A sensor device comprises an array of spaced apart sensor elements disposed in a pattern on a substrate. Each sensor element is connected electrically so that a physical variable measured by each sensor element independently can be recorded and/or displayed by an external instrument. The sensing dev
A sensor device comprises an array of spaced apart sensor elements disposed in a pattern on a substrate. Each sensor element is connected electrically so that a physical variable measured by each sensor element independently can be recorded and/or displayed by an external instrument. The sensing device may be a temperature sensing device, in which case the sensor elements are temperature sensing elements such as negative temperature coefficient (NTC) thermistors. Alternatively the sensing device may be a strain or pressure sensing device, or an optical imaging device, in which case the sensor elements include piezoresistors or photoresistors. The sensor elements may be connected in a common source or write all-read one configuration, in a common output or write one-read all configuration, or in an array comprising X rows and Y columns, in a write X-read Y configuration.
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1. A sensor device comprising an array of spaced apart temperature sensing elements disposed in a pattern on a substrate, each temperature sensing element comprising: a resistive component, the resistive component comprising: a temperature dependent resistor, deposited by printing on the substrate,
1. A sensor device comprising an array of spaced apart temperature sensing elements disposed in a pattern on a substrate, each temperature sensing element comprising: a resistive component, the resistive component comprising: a temperature dependent resistor, deposited by printing on the substrate, wherein the temperature dependent resistor is a printed negative temperature coefficient thermistor comprising: printed contacts; andan active material, wherein the active material comprises a printable composition; andat least one temperature sensing element including a fixed resistor, having a temperature independent resistance, connected in series,wherein other components of the sensor device, including but not limited to temperature independent resistors, conductive tracks and insulators are also printed on the substrate. 2. The sensor device of claim 1 wherein the sensing elements are connected in a common source or write all-read one configuration. 3. The sensor device of claim 1 wherein the sensing elements are connected in a common output or write one-read all configuration. 4. The sensor device of claim 1 wherein the sensing elements are connected in an array comprising X rows and Y columns, in a write X-read Y configuration. 5. The sensor device of claim 1 wherein either the positioning, or size, or both positioning and size, of the individual sensing elements is selected to allow the sensor device to be matched to the size, shape and form of an object whose temperature profile, or a profile of another physical variable, is to be measured. 6. The sensor device of claim 5 wherein the substrate is flexible or conformable to the shape of an object to be measured. 7. The sensor device of claim 1 wherein the sensing elements are disposed in a pattern which is mapped, in use, in a representation of the measured physical variable. 8. A sensor device comprising an array of spaced apart temperature sensing elements disposed in a pattern on a substrate, each temperature sensing element comprising: a resistive component, the resistive component comprising: a temperature dependent resistor, deposited by printing on the substrate, wherein the temperature dependent resistor is a printed negative temperature coefficient thermistor comprising: printed contacts; andan active material, wherein the active material comprises a printable composition; andat least one temperature sensing element including a fixed resistor, having a temperature independent resistance, connected in parallel, wherein other components of the sensor device, including but not limited to temperature independent resistors, conductive tracks and insulators are also printed on the substrate. 9. The sensor device of claim 8 wherein the sensing elements are connected in a common source or write all-read one configuration. 10. The sensor device of claim 8 wherein the sensing elements are connected in a common output or write one-read all configuration. 11. The sensor device of claim 8 wherein the sensing elements are connected in an array comprising X rows and Y columns, in a write X-read Y configuration. 12. The sensor device of claim 8 wherein either the positioning, or size, or both positioning and size, of the individual sensing elements is selected to allow the sensor device to be matched to the size, shape and form of an object whose temperature profile, or a profile of another physical variable, is to be measured. 13. The sensor device of claim 12 wherein the substrate is flexible or conformable to the shape of an object to be measured. 14. The sensor device of claim 8 wherein the sensing elements are disposed in a pattern which is mapped, in use, in a representation of the measured physical variable.
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이 특허에 인용된 특허 (11)
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