Device and method for proximity sensing with force imaging
First Claim
1. An input device for an electronic system, comprising:
- a pliable component comprising;
an input surface;
a plurality of transmitter electrodes;
a plurality of touch receiver electrodes above the plurality of transmitter electrodes;
a plurality of force receiver electrodes below the plurality of transmitter electrodes; and
a floating electrode below at least one of the plurality of force receiver electrodes;
a conductive substrate spaced apart from the pliable component; and
a compliant component comprising a plurality of air gaps and disposed between the pliable component and the conductive substrate,wherein the pliable component locally deforms in response to a force applied by an input object to the input surface,wherein the force pushes the floating electrode towards the conductive substrate decreasing a spacing between the conductive substrate and the floating electrode, andwherein the force displaces gas in the plurality of air gaps increasing the effective dielectric constant associated with the region between the floating electrode and the conductive substrate; and
a processing system communicatively coupled to the first plurality of transmitter electrodes, the plurality of touch receiver electrodes, and the plurality of force receiver electrodes and configured to;
transmit a sensing signal onto a subset of the plurality of transmitter electrodes;
receive, from a subset of the plurality of touch electrodes, a first resulting signal comprising capacitive effects of input object presence proximate the input surface; and
receive, from a subset of the plurality of force receiver electrodes, a second resulting signal comprising capacitive effects of both the increased effective dielectric constant and the decreased space between the floating electrode and the conductive substrate,wherein the first and second resulting signals are both based at least on the sensing signal transmitted onto the subset of the plurality of transmitter electrodes.
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Accused Products
Abstract
Methods, systems and devices are described for operating an electronic system which includes a pliable component having an input surface, a first array of sensor electrodes, a second array of sensor electrodes, and a third array of sensor electrodes. The input device also includes a conductive substrate spaced apart from the pliable component and a compliant component disposed between the pliable component and the conductive substrate. In response to pressure applied by an input object to the input surface, the pliable component and the first, second, and third arrays of sensor electrodes locally deform and the compliant component locally compresses such that a spacing between the conductive substrate and at least one electrode from each of the first, second, and third arrays decreases.
53 Citations
14 Claims
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1. An input device for an electronic system, comprising:
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a pliable component comprising; an input surface; a plurality of transmitter electrodes; a plurality of touch receiver electrodes above the plurality of transmitter electrodes; a plurality of force receiver electrodes below the plurality of transmitter electrodes; and a floating electrode below at least one of the plurality of force receiver electrodes; a conductive substrate spaced apart from the pliable component; and a compliant component comprising a plurality of air gaps and disposed between the pliable component and the conductive substrate, wherein the pliable component locally deforms in response to a force applied by an input object to the input surface, wherein the force pushes the floating electrode towards the conductive substrate decreasing a spacing between the conductive substrate and the floating electrode, and wherein the force displaces gas in the plurality of air gaps increasing the effective dielectric constant associated with the region between the floating electrode and the conductive substrate; and a processing system communicatively coupled to the first plurality of transmitter electrodes, the plurality of touch receiver electrodes, and the plurality of force receiver electrodes and configured to; transmit a sensing signal onto a subset of the plurality of transmitter electrodes; receive, from a subset of the plurality of touch electrodes, a first resulting signal comprising capacitive effects of input object presence proximate the input surface; and receive, from a subset of the plurality of force receiver electrodes, a second resulting signal comprising capacitive effects of both the increased effective dielectric constant and the decreased space between the floating electrode and the conductive substrate, wherein the first and second resulting signals are both based at least on the sensing signal transmitted onto the subset of the plurality of transmitter electrodes. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
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12. An input device comprising:
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a pliable component having an input surface, a first array of touch receiver electrodes, a second array of transmitter electrodes, a third array of force receiver electrodes, and a fourth array of floating electrodes; a substantially constant potential conductive substrate spaced apart from the pliable component; a compressible elastomer layer disposed between the pliable component and the conductive substrate, wherein the compressible elastomer layer locally compresses in response to a force applied by an input object on the input surface, increasing the effective dielectric constant in the region between the fourth array of floating electrodes and the conductive substrate, wherein the pliable component locally deforms in response to the force such that relative positions of the first, second, and third arrays remain substantially constant, wherein the fourth array of floating electrodes moves towards the conductive substrate in response to the force, decreasing a distance between the fourth array and the conductive substrate; and a processing system configured to; receive, from a subset of the first array of touch receiver electrodes, a first resulting signal comprising capacitive effects of input object presence proximate the input surface; receive, from a subset of the third array of force receiver electrodes, a second resulting signal comprising capacitive effects of the increased dielectric constant and the decreased distance between the fourth array of floating electrodes and the conductive substrate; and determine input object position from at least the first resulting signal and the force from the second resulting signal, wherein the first and second resulting signals are both based at least on a sensing signal transmitted onto a subset of the second array of sensor electrodes.
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13. A processing system for use with an input device comprising:
- i) a pliable component having an input surface, a first array of touch receiver electrodes, a second array of transmitter electrodes, a third array of force receiver electrodes, and a fourth array of floating electrodes;
ii) a constant potential conductive substrate spaced apart from the pliable component; and
iii) a compressible elastomer layer disposed between the pliable component and the conductive substrate such that, in response to a force applied by an input object on the input surface, the pliable component locally deforms and the elastomer layer locally compresses causing a spacing between the conductive substrate and at least one electrode from the fourth array to decrease and the effective dielectric constant in the region between the fourth array of floating electrodes and the conductive substrate to increase,the processing system communicatively coupled to the first, second, and third arrays and configured to; transmit a sensing signal on at least one electrode of the second array of sensor electrodes; receive a first resulting signal from the first array, the first resulting signal comprising capacitive effects of input object presence proximate the input surface; receive a second resulting signal from the third array, the second resulting signal comprising capacitive effects of the decrease in the spacing and the increase in the dielectric constant; and determine input object position from at least the first resulting signal and the force from the second resulting signal, wherein the first and second resulting signals are both based at least on the sensing signal transmitted onto the at least one electrode of the second array of sensor electrodes. - View Dependent Claims (14)
- i) a pliable component having an input surface, a first array of touch receiver electrodes, a second array of transmitter electrodes, a third array of force receiver electrodes, and a fourth array of floating electrodes;
Specification