Electricity: measuring and testing – Magnetic – Displacement
Patent
1992-09-02
1995-03-28
O'Shea, Sandra L.
Electricity: measuring and testing
Magnetic
Displacement
32420712, 324235, 32420723, 327510, 327513, G01B 714, G01R 3309
Patent
active
054020646
ABSTRACT:
A magnetoresistor (MR) and a non-magnetoresistor (NMR) are formed of indium antimonide or other magnetoresistive material in thermal proximity to each other on an integrated circuit substrate (100). Hall effect shorting strips (104) are formed on the magnetoresistor (MR) to make it much more magnetoresistive than the non-magnetoresistor (NMR). A current mirror (80) causes equal constant currents (I2) which do not vary with temperature to flow through the magnetoresistor (MR) and non-magnetoresistor (NMR), such that magnetoresistor and non-magnetoresistor voltages are developed thereacross respectively. The magnetoresistor and non-magnetoresistor voltages vary equally in accordance with temperature. The magnetoresistor voltage also varies in accordance with applied magnetic flux. A comparator (66) subtracts the non-magnetoresistor voltage from the magnetoresistor voltage to produce an output signal (Vout) with the temperature variation canceled, and which thereby varies only in accordance with magnetic flux. The current mirror (80) has an essentially infinite equivalent load impedance, such that the magnetoresistor voltage varies to a maximum possible extent with variation of the resistance of the magnetoresistor (MR) and the sensor (70) has a maximum possible output voltage swing.
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Bryant Paul T.
Eck Robert E.
Denson-Low W. K.
Edmonds Warren S.
Grunebach Georgann S.
Gudmestad Terje
O'Shea Sandra L.
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