Device and method for localized force and proximity sensing
First Claim
1. An input device comprising:
- a first plurality of sensor electrodes disposed in a first layer and configured to detect input objects at an input surface of the input device, the first plurality of sensor electrodes including a first subset of transmitter electrodes;
a second plurality of sensor electrodes configured to toggle between a grounded state and a force receiver state, detect a force imparted to the input surface, and configured for capacitive coupling with the first subset of transmitter electrodes;
a compressible dielectric configured to compress in response to force applied to the input surface; and
a processing system communicatively coupled to the first plurality of sensor electrodes and the second plurality of sensor electrodes and configured to;
drive a sensing signal onto the first subset of transmitter electrodes;
receive a first type of resulting signal from the second plurality of sensor electrodes;
receive a second type of resulting signal from a second subset of the first plurality of sensor electrodes; and
determine positional and force information for an input object based on the first type of resulting signal and the second type of resulting signal,wherein the first type of resulting signal is received from the second plurality of sensor electrodes while the second subset of the first plurality of sensor electrodes is at a predetermined constant voltage, and the second type of resulting signal is received from the second subset of the first plurality of sensor electrodes while the second plurality of sensor electrodes is at the predetermined constant voltage, andwherein the capacitive coupling between the first subset of transmitter electrodes and the second plurality of sensor electrodes varies in response to the applied force.
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Accused Products
Abstract
Methods, systems and devices are described for operating an electronic system which includes a first plurality of sensor electrodes disposed in a first layer and configured to detect input objects at an input surface of the input device, the first plurality of sensor electrodes including a first subset of transmitter electrodes; a second plurality of sensor electrodes configured to detect a force imparted to the input surface and configured for capacitive coupling with the first subset of transmitter electrodes; and a compressible dielectric configured to compress in response to force applied to the input surface. The capacitive coupling between the transmitter electrodes and the second plurality of sensor electrodes is configured to vary in response to the applied force.
64 Citations
17 Claims
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1. An input device comprising:
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a first plurality of sensor electrodes disposed in a first layer and configured to detect input objects at an input surface of the input device, the first plurality of sensor electrodes including a first subset of transmitter electrodes; a second plurality of sensor electrodes configured to toggle between a grounded state and a force receiver state, detect a force imparted to the input surface, and configured for capacitive coupling with the first subset of transmitter electrodes; a compressible dielectric configured to compress in response to force applied to the input surface; and a processing system communicatively coupled to the first plurality of sensor electrodes and the second plurality of sensor electrodes and configured to; drive a sensing signal onto the first subset of transmitter electrodes; receive a first type of resulting signal from the second plurality of sensor electrodes; receive a second type of resulting signal from a second subset of the first plurality of sensor electrodes; and determine positional and force information for an input object based on the first type of resulting signal and the second type of resulting signal, wherein the first type of resulting signal is received from the second plurality of sensor electrodes while the second subset of the first plurality of sensor electrodes is at a predetermined constant voltage, and the second type of resulting signal is received from the second subset of the first plurality of sensor electrodes while the second plurality of sensor electrodes is at the predetermined constant voltage, and wherein the capacitive coupling between the first subset of transmitter electrodes and the second plurality of sensor electrodes varies in response to the applied force. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An input device comprising:
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a first plurality of sensor electrodes disposed in a first layer and configured to detect input objects in an input surface of the input device, the first plurality of sensor electrodes including a first subset of transmitter electrodes; a second plurality of sensor electrodes disposed in a second layer such that the first layer is disposed between the input surface and the second layer, the second plurality of sensor electrodes being configured to detect a force imparted to the input surface and configured for capacitive coupling with the first subset of transmitter electrodes; a compressible dielectric configured to compress in response to force applied to the input surface such that the capacitive coupling between the transmitter electrodes and the second plurality of sensor electrodes varies in response to the applied force; and a processing system communicatively coupled to the first plurality of sensor electrodes and the second plurality of sensor electrodes and configured to; drive a sensing signal onto the first subset of transmitter electrodes;
receive a first type of resulting signal, including effects of the force imparted on the input surface, from the second plurality of sensor electrodes;receive a second type of resulting signal, including effects of an input object in proximity to the input surface, from a second subset of the first plurality of sensor electrodes; and determine positional and force information for the input object based on the first and second type of resulting signals, wherein the first type of resulting signal is received from the second plurality of sensor electrodes while the second subset of sensor electrodes is at a predetermined constant voltage, and the second type of resulting signal is received from the second subset of sensor electrodes while the second plurality of sensor electrodes is at a predetermined constant voltage. - View Dependent Claims (10, 11)
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12. An input device comprising:
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a first plurality of sensor electrodes, a second plurality of sensor electrodes, and a third plurality of sensor electrodes disposed in a single layer of a sensor substrate; a compressible dielectric disposed between the sensor substrate and a conductor; and a processing system communicatively coupled to the first, second, and third pluralities of sensor electrodes and configured to; drive a sensing signal onto the first plurality of sensor electrodes; receive a first type of resulting signal from the second plurality of sensor electrodes, the first type of resulting signal comprising effects of a capacitive coupling between the first plurality and the second plurality of sensor electrodes; receive a second type of resulting signal from the third plurality of sensor electrodes, the second type of resulting signal comprising effects of a capacitive coupling between the first plurality and the third plurality of sensor electrodes; determine positional and force information from the first type of resulting signal and the second type of resulting signal; and control the capacitive coupling between the first plurality of sensor electrodes and the second plurality of sensor electrodes using an electrode from the third plurality of sensor electrodes such that the capacitive coupling remains substantially constant in response to a deflection of the sensor substrate relative to the conductor. - View Dependent Claims (13, 14, 15)
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16. A processing system for use with an input device of the type including a plurality of transmitter electrodes, a first plurality of sensor electrodes configured to detect input objects at an input surface, a second plurality of sensor electrodes configured to detect a force imparted to the input surface, and a compressible dielectric configured to compress in response to force applied to the input surface, wherein a capacitive coupling between the transmitter electrodes and the second plurality of sensor electrodes varies in response to the applied force, the processing system communicatively coupled to the transmitter electrodes and the first and second plurality of sensor electrodes and configured to:
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drive a sensing signal onto the transmitter electrodes; receive a first type of resulting signal from the first plurality of sensor electrodes; receive a second type of resulting signal from a second plurality of sensor electrodes; determine positional and force information for an input object based on the first and second type of resulting signals; and after driving the sensing signal onto the transmitter electrodes, repeatedly; receive the first type of resulting signal; and thereafter receive the second type of resulting signal, wherein the first type of resulting signal is received from the first plurality of sensor electrodes while the second plurality of sensor electrodes is at a predetermined constant voltage, and the second type of resulting signal is received from the second plurality of sensor electrodes while the first plurality of sensor electrodes is at the predetermined constant voltage. - View Dependent Claims (17)
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Specification