Abstract A novel single-chip sensing device for measurement of two orthogonal magnetic-field components using a common transducer zone and, for the first time, containing four contacts, is presented. On a rectangular n -type silicon substrate, n + - ohmic planar contacts are implemented − two of them are elongated and serve as power supply, and the other two terminals, positioned in the middle of the region between the elongated ones, function as outputs. A proper coupling arrangement is used for obtaining the information about vector components B x (parallel to the supply contacts) and B z (perpendicular to the substrate). Actually, the 2D magnetometer integrates an in-plane sensitivе Hall element and a device with vertical magnetic-field activation. The sensor operation is determined by the direction of the individual parts of the curvilinear current trajectory and the Lorentz force deflection action on them. The 2D vector sensor interface circuitry in hybrid realization comprises three instrumentation amplifiers and a differential amplifier. Simple fabrication technology is applied, containing four masks. The effective spatial resolution volume is high, constituting about 90 × 60 × 40 μm 3 . The respective channel-magnetosensitivities without amplification reached: the lateral sensitivity S x ≈ 17 V/AT and the vertical sensitivity S z ≈ 23.3 V/AT. The channel cross-talk at induction B ≤ 1.0 T is no more than 3% and the lowest detected induction B min for the two-axis device at supply 3 mA over frequency range f ≤ 100 Hz is about 11 μT.
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