Melexis unveils latest programmable hall effect sensor

TESSENDERLO, BELGIUM: Melexis has announced a further addition to its customer programmable Triaxis hall effect sensor IC portfolio. Targeted predominantly at use in EVs, HEVs and renewable energy systems, the high speed devices in the MLX91208 series each offer a response time of just 3μs.

Proprietary and novel design elements result in, stable accuracy level over both operational lifespan and temperature, with typical thermal sensitivity drift of ±150ppm/°C.

The transfer characteristics of the MLX91208 devices are fully adjustable, with parameters such as sensitivity, gain and offset capable of being readily stored on the built-in EEPROM memory.

Calibration is done using the companyÂ’s own well established PTC protocol where the supply voltage is modulated. As this dispenses with the need of an additional pin for programming, highly efficient production flows can be easily achieved.

Supporting an operational temperature range of -40°C to +150°C, the MLX91208 devices are very well suited to precision DC and AC current measurements up to 200kHz frequencies. The sensors feature Melexis patented Triaxis technology, with industry-leading sensitivity that stems from the IMC layer deposited onto the semiconductor die.

Current sensing systems based on the MLX91208 series are expected to exhibit accuracy levels exceeding ±0.5 percent at room temperature or ±2 percent at the extremes of the specified temperature range.

Packaged in a standard SO-8 package, these ICs present engineers with the means to implement an extremely compact, highly optimized current sensing solution that benefits from strong galvanic isolation.

There are two versions; the MLX91208CAL having a large IMC layer for the detection of very low magnetic fields and MLX91208CAH aimed at detection of medium fields. Among the key applications for these devices are battery current and motor current monitoring in automotive and renewable energy applications.