Flex circuit shielded optical sensor
First Claim
Patent Images
1. An optical sensor comprising:
- a flex circuit substrate having a first side and an opposite second side;
a trace layer disposed on said first side having a pattern of conductors so as to electrically connect with an emitter and a detector,a conductive grid portion of said trace layer having at least one aperture so as to pass optical radiation from said emitter to said detector, said trace layer configured to mount said detector proximate said grid portion;
a shield layer disposed on said second side, said substrate having a plurality of foldable portions including said shield layer and substantially excluding said trace layer, said plurality of foldable portions being configured to substantially enclose said detector so as to form a Faraday shield in conjunction with said conductive grid portion.
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Abstract
A flex circuit optical sensor has an integrated Faraday shield. A conductive trace layer disposed on a substrate is used to form a conductive grid which shields the face of a photodetector. A conductive ink layer is formed on a substrate side opposite the trace layer. The back and sides of the detector are shielded by flex circuit flaps that have the conductive ink layer but substantially exclude the trace layer so as to fold over and closely adhere to the detector body. The shielded substrate flaps advantageously eliminate a separate detector shield, which is typically fabricated with an etched copper part that must be attached to a flex circuit before mounting the detector.
1213 Citations
12 Claims
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1. An optical sensor comprising:
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a flex circuit substrate having a first side and an opposite second side; a trace layer disposed on said first side having a pattern of conductors so as to electrically connect with an emitter and a detector, a conductive grid portion of said trace layer having at least one aperture so as to pass optical radiation from said emitter to said detector, said trace layer configured to mount said detector proximate said grid portion; a shield layer disposed on said second side, said substrate having a plurality of foldable portions including said shield layer and substantially excluding said trace layer, said plurality of foldable portions being configured to substantially enclose said detector so as to form a Faraday shield in conjunction with said conductive grid portion. - View Dependent Claims (2, 3)
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4. An optical sensor assembly method comprising the steps of:
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fabricating an elongated flex circuit having a component side, an opposite side and a plurality of foldable portions; creating a plurality of traces on said component side substantially excluding said plurality of foldable portions; creating a conductive layer on said opposite side substantially including said plurality of foldable portions; mounting a detector and an emitter to said component side, said traces providing electrical connections for said detector and said emitter; and disposing said plurality of foldable portions around said detector so as to shield said detector from electromagnetic interference. - View Dependent Claims (5, 6, 7, 8)
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9. A noninvasive disposable optical sensor which outputs a signal usable to determine one or more physiological parameters, the optical sensor comprising:
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at least one emitter; a light sensitive detector capable of detecting light emitted from the at least one emitter and attenuated by body tissue, said detector also capable of outputting a signal usable to determine one or more physiological parameters of the body tissue; a flexible circuit comprising the at least one emitter, the detector, an interconnect layer, and a substrate layer, wherein the substrate layer is formed from a unitary structure including a plurality of foldable portions extending from a main body portion, and wherein the foldable portions fold over and around the detector while the main body portion substantially covers the interconnect layer, thereby substantially enclosing and shielding the light sensitive detector from external noise; and adhesive attachment wraps capable of adhering the disposable optical sensor to the body tissue, wherein the plurality of foldable portions of the flexible circuit are different from the adhesive attachment wraps and wherein the plurality of foldable portions are not used for attachment of the disposable optical sensor to the body tissue. - View Dependent Claims (10)
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11. A method of assembling a multi-layer optical sensor comprising:
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fabricating a multi-layer circuit panel including a trace layer and at least one of a top ink layer and a bottom ink layer, wherein the trace layer comprises a plurality of conductive traces; separating the multi-layer circuit panel into a plurality of multi-layer elongated flexible circuits, wherein each flexible circuit includes a plurality of foldable portions substantially free of the plurality of conductive traces; mounting a detector and at least one emitter to each flexible circuit, wherein the conductive traces provide electrical connections for each detector and each emitter; disposing the foldable portions around each detector so as to shield each detector from electromagnetic interference; attaching sensor panel material to the flexible circuits; and shaping the sensor panel material into multi-layer optical sensors, wherein the shapes assist in attachment of each optical sensor to a measurement site. - View Dependent Claims (12)
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Specification