Linear, Compass (ICs)
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3 Axis Magnetic Sensor IC AKM AK09973D with Built in A D Converter and Event Notification Output Pin
Product Overview The AK09973D is a high-sensitivity 3D magnetic smart switch sensor IC, leveraging advanced Hall sensor technology. It offers a wide measurement range and independently detects magnetic fields along the X, Y, and Z axes. Its ultra-small package, thin profile, and extremely low power consumption make it ideal for integration into smartphones and wearable devices. The sensor provides 16-bit data output for each axis, features a built-in A/D converter, and
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Linear Hall effect sensor ALLEGRO A1395SEHLT-T with stable voltage output and low current sleep mode
Product Overview The A139x family of linear Hall effect sensor ICs offers a voltage output proportional to the applied magnetic field, designed for low-power, battery-operated applications. These sensors minimize current consumption to less than 25 A through a user-selectable sleep mode, making them ideal for devices like cellular phones, digital cameras, and portable tools. The A139x features a high-impedance output during sleep mode, enabling multiple sensors to connect to
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High precision linear Hall effect sensor Allegro A1308KUA-5-T with BiCMOS technology and low impedance output stage
Product Overview The Allegro A1308 and A1309 are high-accuracy, linear Hall-effect sensor ICs designed for applications requiring precise displacement and angular position sensing in smaller package sizes. These temperature-stable devices feature nonvolatile memory for end-of-line optimization of sensitivity and quiescent voltage output (QVO). They offer a voltage output proportional to the applied magnetic field, with QVO adjusted around 50% of the supply voltage. Ideal for
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Compact Linear Hall Effect Sensor ALLEGRO A1318LLHLT-1-T with Surface Mount Package and Analog Output
Product Overview The Allegro A1318 and A1319 are linear Hall-effect sensor ICs designed for high accuracy and small package size applications such as displacement and angular position sensing. These temperature-stable devices feature non-volatile memory for end-of-line optimization of sensitivity and quiescent voltage output (QVO). They provide a ratiometric voltage output proportional to the applied magnetic field, with QVO adjusted around 50% of the supply voltage. Ideal