, such as a centered primary conductor. To relax these constraints, we propose here a recently patented continuous calibration system which features a reference conductor added coaxially to the primary conductor and a proportional-integral controller integrated in CMOS technology. Experimental results obtained with commercial flexible and rigid RC show that the sensor immunity to the conductor position, as well as the dispersion between RC, is reduced to +/-0.1%, i.e. a 0.1 class measurement. In addition, the system may ensure an absolute calibration of the RC current transducer, avoiding any costly calibration procedure at the end of the sensor manufacturing.
Keywords :
CMOS integrated circuits; PI control; calibration; coils; conductors (electric); electric current measurement; transducers; CMOS technology; Rogowski coil current transducer; centered primary conductor; continuous calibration; high-accuracy contact-less current measurement; precise sensor geometry; proportional-integral controller; reference conductor; Calibration; Conductors; Current measurement; Dispersion; Sensitivity; Temperature measurement; Transducers; AC current measurement; Rogowski coil current transducer calibration; absolute calibration; fabrication dispersion; primary conductor position error;
Conference_Titel :
New Circuits and Systems Conference (NEWCAS), 2015 IEEE 13th International
Conference_Location :
Grenoble
DOI :
10.1109/NEWCAS.2015.7182072
