Touch sensitive device with increased linearity
First Claim
1. A position touch sensor 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 layer having a selected substantially uniform resistivity throughout said layer, said layer defining perimeter edges joined at corners;
a resistance element positioned proximate each of said perimeter edges of said resistive layer for providing orthogonal electrical fields to said resistive layer, each of said resistance elements having opposite ends joined to proximate ends of adjoining resistance elements, each of said resistance elements being in electrical contact with said resistive layer;
a plurality of discontinuous insulator regions of selected effective lengths in said resistive layer arranged along a selected path proximate said resistance elements in a direction toward said area of linear output, and defining spaces of selected effective lengths and width between adjacent of said insulator regions, said resistivity of said resistive layer producing in said spaces resistor electrode elements having selected values of resistance, said selected effective lengths of said insulator regions and said selective resistance values of said resistor electrode elements being selected to produce a selected voltage gradient along said path to compensate for any voltage drop along said resistance element when said orthogonal fields are introduced into said resistive layer through said resistor electrode elements whereby said bow is reduced; and
means for deriving output signals corresponding to coordinates of a selected point on said resistive layer within said area of linear output.
1 Assignment
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Accused Products
Abstract
An electrographic touch sensor of simplified construction having an increased proportion of area for providing linear output signals. The sensor utilizes a resistive layer of a substantially uniform resistivity throughout. A resistance element of resistance value borders and is in contact with the resistive layer. Positioned along a selected path proximate the resistance element borders are a plurality of insulator regions having a selected effective length along the path to define spaces of a selected effective length therebetween. These spaces, having the resistive layer therein, define resistive electrode elements by which voltages are applied from the resistance element borders into the resistive layer whereby orthogonal electrical fields can be generated in the resistive layer. The effective length of the insulator regions and the spaces are chosen to produce a voltage gradient along the path that substantially compensates for any voltage drop along the resistance element while orthogonal fields are being generated. In this manner, an increased proportion of the resistive layer provides a linear response in the output signals. Provision is made to generate output signals corresponding to the coordinates of a selected point on the resistive layer.
60 Citations
19 Claims
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1. A position touch sensor 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 throughout said layer, said layer defining perimeter edges joined at corners; a resistance element positioned proximate each of said perimeter edges of said resistive layer for providing orthogonal electrical fields to said resistive layer, each of said resistance elements having opposite ends joined to proximate ends of adjoining resistance elements, each of said resistance elements being in electrical contact with said resistive layer; a plurality of discontinuous insulator regions of selected effective lengths in said resistive layer arranged along a selected path proximate said resistance elements in a direction toward said area of linear output, and defining spaces of selected effective lengths and width between adjacent of said insulator regions, said resistivity of said resistive layer producing in said spaces resistor electrode elements having selected values of resistance, said selected effective lengths of said insulator regions and said selective resistance values of said resistor electrode elements being selected to produce a selected voltage gradient along said path to compensate for any voltage drop along said resistance element when said orthogonal fields are introduced into said resistive layer through said resistor electrode elements whereby said bow is reduced; and means for deriving output signals corresponding to coordinates of a selected point on said resistive layer within said area of linear output. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
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13. A position sensitive touch sensor which provides an active area having 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 of a material having a selected substantially uniform resistivity, RL, throughout said layer, said layer defining perimeter edges joined at corners; a continuous resistance element having a substantially uniform resistivity, RE, throughout in continuous electrical contact with each of said perimeter edges of said resistive layer for providing voltages to said resistive layer to produce orthogonal equipotential fields in said resistive layer, said resistivity RE being about 0.01 times said resistivity RL ; a plurality of discontinuous insulator regions devoid of said resistive layer material having selected effective lengths arranged along a selected path in said resistive layer proximate said resistance elements in a direction toward said active area from said resistance elements, said insulator regions defining spaces of selected effective lengths and width between adjacent of said insulator regions, said resistivity of said resistive layer producing in said spaces resistor electrode elements having selected values of resistance, said selected effective lengths of said insulator regions and said selective resistance values of said resistor electrode elements being selected to produce a selected voltage gradient along said path to compensate for a voltage drop along said resistance elements when said orthogonal fields ar introduced into said resistive layer by voltages applied through said resistor electrode elements, whereby said bow is reduced; and means for deriving output signals corresponding to coordinates of a selected point on said resistive layer within said active area, said means including voltage means for producing said orthogonal fields, a conductive means for contacting said resistive layer at said selected point and circuit means connected between said conductive means and said resistance elements for determining potentials of said fields at said selected point as a measure of coordinates of said selected point. - View Dependent Claims (14, 15, 16, 17, 18)
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19. A position sensitive touch sensor which provides an active area having a linear output response over an enhanced proportion of the surface area of said sensor by reducing bow of equipotential lines in said active area, which comprises:
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a resistive layer of a material having a substantially uniform resistivity of about 10,000 ohms per square said layer defining perimeter edges of about 4 inches, said perimeter edges defining corners; a continuous resistance element having a substantially uniform resistivity of about 100 ohms per square in contact with said resistive layer proximate each of said perimeter edges, each of said resistance elements joined at ends to an adjoining resistance element proximate said corners; a plurality of discontinuous substantially rectangular regions devoid of said resistive layer material arranged along a path proximate said resistance element toward said active area, said regions being of uniform size and positioned along said path from proximate corners of said resistive layer to one-third the distance toward opposite corners along each of said perimeter edges, said regions having a width perpendicular to said path of about 0.05 inch and being spaced on about 0.25 inch centers, said discontinuous regions defining intervening spaces in said one-third distance of about 0.04 inch having said resistive layer material in said spaces; a conductive flexible pickoff sheet uniformly spaced from said resistive layers with spaced-apart insulative islands positioned between said resistive layer and said pickoff sheet to prevent inadvertent contact between said resistive layer and said pickoff sheet; circuit means connected to said ends of said resistance elements to provide voltages to said resistance elements and thereby produce said equipotential lines in said resistive layer; and further circuit means connected between said pickoff sheet and said ends of said resistance elements to derive output signals corresponding to coordinates of a point of contact between said pickoff sheet and said resistive layer.
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Specification