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An electronic device called a Hall effect SOI floating switch is made to detect the Hall effect and turn the results into data that can be used to switch a circuit on and off, measure a changing magnetic field, be processed by an integrated computer, or be shown on an interface.
When a conductor or semiconductor with current flowing in one direction was introduced perpendicular to a magnetic field, it discovered that a voltage could be measured at right angles to the current channel. This is known as the Hall-effect principle.
Electric current in a wire was often compared to liquid running in a conduit at the time of Hall’s discovery. According to Hall’s idea, the magnetic field acting on the current causes it to congregate on one side of the “pipe” or wire.
The physics behind the Hall effect have been more accurately interpreted thanks to electromagnetic field theory.
The Global Hall-effect SOI floating switch market accounted for $XX Billion in 2021 and is anticipated to reach $XX Billion by 2030, registering a CAGR of XX% from 2022 to 2030.
Better assembly yield and reliability are provided by the Melexis MLX92361 Hall-effect SOI Floating Switch for fluid level measurements. The MLX92361 only requires power to drive the load directly due to its isolated floating output.
A monolithic sensor IC that is responsive to a common or lateral magnetic field is the MLX92361. It contains two output pins that are joined to an electrically isolated switch, designated as OUTA and OUTB.
One of the two sensitive axes (- X(Y) or Z) of the Melexis MLX92361 can be pre-programmed to emit a direct or inverted signal. The magnetic thresholds BOP and BRP for the chosen sensitive axis are compared to the applied magnetic field to produce the signal that is present on the output pins.
It is possible to pre-program the MLX92361 to function as a magnetic latch,
