Test-bench for characterization of steady state magnetic sensors parameters in wide temperature range
Abstrakt
Magnetic sensors in ITER tokamak and in other future fusion devices will face an environment with temperature often elevated well above 200 degrees C. Dedicated test benches are needed to allow characterization of performance of magnetic sensors at such elevated temperatures.
This contribution describes realization of test bench for calibration of steady state magnetic sensors based on Hall effect. The core of the set-up is the coil providing DC calibration magnetic field.
Optimization of toils design to ensure its compatibility with elevated temperature up to 300 degrees C is described. Optimized coil was manufactured, and calibrated both at room temperature and at temperature of 250 degrees C.
Measured calibration magnetic field of the coil biased by a 30 A commercial laboratory power supplies is 224 mT. The coil is supplemented by PID regulated air cooling system for fine control of sensors temperature during measurements.
Data acquisition system is composed from PC A/D converter boards with resolution below 1 mu V. The key parameters of the test bench are remotely controllable and the system allows long term continuous measurements including tests of irradiated samples.
The performance of the test bench is demonstrated on recent measurements with metal Hall sensors based on thin copper sensing layers.