Electrographic touch sensor having reduced bow of equipotential field lines therein
First Claim
1. A position touch sensor having resistive electrodes which provides a linear output response over an enhanced proportion of the surface area of said sensor by reducing the bow of equipotential lines along edges of said sensor, which comprises:
- a resistive surface having a selected substantially uniform resistivity throughout said surface, said resistive surface defining perimeter edges;
a resistance element having a non-uniform resistance value per unit length positioned proximate each of said perimeter edges of said resistive surface for providing orthogonal electrical fields on said resistive surface, each of said resistance elements having opposite ends joined to proximate ends of adjoining resistance elements;
a plurality of electrodes positioned on, and electrically connected to, said resistive surface along a preselected symmetrical path proximate each perimeter edge of said surface, said electrodes each being electrically connected to selected connection points along said resistance elements and having a selected spacing and an effective length along said path;
wherein each said resistance element has at least one resistance unit interposed between adjacent selected connection points for said electrodes, each said resistance unit formed by a pair of lines of conductive material being in electrical contact with said resistive surface and space apart a selected distance and overlapping a selected length whereby said resistance unit has a resistance value established by said resistivity of said resistive surface and by said selected separation distance and said overlap length; and
wherein said length and spacing of said electrodes are selected to produce a selected voltage gradient at each of said electrodes to compensate for any cumulative voltage drop along said resistance element perpendicular to current flow in said resistive surface during operation of said sensor when said orthogonal fields are introduced into said resistive surface whereby said bow is reduced.
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Accused Products
Abstract
A resistor electrode type touch sensor having reduced bow of equipotential lines in the sensor and simplified construction. Orthogonal electrical fields are produced on a resistive surface so as to give coordinates of a selected position. Overlying, but spaced from, the resistive surface is an optional flexible conductive pick-off sheet facing the resistive surface which will contact the resistive surface when touched at a selected position. Other elements are described to obtain signals corresponding to the coordinates of a selected point. Electrodes of a selected effective length and spacing to substantially eliminate the bow of equipotential fields produced in the resistive surface are located along selected paths proximate the edges of the resistive surface and attached thereto. Each electrode is connected to a selected connection point along a resistance element along each edge of the resistive to provide selected voltages to the resistive surface. Each resistance element is made up of at least one resistance unit between each electrode connection point, and each unit has a pair of space-apart conductive lines applied to the resistive layer. For a given value of the resistive surface, the value of the resistance unit is determined by the length and width of any gaps between the conductive lines.
149 Citations
9 Claims
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1. A position touch sensor having resistive electrodes which provides a linear output response over an enhanced proportion of the surface area of said sensor by reducing the bow of equipotential lines along edges of said sensor, which comprises:
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a resistive surface having a selected substantially uniform resistivity throughout said surface, said resistive surface defining perimeter edges; a resistance element having a non-uniform resistance value per unit length positioned proximate each of said perimeter edges of said resistive surface for providing orthogonal electrical fields on said resistive surface, each of said resistance elements having opposite ends joined to proximate ends of adjoining resistance elements; a plurality of electrodes positioned on, and electrically connected to, said resistive surface along a preselected symmetrical path proximate each perimeter edge of said surface, said electrodes each being electrically connected to selected connection points along said resistance elements and having a selected spacing and an effective length along said path; wherein each said resistance element has at least one resistance unit interposed between adjacent selected connection points for said electrodes, each said resistance unit formed by a pair of lines of conductive material being in electrical contact with said resistive surface and space apart a selected distance and overlapping a selected length whereby said resistance unit has a resistance value established by said resistivity of said resistive surface and by said selected separation distance and said overlap length; and wherein said length and spacing of said electrodes are selected to produce a selected voltage gradient at each of said electrodes to compensate for any cumulative voltage drop along said resistance element perpendicular to current flow in said resistive surface during operation of said sensor when said orthogonal fields are introduced into said resistive surface whereby said bow is reduced. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A position touch sensor having resistive electrodes which provides a linear output response over an enhanced proportion of the surface area of said sensor by reducing the bow of equipotential lines along edges of said sensor, which comprises:
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a resistive layer having a selected substantially uniform resistivity of about 200 ohms per square throughout said surface, said resistive surface defining perimeter edges; a resistance element having a non-uniform resistance value per unit length positioned proximate each of said perimeter edges of said resistive surface for providing orthogonal electrical fields on said resistive surface, each of said resistance elements formed from a plurality of serially-connected resistance units with a connection point between each unit, each resistance unit formed by a pair of conductive lines substantially parallel to said perimeter edges of said resistive surface and being in electrical contact with said resistive surface, said lines spaced apart a selected distance of about 0.020 inch and overlapping a selected length of about 0.4 inch whereby said resistance unit has a resistance value of about 10 ohms established by said resistivity of said resistive surface and by said selected separation distance and said overlap length, each said resistance element having opposite ends joined to proximate ends of adjoining resistance elements; a plurality of electrodes positioned on, and electrically connected to, said resistive surface along a preselected symmetrical path proximate each perimeter edge of said surface, said electrodes having a selected spacing and an effective length along said path, said length and spacing of said electrodes selected to produce a selected voltage gradient at each of said electrodes to compensate for any cumulative voltage drop along said resistance element perpendicular to current flow in said resistive surface during operation of said sensor when said orthogonal fields are introduced into said resistive surface whereby said bow is reduced; circuit means connected to said ends of said resistance elements to introduce orthogonal electrical fields on said resistive surface; and conductive means for contacting said resistive surface at a selected point to obtain output voltage signals from said resistive surface at that point. - View Dependent Claims (8)
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9. A position touch sensor having resistive electrodes provides a linear output response over an enhanced proportion of the surface area of said sensor by reducing the bow of equipotential lines along edges of said sensor, which comprises:
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a resistive layer having a substantially uniform resistivity of about 200 ohms per square throughout said surface, said resistive surface defining perimeter edges; a resistance element having a non-uniform resistance value per unit length positioned proximate each of said perimeter edges of said resistive surface for providing orthogonal electrical fields on said resistive surface, each of said resistance elements formed from a plurality of serially-connected resistance units with a connection point between each unit, each resistance unit formed by a pair of conductive lines substantially parallel to said perimeter edges of said resistive surface and being in electrical contact with said resistive surface, said lines spaced apart a distance of about 0.020 inch and overlapping a length of about 0.4 inch whereby said resistance unit has a resistance value of about 10 ohms established by said resistivity of said resistive surface and by said selected separation distance and said overlap length, each said resistance element having opposite ends joined to proximate ends of adjoining resistance elements; a plurality of electrodes positioned on, and electrically connected to, said resistive surface along a preselected symmetrical path proximate each perimeter edge of said surface, said electrodes having a selected spacing and an effective length along said path, said length and spacing of said electrodes selected to produce a selected voltage gradient at each of said electrodes to compensate for any cumulative voltage drop along said resistance element perpendicular to current flow in said resistive surface during operation of said sensor when said orthogonal fields are introduced into said resistive surface whereby said bow is reduced; circuit means connected to said ends of said resistance elements to introduce orthogonal electrical fields on said resistive surface; and a conductive flexible pickoff sheet uniformly spaced from said resistive layer and further comprises means for preventing inadvertent contact between said pickoff sheet and said resistive layer but permitting intentional contact at said selected point.
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Specification