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Magnetic sensors are
used in a wide range of applications in every field,
including industry, transport, and building. The
role of the sensor is often crucial for the proper
functioning of systems or for the safety of people,
for example Antilock Braking Systems sensor (ABS),
camshaft sensor or machine tool sensor, etc.
electromagnetic actuation is commonly used for
control and safety in many different industries.
Even if the technology is well known, the
introduction of electronics or permanent magnets
allows for performance improvement, for example to
open/close faster or to reduce the energy
consumption of the actuator. For each application,
those devices must respect precise specifications,
such as detection range, measurement error,
condition of operation (temperature range), response
time, and energy consumption. |
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Flux, based on the Finite Element Method, ultimately matches the
analysis, design and optimization needs of magnetic sensors &
actuators, making accurate virtual prototyping possible and
avoiding multiple mock-ups. Thanks to advanced modelling
techniques considering material non-linearities, Eddy currents,
circuit coupling and motion with mechanical loads, Flux allows
studying efficiently and completely the behaviour of magnetic
sensor. Easy to use, Flux gives a direct access to all the results
such as electromagnetic quantities (flux density, currents,
losses, current density), mechanical quantities (position, speed,
force or torque) and electrical quantities (current, voltage,
inductance, resistance) with various formats: point values, colour-
shaded maps, isolines, arrows distribution, 2D/3D curves,
animations, export to Excel, automatic report, and more others
tools to go deeper in your analysis
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