Hybrid capacitive touch screen element
First Claim
1. An apparatus comprising:
- a first resistive element extending in a first direction, a first end of the first resistive element coupled to a first connection electrode and a second end of the first resistive element coupled to a second connection electrode;
a second resistive element extending in the first direction and spaced apart from the first resistive element in a second direction, a first end of the second resistive element coupled to a third connection electrode and a second end of the second resistive element coupled to a fourth connection electrode, the first and second resistive elements being located within a common layer;
a plurality of first conductive elements coupled to the first resistive element and not the second resistive element, the plurality of first conductive elements extending in the second direction between the first and second resistive elements; and
a plurality of second conductive elements coupled to the second resistive element and not the first resistive element, the plurality of second conductive elements extending in the second direction between the first and second resistive elements, the first and second conductive elements collectively forming a conductive sensor, each of the second conductive elements being adjacent one or more of the first conductive elements and separated from the one or more ones of the first conductive elements by one or more non-conducting gaps, currents induced in the conductive sensor by capacitive coupling with the conductive sensor flowing only in the second direction and not in the first direction;
wherein the plurality of first conductive elements increase a resistance of the first resistive element by lengthening a current path of the first resistive element; and
wherein the plurality of second conductive elements increase a resistance of the second resistive element by lengthening a current path of the second resistive element.
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Accused Products
Abstract
A capacitive touch sensitive position sensor is provided which has a substrate defining a touch sensitive platform. First and second resistive bus-bars arranged spaced apart on the substrate. A conductive sensing area is formed between the bus bars and is constructed with first and second conductive elements connected to the first and second resistive bus-bars respectively, and spaced apart from each other by non-conducting gaps, so that currents induced in the conductive sensing area flow towards the bus-bars, but are prevented from flowing in a direction parallel to the bus-bars. This design removes pin-cushion distortion and enhances linearization of the output signals. Because the sensing region is not galvanically coupled from one bus bar to the other, the voltage gradients remain uniform and undistorted. Capacitive coupling from one side to the other does not produce a distortion component provided that the capacitance is allowed to fully charge and discharge across all locations in the sensing region.
31 Citations
24 Claims
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1. An apparatus comprising:
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a first resistive element extending in a first direction, a first end of the first resistive element coupled to a first connection electrode and a second end of the first resistive element coupled to a second connection electrode; a second resistive element extending in the first direction and spaced apart from the first resistive element in a second direction, a first end of the second resistive element coupled to a third connection electrode and a second end of the second resistive element coupled to a fourth connection electrode, the first and second resistive elements being located within a common layer; a plurality of first conductive elements coupled to the first resistive element and not the second resistive element, the plurality of first conductive elements extending in the second direction between the first and second resistive elements; and a plurality of second conductive elements coupled to the second resistive element and not the first resistive element, the plurality of second conductive elements extending in the second direction between the first and second resistive elements, the first and second conductive elements collectively forming a conductive sensor, each of the second conductive elements being adjacent one or more of the first conductive elements and separated from the one or more ones of the first conductive elements by one or more non-conducting gaps, currents induced in the conductive sensor by capacitive coupling with the conductive sensor flowing only in the second direction and not in the first direction; wherein the plurality of first conductive elements increase a resistance of the first resistive element by lengthening a current path of the first resistive element; and wherein the plurality of second conductive elements increase a resistance of the second resistive element by lengthening a current path of the second resistive element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. A method comprising:
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conducting one or more currents in a first direction only and not in a second, the currents having been induced in a conductive sensor by a capacitive coupling with the conductive sensor, the conductive sensor comprising a plurality of first conductive elements and a plurality of second conductive elements, the first conductive elements being coupled to a first resistive element and not a second resistive element, a first end of the first resistive element coupled to a first connection electrode and a second end of the first resistive element coupled to a second connection electrode, the second conductive elements being coupled to the second resistive element and not the first resistive element, a first end of the second resistive element coupled to a third connection electrode and a second end of the second resistive element coupled to a fourth connection electrode, the first resistive element extending in the second direction, the second resistive element extending in the second direction and being spaced apart from the first resistive element in the first direction, the first and second resistive elements being located within a common layer, the first conductive elements extending in the first direction between the first and second resistive elements, the second conductive elements extending in the first direction between the first and second resistive elements, each of the second conductive elements being adjacent one or more of the first conductive elements and separated from the one or more ones of the first conductive elements by one or more non-conducting gaps; wherein the plurality of first conductive elements increase a resistance of the first resistive element by lengthening a current path of the first resistive element; and wherein the plurality of second conductive elements increase a resistance of the second resistive element by lengthening a current path of the second resistive element. - View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20, 21)
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22. A device comprising:
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a first resistive element extending in a first direction, a first end of the first resistive element coupled to a first connection electrode and a second end of the first resistive element coupled to a second connection electrode; a second resistive element extending in the first direction and spaced apart from the first resistive element in a second direction, a first end of the second resistive element coupled to a third connection electrode and a second end of the second resistive element coupled to a fourth connection electrode; and a touch screen or touch pad comprising; a plurality of first conductive elements coupled to the first resistive element and not the second resistive element, the plurality of first conductive elements extending in the second direction between the first and second resistive elements; and a plurality of second conductive elements coupled to the second resistive element and not the first resistive element, the plurality of second conductive elements extending in the second direction between the first and second resistive elements, the first and second resistive elements being located within a common layer, the first and second conductive elements collectively forming a conductive sensor, each of the second conductive elements being adjacent one or more of the first conductive elements and separated from the one or more ones of the first conductive elements by one or more non-conducting gaps, currents induced in the conductive sensor by capacitive coupling with the conductive sensor flowing only in the second direction and not in the first direction; wherein the plurality of first conductive elements increase a resistance of the first resistive element by lengthening a current path of the first resistive element; and wherein the plurality of second conductive elements increase a resistance of the second resistive element by lengthening a current path of the second resistive element. - View Dependent Claims (23, 24)
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Specification