Electrode crossovers
First Claim
1. A touch sensor comprising:
- a plurality of drive electrodes comprising a plurality of drive electrode structures each coupled to an adjacent drive electrode structure by a first strip of conductive material; and
a plurality of sense electrodes comprising a plurality of sense electrode structures each coupled to an adjacent sense electrode structure by a second strip of conductive material, the plurality of sense electrode structures being formed on a same layer as the plurality of drive electrode structures, the first or second strip of conductive material comprising one or more conductive crossovers that each couple two drive electrode structures to each other or couple two sense electrode structures to each other;
a microcontroller configured to alternately reverse the roles of the plurality of drive electrodes and the plurality of sense electrodes by;
applying a signal at one end of the plurality of drive electrodes to drive the plurality of drive electrodes while the plurality of sense electrodes receive signals; and
applying a signal at one end of the plurality of sense electrodes to drive the plurality of sense electrodes while the plurality of drive electrodes receive signals, andwherein at least a portion of one or more of the conductive crossovers is disposed in a separate layer from the drive or sense electrodes.
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0 Petitions
Accused Products
Abstract
In one embodiment, a touch sensor includes drive electrodes. The drive electrodes include drive electrode structures that are each coupled to an adjacent drive electrode structure by a first strip of conductive material. The touch sensor also includes sense electrodes. The sense electrodes include sense electrode structures that are each coupled to an adjacent sense electrode structure by a second strip of conductive material. The sense electrode structures are formed on a same layer as the drive electrode structures. The first or second strip of conductive material include one or more conductive crossovers that each couple two drive electrode structures to each other or couple two sense electrode structures to each other.
35 Citations
14 Claims
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1. A touch sensor comprising:
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a plurality of drive electrodes comprising a plurality of drive electrode structures each coupled to an adjacent drive electrode structure by a first strip of conductive material; and a plurality of sense electrodes comprising a plurality of sense electrode structures each coupled to an adjacent sense electrode structure by a second strip of conductive material, the plurality of sense electrode structures being formed on a same layer as the plurality of drive electrode structures, the first or second strip of conductive material comprising one or more conductive crossovers that each couple two drive electrode structures to each other or couple two sense electrode structures to each other; a microcontroller configured to alternately reverse the roles of the plurality of drive electrodes and the plurality of sense electrodes by; applying a signal at one end of the plurality of drive electrodes to drive the plurality of drive electrodes while the plurality of sense electrodes receive signals; and applying a signal at one end of the plurality of sense electrodes to drive the plurality of sense electrodes while the plurality of drive electrodes receive signals, and wherein at least a portion of one or more of the conductive crossovers is disposed in a separate layer from the drive or sense electrodes. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A device comprising:
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a touch sensor comprising; a plurality of drive electrodes comprising a plurality of drive electrode structures each coupled to an adjacent drive electrode structure by a first strip of conductive material; and a plurality of sense electrodes comprising a plurality of sense electrode structures each coupled to an adjacent sense electrode structure by a second strip of conductive material, the plurality of sense electrode structures being formed on a same layer as the plurality of drive electrode structures, the first or second strip of conductive material comprises one or more conductive crossovers that each couple two drive electrode structures to each other or couple two sense electrode structures to each other; a computer-readable non-transitory storage medium embodying logic that is configured when executed to control the touch sensor; and a microcontroller configured to alternately reverse the roles of the plurality of drive electrodes and the plurality of sense electrodes by; applying a signal at one end of the plurality of drive electrodes to drive the plurality of drive electrodes while the plurality of sense electrodes receive signals; and applying a signal at one end of the plurality of sense electrodes to drive the plurality of sense electrodes while the plurality of drive electrodes receive signals, and wherein at least a portion of one or more of the conductive crossovers is disposed in a separate layer from the drive or sense electrodes. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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Specification