Touch screen rendering system and method of operation thereof
First Claim
1. A touch panel display apparatus having a user interface with which a user may interact with the panel, the apparatus comprising:
- first and second sheets, each having opposed major surfaces and corresponding peripheries defined by opposed ends and opposed edges, the first and second sheets each having a conductive pattern comprising a pair of opposed busbars electrically coupled to corresponding ones of the first and second sheets;
a transparent force sensing (TFS) sheet having opposed major surfaces and a variable resistance dependent on a pressure applied at a location across the opposed major surfaces, the TFS sheet situated between the first and second sheets, wherein a change in variable resistance is logarithmically proportional to a force applied to the surface of the touch screen; and
separation portions situated between the TFS sheet and the first or second sheet to bias the TFS sheet apart from the first or second sheet, whereinthe variable resistance, Rt, is determined by;
Rt=(V2/V1−
1)(Vx/Vcc)*Rx where Vcc is a predetermined voltage across a first busbar of a first conductive pattern on the first sheet and a second busbar of a second conductive pattern on the second sheet electrically coupled to the first conductive pattern via resistance Rt, V1 is a first voltage at a second busbar of the first conductive pattern, V2 is a second voltage at a first busbar of the second conductive pattern, Vx is a voltage across the first and second busbars of first conductive pattern, and Rx is a layer resistance across the first and second busbars of the first conductive pattern.
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Accused Products
Abstract
A touch-screen display apparatus, the apparatus may include first and second sheets having opposed major surfaces and a size and shape defined by a periphery. The periphery may be defined by opposed ends and opposed edges. The first and second sheets may each have a conductive pattern including a pair of opposed busbars and a plurality of traces electrically coupled to, and extending between, corresponding pairs of opposed busbars. The transparent force sensing (TFS) sheet may have opposed major surfaces and a variable resistance which is related to a force exerted upon one or more of its major surfaces. The TFS sheet may be situated between the first and second sheets. The apparatus may also include one or more separation portions situated between the TFS sheet and the first or second sheet to bias the TFS sheet apart from the first or second sheet.
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Citations
12 Claims
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1. A touch panel display apparatus having a user interface with which a user may interact with the panel, the apparatus comprising:
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first and second sheets, each having opposed major surfaces and corresponding peripheries defined by opposed ends and opposed edges, the first and second sheets each having a conductive pattern comprising a pair of opposed busbars electrically coupled to corresponding ones of the first and second sheets; a transparent force sensing (TFS) sheet having opposed major surfaces and a variable resistance dependent on a pressure applied at a location across the opposed major surfaces, the TFS sheet situated between the first and second sheets, wherein a change in variable resistance is logarithmically proportional to a force applied to the surface of the touch screen; and separation portions situated between the TFS sheet and the first or second sheet to bias the TFS sheet apart from the first or second sheet, wherein the variable resistance, Rt, is determined by;
Rt=(V2/V1−
1)(Vx/Vcc)*Rxwhere Vcc is a predetermined voltage across a first busbar of a first conductive pattern on the first sheet and a second busbar of a second conductive pattern on the second sheet electrically coupled to the first conductive pattern via resistance Rt, V1 is a first voltage at a second busbar of the first conductive pattern, V2 is a second voltage at a first busbar of the second conductive pattern, Vx is a voltage across the first and second busbars of first conductive pattern, and Rx is a layer resistance across the first and second busbars of the first conductive pattern. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of forming a touch panel display apparatus having a user interface with which a user may interact, the method comprising acts of:
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forming first and second sheets, each having opposed major surfaces and corresponding peripheries defined by opposed ends and opposed edges, the first and second sheets each having a conductive pattern comprising a pair of opposed busbars electrically coupled to corresponding ones of the first and second sheets; positioning a transparent force sensing (TFS) sheet between the first and second sheet, the TFS sheet having opposed major surfaces and a variable resistance dependent on a pressure applied at a location across opposed major surfaces, wherein a change in variable resistance is logarithmically proportional to a force applied to the surface of the touch screen; biasing the first or second sheets apart from the TFS sheet using separation portions situated between the TFS sheet and the first or second sheet, wherein the sheet variable resistance, Rt, is determined by;
Rt=(V2/V1−
1)(Vx/Vcc)*Rxwhere Vcc is a predetermined voltage across a first busbar of a first conductive pattern on the first sheet and a second busbar of a second conductive pattern on the second sheet electrically coupled to the first conductive pattern via resistance Rt, V1 is a first voltage at a second busbar of the first conductive pattern, V2 is a second voltage at a first busbar of the second conductive pattern, Vx is a voltage across the first and second busbars of first conductive pattern, and Rx is a layer resistance across the first and second busbars of the first conductive pattern. - View Dependent Claims (8, 9, 10, 11, 12)
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Specification