Fixed Point Magnetic Linear Hall Effect Sensor Meets Demands of Harsh Environment with Guaranteed Performance Specifications

Melexis has extended its portfolio of robust factory-programmed Hall effect sensors for use in automotive, industrial and other harsh environments with the introduction of a new device at a very cost effective price point. The MLX90290 is a monolithically integrated magnetic sensor IC, with AmplifierAn electronic device that increases the power of a signal." class="glossaryLink cmtt_TechTerms">amplifier, AnalogContinuous signal for which the time varying feature (variable) of the signal is a representation of some other time varying quantity." class="glossaryLink cmtt_TechTerms">analog output and internal compensation circuits all incorporated. It converts Magnetic FluxThe product of the average magnetic field times the perpendicular area that it penetrates." class="glossaryLink cmtt_TechTerms">magnetic flux into an analog output and guarantees the critical functional parameters (such as sensitivity, offset and their respective thermal drift characteristics) to absolute levels, thus simplifying integration processes by removing the need for end-of-line calibration. This means that design engineers can confidently deliver cutting-edge position sensing solutions without extra end-of-line testing and validation, which can prove laborious and time consuming. They can simply buy off-the-shelf versions of the MLX90290 capable of satisfying their sensor requirements. Standard versions of the MLX90290 when combined with microcontroller units allow fast and accurate rotary, linear or motor commutation applications to be realized. It also be applied to sense DC and Alternating Current [AC]A signal or power source that varies with time, switching polarities." class="glossaryLink cmtt_TechTerms">AC current when combined with a ferrite toroid core.

Offered in variations for use with circuits operating at 3.3VDC and 5VDC bias, the MLX90290 enables position measurements with most common permanent magnets, such as AlNiCo and Ferrite. It is capable of compensating for the inherent thermal behavior of the magnet. The device is offered in off-the-shelf variants for use with 500ppm/°C materials for Alnico/Rare Earth type magnets and 2000ppm/°C materials for low cost Ceramic/Ferrite magnets. In current sensing applications the thermal drift is targeted to 0ppm/°C, so the IC has a thermal behavior as flat as possible while achieving a high BandwidthThe range of frequencies an electronic signal uses on a given transmission medium; the width of a frequency range in the electromagnetic spectrum." class="glossaryLink cmtt_TechTerms">bandwidth.

High volume applications may be deemed suitable for a customized version. Here, filtering, sensitivity and thermal sensitivity drift may be fully optimized to meet a specific high volume application’s performance requirements. The MLX90290 covers a -40°C to +150°C operational TemperatureA numerical measure of hot or cold. Its measurement is by detection of heat radiation or particle velocity or kinetic energy, or by the bulk behavior of athermometric material." class="glossaryLink cmtt_TechTerms">temperature range. It is offered in an industry standard 3-pin SIP (UA) package or 3-pin SOT (TSOT23) package. The standard 0.05”/1.27mm pin-to-pin spacing version is the normal option or alternatively a 0.100”/2.54mm pin-to-pin spacing, lead-formed version can be specified. The wider pin-to-pin spacing is beneficial for welding or automated soldering in sensor modules.

To request more information, visit www.melexis.com/contact.aspx.

fixed pointhall effect sensorsharsh environmentsMelexis

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