Magnetoresistive thick film sensor for linear displacements

B. Morten; G. De Cicco; M. Prudenziati; A. Masoero; G. Mihai

doi:10.1016/0924-4247(94)00902-T

Magnetoresistive thick film sensor for linear displacements

B. Morten, G. De Cicco, M. Prudenziati, A. Masoero, G. Mihai

Research output: Contribution to journal › Article › peer-review

Abstract

A new thick film material has been developed starting from Ni and Co powders in the ratio Ni:Co = 3:1. The thermal treatment (in N₂, up to 950 °C) of the metal films deposited on glazed alumina enables the in situ formation of the NiCo alloy. The films as created exhibit a high longitudinal (current I parallel to the field B) magnetoresistive response with ΔR/R ≈4% at 1.2 kGauss, and a negligible transverse one. The temperature coefficient of resistance (TCR) is ≈2700 ppm °C⁻¹. These properties make the new material superior, from the point of view of magnetoresistive applications, to the Ni-based currently available thick film conductors. Contactless sensors for linear displacements have been created with the sensor's structure enclosing either Ni-based and Ni/Co-based meanders, having two magnetoresistive elements on each side of the substrate. This paper compares the magnetoresistive and thermoresistive properties of Ni and Ni/Co-based layers as well as the performances of the sensors in the range −20 to 120 °C.

Original language	English
Pages (from-to)	261-265
Number of pages	5
Journal	Sensors and Actuators A: Physical
Volume	46
Issue number	1-3
DOIs	https://doi.org/10.1016/0924-4247(94)00902-T
Publication status	Published - 1995
Externally published	Yes

Keywords

Displacement sensors
Magnetoresistive sensors
Thick film sensors

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10.1016/0924-4247(94)00902-T

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title = "Magnetoresistive thick film sensor for linear displacements",

abstract = "A new thick film material has been developed starting from Ni and Co powders in the ratio Ni:Co = 3:1. The thermal treatment (in N2, up to 950 °C) of the metal films deposited on glazed alumina enables the in situ formation of the NiCo alloy. The films as created exhibit a high longitudinal (current I parallel to the field B) magnetoresistive response with ΔR/R ≈4% at 1.2 kGauss, and a negligible transverse one. The temperature coefficient of resistance (TCR) is ≈2700 ppm °C−1. These properties make the new material superior, from the point of view of magnetoresistive applications, to the Ni-based currently available thick film conductors. Contactless sensors for linear displacements have been created with the sensor's structure enclosing either Ni-based and Ni/Co-based meanders, having two magnetoresistive elements on each side of the substrate. This paper compares the magnetoresistive and thermoresistive properties of Ni and Ni/Co-based layers as well as the performances of the sensors in the range −20 to 120 °C.",

keywords = "Displacement sensors, Magnetoresistive sensors, Thick film sensors",

author = "B. Morten and {De Cicco}, G. and M. Prudenziati and A. Masoero and G. Mihai",

year = "1995",

doi = "10.1016/0924-4247(94)00902-T",

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AU - Morten, B.

AU - De Cicco, G.

AU - Prudenziati, M.

AU - Masoero, A.

AU - Mihai, G.

PY - 1995

Y1 - 1995

N2 - A new thick film material has been developed starting from Ni and Co powders in the ratio Ni:Co = 3:1. The thermal treatment (in N2, up to 950 °C) of the metal films deposited on glazed alumina enables the in situ formation of the NiCo alloy. The films as created exhibit a high longitudinal (current I parallel to the field B) magnetoresistive response with ΔR/R ≈4% at 1.2 kGauss, and a negligible transverse one. The temperature coefficient of resistance (TCR) is ≈2700 ppm °C−1. These properties make the new material superior, from the point of view of magnetoresistive applications, to the Ni-based currently available thick film conductors. Contactless sensors for linear displacements have been created with the sensor's structure enclosing either Ni-based and Ni/Co-based meanders, having two magnetoresistive elements on each side of the substrate. This paper compares the magnetoresistive and thermoresistive properties of Ni and Ni/Co-based layers as well as the performances of the sensors in the range −20 to 120 °C.

AB - A new thick film material has been developed starting from Ni and Co powders in the ratio Ni:Co = 3:1. The thermal treatment (in N2, up to 950 °C) of the metal films deposited on glazed alumina enables the in situ formation of the NiCo alloy. The films as created exhibit a high longitudinal (current I parallel to the field B) magnetoresistive response with ΔR/R ≈4% at 1.2 kGauss, and a negligible transverse one. The temperature coefficient of resistance (TCR) is ≈2700 ppm °C−1. These properties make the new material superior, from the point of view of magnetoresistive applications, to the Ni-based currently available thick film conductors. Contactless sensors for linear displacements have been created with the sensor's structure enclosing either Ni-based and Ni/Co-based meanders, having two magnetoresistive elements on each side of the substrate. This paper compares the magnetoresistive and thermoresistive properties of Ni and Ni/Co-based layers as well as the performances of the sensors in the range −20 to 120 °C.

KW - Displacement sensors

KW - Magnetoresistive sensors

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EP - 265

JO - Sensors and Actuators A: Physical

JF - Sensors and Actuators A: Physical

IS - 1-3

ER -

Magnetoresistive thick film sensor for linear displacements

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Keywords

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