Magnetic compatibility of standard components for electrical installations: Tests on programmable logical controllers and other electronic devices

The electrical distribution boards and control cubicles, installed inside the ITER tokamak building, can be subjected to a constant or slowly variable magnetic field up to 70 mT, 10 mT/s induced by ITER coils. This is a very unusual environmental condition and there are almost no data available on static magnetic field compatibility for the standard industrial, electrical and electronic components, usually installed inside standard low voltage distribution boards and standard control boards. es of tests has therefore been envisaged, in collaboration with EFDA close support unit [I. Benfatto, P. Bettini, M. Cavinato, A. De Lorenzi, J. Hourtoule, E. Serra, Magnetic compatibility of standard components for electrical installations: computation of the background field and consequences on the design of the electrical distribution boards and control boards for the ITER tokamak building, SOFT Conference Presentation, Venice, September 2004] and the Consorzio RFX [L. Grando, A. De Lorenzi, G. Bettanini, D. Desideri, Magnetic compatibility of standard components for electrical installations: tests on low voltage circuit breakers and contactors, SOFT Conference Presentation, Venice, September 2004], to assess the operational limits of these components. s especially taken in charge the test of electronic, control and signal conditioning units. s subject, a test bed composed of a solenoid and a 30 V, 800 A power supply, has been developed at CEA Cadarache. Its characteristics are the following: ic field capability: 140 mT ion of field: up to 10 mT/s dimensions for equipment under test: 500 mm × 500 mm × 500 mm st of the components to be tested has been identified trying to find common and recent components of different manufacturers. rocedures have been written following the most relevant IEC standards and manufacturing recommendations and procedures. ic compatibility tests on the basic components of standard low voltage control boards have been performed. mponents tested are more or less sensitive to magnetic fields and the effect varies from the simple perturbation of the output signals to the partial destruction of some electronic card. The most sensitive are the ferromagnetic components like small power supply transformers, relays, inductors, etc. wer supplies, the most important consequence is the increase of the consumption (primary current). st of the conditioning units (signal treatment), the operational limits were found in the range of 30 mT (destruction of power supply filter by over current and overload of the supply). C central units tested, the limit is in the order of 40 mT (components permanently out of service). are limited to 15 mT (outputs oscillations, no commutation). per will present, in detail, the methods and the results of these tests giving recommendations for future analysis.