HomeProductsProducts Details

Programmable omnipolar Hall effect switch allow same circuit in multiple applications

Date: 27/03/2013
Diodes Incorporated has introduced a programmable omnipolar Hall effect switch enabling designers to use the same contactless detection circuit in multiple applications or with different field strengths. The miniature and micropower AH1898 is suitable for numerous portable consumer applications including cell phones, tablets and cameras as well as a variety of domestic, office and industrial equipment.

Able to detect both north and south magnetic fields, the AH1898 features a band-select pin, which allows device sensitivity to be changed to one of two predefined magnetic sensitivity ranges. In addition, it can also be used change the band on the fly, using an external logic source or microcontroller. The high sensitivity of the Hall sensor also means that it can support weaker, lower cost magnets and can be used at a greater distance from the magnet.

The AH1898 Hall switch has been optimized for use over a 1.6V to 3.6V low-voltage supply range and employs a hibernating clocking system to minimize power consumption. With an average supply current of just 4.3µA (typical) at 1.8V, this micropower device helps to extend portable battery cell lifetime.

To ensure high reliability in a broad range of applications, the AH1898 has been designed with an 8kV ESD rating on supply and output pins. Circuit robustness is further raised by the AH1898’s chopper stabilized design, delivering superior temperature stability over the operating range from -40ºC to +85ºC, absolute minimum switch point drift, and enhanced immunity to RF noise and physical stress.

The AH1898 is available in the miniature 0.8mm x 0.8mm CSP package, making it 12 times smaller than common TSOT-packaged alternatives. At the same time, its simple 4-pin footprint and integration of pull-up resistors results in reduced external component counts and a simplification of PCB layouts. For further information, visit the Company’s website at www.diodes.com.