Automatic calibration of Hall sensor microsystems

In many applications, a Hall element is used for contact-less measurement such as linear and angular positions, electrical current, power and energy, etc. The Hall element fabricated by means of CMOS technology features mediocre characteristics [R.S. Popovic, Z. Randjelovic, D. Manic, Integrated Hall-Effect Magnetic Sensors, EMSA, Germany, 2000; R.S. Popovic, Hall Effect Devices, Adam Hilger, Bristol, Philadelphia, New York, 1991]. It gives a weak output signal of the order of a few mV. This signal is often corrupted by sensor offset, noise, temperature and aging drift. This paper deals with the state of the art and main techniques capable to detect and compensate these issues. Case studies using mentioned techniques are also summarized. (c) 2006 Elsevier Ltd. All rights reserved.

Automatic calibration of Hall sensor microsystems

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A modular multiple frequency inductive link to wirelessly power multiple miniaturized implants

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3D printed large amplitude torsional microactuators powered by ultrasound

A modular multiple frequency inductive link to wirelessly power multiple miniaturized implants

Antiferromagnetic droplet soliton driven by spin current

3D printed large amplitude torsional microactuators powered by ultrasound