Touch screen with relatively conductive grid
First Claim
Patent Images
1. A touchscreen position sensor comprising(a) a touch area having generally relatively low conductivity;
- (b) a relatively high conductivity border defining a perimeter on the touch area;
(c) a grid of intermediate conductivity defining cells of relatively low conductivity within the high conductivity perimeter of the touch area, the relatively high conductivity border having a conductivity at least ten times greater than the conductivity of the relatively low conductivity touch area and the grid of intermediate conductivity having a conductivity at least four times greater than the relatively low conductivity touch area;
(d) a set of electrodes attached to the high conductivity perimeter and connected to an electrical power source;
(e) an electric circuit that measures the potential of a selected point on the touch area when brought in proximity thereto;
(f) a controller that sequentially switches electrical power from the power source to a first group of the electrodes thereby establishing a first electrical potential distribution on the touch area, and then to a second group of said electrodes thereby establishing a second electrical potential distribution on the touch area; and
(g) a controller that processes sets of potential measurements of said first and second electrical potential distributions from the electric circuit to determine the location of the selected point,wherein the controller may select subsets of a first set of cells to poll a subset of the cells.
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Abstract
A new touch screen design provides for corrections of non-uniformities, more accurate touch point measurement, and multiple simultaneous touch point measurements through the use of a grid of relatively conductive lines.
50 Citations
11 Claims
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1. A touchscreen position sensor comprising
(a) a touch area having generally relatively low conductivity; -
(b) a relatively high conductivity border defining a perimeter on the touch area; (c) a grid of intermediate conductivity defining cells of relatively low conductivity within the high conductivity perimeter of the touch area, the relatively high conductivity border having a conductivity at least ten times greater than the conductivity of the relatively low conductivity touch area and the grid of intermediate conductivity having a conductivity at least four times greater than the relatively low conductivity touch area; (d) a set of electrodes attached to the high conductivity perimeter and connected to an electrical power source; (e) an electric circuit that measures the potential of a selected point on the touch area when brought in proximity thereto; (f) a controller that sequentially switches electrical power from the power source to a first group of the electrodes thereby establishing a first electrical potential distribution on the touch area, and then to a second group of said electrodes thereby establishing a second electrical potential distribution on the touch area; and (g) a controller that processes sets of potential measurements of said first and second electrical potential distributions from the electric circuit to determine the location of the selected point, wherein the controller may select subsets of a first set of cells to poll a subset of the cells. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of determining the location of a selected point on a sensor apparatus having a relatively highly conductive border surrounding an area of relatively low conductivity featuring a grid having a conductivity intermediate the conductivity of the border and low conductivity area, defining cells on the low conductivity area, and an associated set of electrodes through which electrical current may be applied to establish electric potential distribution on the conductive area, an electrical circuit that measures the potential of points on the conductive area when brought in proximity thereto and a controller, comprising the steps of:
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(a) introducing an electrical current to the border area through a first group of at least one electrode selected from said associated set of electrodes, and thereby establishing a first electric potential distribution within the border; (b) bringing the electrical circuit in proximity with a selected point within the border and thereby measuring a first potential reading of said point; (c) storing said first potential reading; (d) introducing an electrical current of the border area through a second group of at least one electrode selected from said associated set of electrodes and wherein not all of said first and second groups of electrodes are identical, and thereby establishing a second electric potential distribution within the border; (e) measuring the second potential reading of the selected point with the electrical circuit; and (f) processing said first and second potential readings to determine the location of the selected point, wherein the controller sequentially switches electrical power from the power source to a first subset of the electrodes thereby establishing a first subset electrical potential subset distributed within a first subset of cells as the touch area, and thereto a second subset of said electrodes thereby establishing a second subset of cells on the touch area, the controller processing the sets of potential measurements of said first and second subset electrical potential distributions to more precisely determine the location of the selected point within the cells of the intersection of the first and second subsets of cells. - View Dependent Claims (8, 9, 10)
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11. A method of determining the location of a selected point on a sensor apparatus having a relatively highly conductive border surrounding an area of relatively low conductivity featuring a grid having a conductivity intermediate the conductivity of the border and low conductivity area, defining cells on the low conductivity area, and an associated set of electrodes through which electrical current may be applied to establish electric potential distribution on the conductive area, an electrical circuit that measures the potential of points on the conductive area when brought in proximity thereto and a controller, comprising the steps of:
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(a) introducing an electrical current to the border area through a first group of at least one electrode selected from said associated set of electrodes, and thereby establishing a first electric potential distribution within the border; (b) bringing the electrical circuit in proximity with a selected point within the border and thereby measuring a first potential reading of said point; (c) storing said first potential reading; (d) introducing an electrical current of the border area through a second group of at least one electrode selected from said associated set of electrodes and wherein not all of said first and second groups of electrodes are identical, and thereby establishing a second electric potential distribution within the border; (e) measuring the second potential reading of the selected point with the electrical circuit; and (f) processing said first and second potential readings to determine the location of the selected point. the locations of multiple points of simultaneous contact being determined by polling separate subsets of cells, each subset of cells being selected to contain only one point of contact.
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Specification