Patent application number | Description | Published |
20100019780 | MULTI-AXIS CAPACITIVE SENSOR - Methods for determining the position of multiple objects concurrently disposed within a capacitive sensing region are described. In one embodiment, indicia are received from a first plurality of capacitive sensor electrodes oriented along a first axis. Indicia are received from a second plurality of capacitive sensor electrodes oriented along a second axis, wherein the second axis is oriented non-parallel to the first axis. Indicia are received from a third plurality of capacitive sensor electrodes oriented along a third axis, wherein the third axis is oriented non-parallel to the first axis and the second axis. Then, the indicia received from the first plurality of capacitive sensor electrodes, the indicia received from the second plurality of capacitive sensor electrodes, and the indicia received from the third plurality of capacitive sensor electrodes is used to determine the positions of the multiple objects concurrently disposed within the capacitive sensing region. | 01-28-2010 |
20120330590 | SYSTEM AND METHOD FOR SIGNALING IN GRADIENT SENSOR DEVICES - A processing system includes a transmitter module, a receiver module, and a determination module. The transmitter module is configured to transmit in accordance with a first excitation mode with a transmitter electrode during a first interval and a third interval of a sensing frame period, wherein, during the first excitation mode, a first voltage variation is generated in the transmitter electrode. The transmitter module is further configured to transmit in accordance with a second excitation mode with the transmitter electrode during a second interval of the sensing frame, wherein, during the second excitation mode, a second voltage variation different from the first voltage variation is generated in the transmitter electrode. The receiver module is configured to receive a first resulting signal with a receiver electrode during the first interval, receive a second resulting signal with the receiver electrode during the second interval, and receive a third resulting signal with the receiver electrode during the third interval. The determination module is configured to compute a first measurement of a change in capacitive coupling between the transmitter electrode and the receiver electrode based on the first resulting signal, compute a second measurement of a change in capacitive coupling between the transmitter electrode and the receiver electrode based on the second resulting signal, compute a third measurement of a change in capacitive coupling between the transmitter electrode and the receiver electrode based on the third resulting signal, and combine the first and third measurements. The determination module is further configured to determine positional information for an input object based on the second measurement and a combination of the first and third measurements | 12-27-2012 |
20130030740 | SYSTEMS AND METHODS FOR VOLTAGE GRADIENT SENSOR DEVICES - A processing system for an input device includes a transmitter module, a receiver module, and a determination module. The transmitter module including transmitter circuitry, and is configured to drive a first end of a transmitter electrode such that the transmitter electrode exhibits a first voltage gradient extending from the first end of the transmitter electrode toward a second end of the transmitter electrode, wherein the first voltage gradient comprises a set of substantially discrete voltage values. The receiver module includes receiver circuitry, the receiver module configured to receive a first resulting signal with a first receiver electrode while the transmitter module is driving the first end of the transmitter electrode. The determination module is configured to compute a first measurement of a change in capacitive coupling between the transmitter electrode and the receiver electrode based on the first resulting signal, and determine positional information for an input object based on the first measurement. | 01-31-2013 |
20130173211 | SYSTEMS AND METHODS FOR DETECTING LOW GROUND MASS CONDITIONS IN SENSOR DEVICES - A processing system for an input device includes a sensor module and a determination module. The sensor module includes sensor circuitry and is configured to acquire a first plurality of measurements of change in capacitive coupling between each sensor electrode of a first set of sensor electrodes and a second set of sensor electrodes. The sensor module is further configured to acquire a second plurality of measurements of change in capacitive coupling between each sensor electrode of the second set of sensor electrodes and an input object. The determination module is configured to determine a first combined measurement based on the first plurality of measurements, determine a second combined measurement based on the second plurality of measurements, and determine positional information for the input object based on a low ground mass parameter. The low ground mass parameter is based on the first combined measurement and the second combined measurement. | 07-04-2013 |
20130181942 | SINGLE LAYER CAPACITIVE IMAGING SENSORS - Embodiments of the invention generally provide an input device that includes a plurality of sensing elements that are interconnected in desired way to acquire positional information of an input object, so that the acquired positional information can be used by other system components to control a display or other useful system components. One or more of the embodiments described herein, utilizes one or more of the techniques and sensor electrode array configuration disclosed herein to reduce or minimize the number of traces and/or electrodes required to sense the position of an input object within a sensing region of the input device. | 07-18-2013 |
20130181943 | SINGLE LAYER CAPACITIVE IMAGING SENSORS - Embodiments of the invention generally provide an input device that includes a plurality of sensing elements that are interconnected in desired way to acquire positional information of an input object, so that the acquired positional information can be used by other system components to control a display or other useful system components. One or more of the embodiments described herein, utilizes one or more of the techniques and sensor electrode array configuration disclosed herein to reduce or minimize the number of traces and/or electrodes required to sense the position of an input object within a sensing region of the input device. | 07-18-2013 |
20130249850 | SYSTEM AND METHOD FOR DETERMINING RESISTANCE IN AN INPUT DEVICE - A processing system for an input device includes a transmitter module, a receiver module, and a determination module. The transmitter module includes transmitter circuitry and is configured to apply a first differential drive signal across a transmitter electrode to produce a first voltage variation across the transmitter electrode. The receiver module is configured to receive a first resulting signal with a receiver electrode when the first voltage variation is produced across the transmitter electrode. The determination module is configured to determine at least one of a resistance of the transmitter electrode and a resistance of a conductive trace coupled to the transmitter electrode based on the first resulting signal. As a result, an error in the position of an input object can be corrected. | 09-26-2013 |
20130253863 | SYSTEM AND METHOD FOR SENSING MULTIPLE INPUT OBJECTS WITH GRADIENT SENSOR DEVICES - A processing system for an input device includes a transmitter module including transmitter circuitry, a receiver module, and a determination module. The transmitter module is configured to drive the transmitter electrode with a first drive signal to produce a first voltage gradient across the transmitter electrode, wherein the first voltage gradient is non-linear. The receiver module is configured to receive a first resulting signal with a receiver electrode, the resulting signal comprising effects of the first voltage gradient. The determination module is configured to determine positional information for a plurality input objects located simultaneously within a sensing region along the transmitter electrode based on the first resulting signal. | 09-26-2013 |
20130328821 | SYSTEM AND METHOD FOR GRADIENT IMAGING SENSORS - A processing system for an input device includes a transmitter module, a receiver module, and a determination module. The transmitter module, which includes transmitter circuitry, is coupled to a plurality of transmitter electrodes and configured to drive a first end of a first transmitter electrode of the plurality of transmitter electrodes to produce a first voltage gradient across the first transmitter electrode. The receiver module is configured to receive a plurality of resulting signals with a plurality of receiver electrodes, the plurality of resulting signals each comprising effects of the first voltage gradient. The determination module is configured to determine a two-dimensional capacitive image based on the plurality of resulting signals, and determine positional information for a first input object located within a sensing region based on the capacitive image. | 12-12-2013 |
20130346008 | SYSTEMS AND METHODS FOR REDUCING EFFECTS OF INTERFERENCE IN INPUT DEVICES - The embodiments described herein provide devices and methods that facilitate improved input device performance. Specifically, the devices and methods provide improved resistance to the effect of interference on input devices, and in particular, to the effect of unison noise on proximity sensors that use capacitive techniques to generate images of sensor values. The devices and methods provide improved resistance to the effects of interface by using multiple images of sensor values, where the multiple images of sensor values are captured at different times along two different axes. The multiple images of sensor values are combined to produce a modified image of sensor values, the modified image having reduced errors due to noise. This reduction in errors due to noise can improve the accuracy and performance of the input device. | 12-26-2013 |
20140062938 | SYSTEMS AND METHODS FOR REDUCING EFFECTS OF INTERFERENCE IN INPUT DEVICES - The embodiments described herein provide devices and methods that facilitate improved input device performance. Specifically, the devices and methods provide improved resistance to the effect of interference on input devices, and in particular, to the effect of unison noise on proximity sensors that use capacitive techniques to generate images of sensor values. The devices and methods provide improved resistance to the effects of interface by using images of sensor values and one or more profiles of sensor values. An image of sensor values is combined with one or more profiles of sensor values to produce a modified image of sensor values, the modified image having reduced errors due to noise. This reduction in errors due to noise can improve the accuracy and performance of the input device. | 03-06-2014 |
20140132552 | SYSTEM AND METHOD FOR FINITE ELEMENT IMAGING SENSOR DEVICES - A processing system includes a transmitter module, a receiver module, and a determination module. The transmitter module is configured to drive a first contact, a second contact, and a third contact of a first transmitter electrode, wherein the first contact is disposed between the second contact and the third contact. This produces a first voltage gradient between the first contact and the second contact, and produces a second voltage gradient between the first contact and the third contact. The receiver module receives, with a first receiver electrode, a first resulting signal including effects of the first voltage gradient, and to receive, with a second receiver electrode, a second resulting signal comprising effects of the second voltage gradient. The determination module determines positional information for an input object located within a sensing region based on the first resulting signal and the second resulting signal. | 05-15-2014 |
20140267128 | DEVICE AND METHOD FOR LOCALIZED FORCE AND PROXIMITY SENSING - 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. | 09-18-2014 |
20140267134 | SHEAR FORCE DETECTION USING CAPACITIVE SENSORS - An input device having a sensing region overlapping an input surface includes a first substrate, a second substrate physically coupled to the first substrate, and a sensor electrode disposed on the first substrate and configured to detect input objects in the sensing region. A first force sensor includes a first electrode disposed on the first substrate and a first conductive portion of the second substrate capacitively coupled with the first electrode. The first conductive portion is configured to move relative to the first electrode such that a first variable capacitance of the first force sensor changes in response to force applied to the input surface in a first direction parallel to the touch surface. | 09-18-2014 |
20140267143 | SYSTEM AND METHOD FOR A TRANSCAPACITIVE PROXIMITY SENSING DEVICE - A processing system for a transcapacitive input device configured to detect input objects in a sensing region of the input device includes a transmitter module including transmitter circuitry, a receiver module, and a determination module. The transmitter module is configured to simultaneously transmit, using a plurality of transmitter electrodes, a plurality of transmitter signals according to a plurality of significantly non-orthogonal digital codes. At least two codes of the plurality of significantly non-orthogonal digital codes are significantly non-orthogonal. The receiver module is configured to receive, with a plurality of receiver electrodes, a plurality of resulting signals. Each resulting signal of the plurality of resulting signals comprises multiple effects corresponding to multiple transmitter signals of the plurality of transmitter signals. The determination module is configured to determine object information for input in the sensing region using the plurality of resulting signals. | 09-18-2014 |