| SYNAPTICS INCORPORATED Patent applications |
| Patent application number | Title | Published |
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| 20120120017 | SYSTEM AND METHOD FOR DETERMINING OBJECT INFORMATION USING AN ESTIMATED DEFLECTION RESPONSE - The embodiments described herein provide devices and methods that facilitate improved performance. Specifically, the devices and methods provide the ability to determine object information for objects causing deflection of a surface of a capacitive sensor device. The devices and methods are configured to determine an estimated deflection response associated with a deflection of the at least one sensing electrode using a set of sensor values, where the deflection was caused by one or more objects in contact with the input surface. The estimated deflection response at least partially accounts for effects of capacitive coupling with the object(s) in contact with the input surface, Object information may then be generated using the estimated deflection response. Where the input device is used to direct an electronic system the object information may be used to facilitate a variety of interface actions on a variety of different electronic systems. | 05-17-2012 |
| 20120111119 | METHOD AND APPARATUS FOR SENSING AN INPUT OBJECT RELATIVE TO A SENSING REGION OF AN ULTRASOUND SENSOR DEVICE - A subsystem, system and method for sensing an input object relative to a sensing region of an ultrasound sensor device are disclosed herein. In one embodiment, a subsystem for sensing an input object relative to a sensing region of an ultrasound sensor device includes a circuit, a switch coupled to an output of the circuit, and an integrating capacitor coupled to the output of the circuit. The circuit has an input for receiving a resulting signal comprising positive and negative polarities, the resulting signal having effects indicative of the input object relative to the sensing region. The integrating capacitor is also coupled to a substantially constant voltage source and to the switch. The circuit is operable to output a rectified signal to the first integrating capacitor indicative of the input object relative to a sensing region. | 05-10-2012 |
| 20120075249 | PROXIMITY SENSING FOR CAPACITIVE TOUCH SENSORS - A method and apparatus for operating an input device having an array of capacitive sensor electrodes and a proximity sensor electrode are disclosed herein. The input device includes a processing system communicatively coupled to the array of capacitive sensor electrodes and the proximity sensor electrode and configured to operate in an input mode and a proximity mode. When operating in the input mode, the processing system scans the array of capacitive sensor electrodes to detect input from an object in an active region of the input device. When operating in the proximity mode, the processing system drives a sensing signal on at least one sensor electrode of the array of capacitive sensor electrodes and receives a resulting signal from the proximity sensor electrode. Based on the resulting signal, the processing system generates an indication of an object presence in a second sensing region from the resulting signal. | 03-29-2012 |
| 20120075199 | INPUT DEVICE WITH TRANSMISSION ELEMENT ACTUATED SWITCH - An input device, and a method for providing an input device, are provided. The input device includes a touch sensor substrate having a first side and a second side. The second side is opposite the first side. At least one sensor electrode is disposed on the sensor substrate, and the at least one sensor electrode is configured to sense input objects in a sensing region on the first side. A switch is disposed on the second side of the touch sensor substrate. The input device also includes a transmission element having first and second portions. The transmission element is configured such that sufficient depression of the first portion causes the second portion to actuate the switch. | 03-29-2012 |
| 20120068968 | TOUCH PAD WITH FLEXIBLE SUBSTRATE - A touch sensor device is provided that uses a flexible circuit substrate to provide an improved input device. Specifically, the present invention uses a touch sensor controller affixed to the flexible circuit substrate, which is coupled to a sensor component to provide a flexible, reliable and cost effective touch sensor suitable for a wide variety of applications. In one embodiment the touch sensor uses a flexible circuit substrate that provides relatively high temperature resistance. This allows the touch sensor controller to be affixed using reliable techniques, such as various types of soldering. The sensor component can comprise a relatively low-temperature-resistant substrate that can provide a cost effective solution. Taken together, this embodiment of the touch sensor provides reliability and flexibility at relatively low cost. | 03-22-2012 |
| 20120068966 | SYSTEMS AND METHODS FOR SIGNALING AND INTERFERENCE DETECTION IN SENSOR DEVICES - An input device processing system comprises a sensor module that transmits a first transmitter signal with a transmitter electrode and receives a resulting signal with a receiver electrode. The first transmitter signal comprises a first transmitter frequency, and the resulting signal comprises effects corresponding to the first transmitter signal. A demodulation module demodulates the resulting signal to produce a first signal (e.g., an upper sideband signal) and a second signal (a lower sideband signal), selectably determines a first measurement of a change in capacitive coupling between the transmitter electrode and the receiver electrode based on at least one of the first and second signals, and determines positional information for an input object based on the first measurement. | 03-22-2012 |
| 20120068949 | SYSTEMS AND METHODS FOR SIGNALING AND INTERFERENCE DETECTION IN SENSOR DEVICES - An input device processing system comprises a sensor module that transmits a first transmitter signal with a transmitter electrode and receives a resulting signal with a receiver electrode. The first transmitter signal comprises a first transmitter frequency, and the resulting signal comprises effects corresponding to the first transmitter signal. A demodulation module demodulates the resulting signal to produce a first signal (e.g., an upper sideband signal) and a second signal (a lower sideband signal), selectably determines a first measurement of a change in capacitive coupling between the transmitter electrode and the receiver electrode based on at least one of the first and second signals, and determines positional information for an input object based on the first measurement. | 03-22-2012 |
| 20120001855 | SYSTEM AND METHOD FOR DISTINGUISHING INPUT OBJECTS - The embodiments described herein provide devices and methods that facilitate improved sensor device usability. Specifically, the devices and methods provide the ability to determine more reliably that sensed object positions correspond to a single input object or multiple input objects. For example, the devices and methods may be used to determine if a first sensed object position and a second sensed object position correspond to a single input object. The determination of a single input object or multiple input objects may be used to facilitate the reliable activation of user interface actions, such as cursor control and the use of virtual button zones, and thus can improve sensor device usability. | 01-05-2012 |
| 20110278078 | INPUT DEVICE WITH FORCE SENSING - Devices and methods are provided that utilize a first electrode disposed on a first substrate and a second electrode disposed on a second substrate, where the first electrode and the second electrode define at least part of a variable capacitance. A third substrate is arranged between the first substrate and the second substrate, the third substrate having an opening arranged such that at least a portion of the first electrode and the second electrode overlap the opening. A transmission element is provided that partially overlaps the opening. The transmission element is physically coupled to the second electrode such that a force biasing the transmission element causes the second electrode to deflect relative to the first electrode, thus changing the variable capacitance. A measurement of the variable capacitance may then be used to determine force information. | 11-17-2011 |
| 20110277030 | SYSTEM AND METHOD FOR AUTHENTICATION OF INPUT DEVICES - Systems and methods are provided for authenticating an input device subsystem for operation with a host. One method includes storing a table comprising challenges and a plurality of values indicative of authentic responses to the plurality of challenges. A selected challenge is then communicated between the input device subsystem and the host. A challenge response is derived based on the selected challenge and a hashing algorithm, and the challenge response is communicated between the input device subsystem and the host. The challenge response and one or more of the values is used to determine whether the challenge response is authentic. Functionality of the input device subsystem with the host is selectively enabled if the challenge response is authentic. | 11-10-2011 |
| 20110175671 | INPUT DEVICE WITH FLOATING ELECTRODES HAVING AT LEAST ONE APERTURE - Devices and methods are provided that facilitate improved input device performance. The devices and methods utilize a transmitter sensor electrode and a receiver sensor electrode that are capacitively coupled to form a transcapacitance for capacitively sensing input objects in a sensing region. A measure of the transcapacitance may be used to determine positional information for the input objects in the sensing region. In accordance with the various embodiments, the devices and methods include a floating electrode that is ohmically insulated from other electrical elements during operation. A first portion of the floating electrode overlaps a portion of the transmitter sensor electrode and a second portion of the floating electrode overlaps a portion of the receiver sensor electrode. The floating electrode additionally includes at least one aperture within the first portion of the floating electrode, where the at least one aperture at least in part overlaps the transmitter sensor electrode. | 07-21-2011 |
| 20110154268 | METHOD AND APPARATUS FOR OPERATING IN POINTING AND ENHANCED GESTURING MODES - Methods and apparatuses for implementing gesture command recognition functionality is disclosed. The apparatuses may operate in a pointing mode and operate in an enhanced gesturing mode. While in the enhanced gesturing mode, the apparatuses may cause associated actions in response to recognizing sliding inputs as gesture commands. The gesture commands may be selectively associated with actions based on localities. The apparatuses may present overlays with information content independent of gesture command recognition. The apparatuses may change appearances of visual representations of sliding inputs in response to recognizing the sliding inputs as gesture commands. | 06-23-2011 |
| 20110148786 | METHOD AND APPARATUS FOR CHANGING OPERATING MODES - An input device comprising a sensing element (and perhaps other sensing elements) and a processing system coupled to the sensing element is disclosed. The processing system is configured to operate in a first mode, to change from operating in the first mode to operating in a second mode in response to recognizing a characteristic object motion in the sensing, and to operate in the second mode. The first mode may be a pointing mode and the second mode may be an enhanced gesturing mode. The processing system recognizes a first type of sliding input in the sensing region as a pointing command while in the pointing mode, and recognizes the first type of sliding input in the sensing region as one of the plurality of gesture commands (associated with a plurality of different gesture actions) while in the enhanced gesturing mode. Methods and program products are also disclosed. | 06-23-2011 |
| 20110148438 | SYSTEM AND METHOD FOR DETERMINING A NUMBER OF OBJECTS IN A CAPACITIVE SENSING REGION USING A SHAPE FACTOR - An input device and method are provided that facilitate improved usability. The input device comprises an array of capacitive sensing electrodes and a processing system. The processing system is configured to receive sensing signals from the capacitive sensing electrodes and generate a plurality of sensing values. The processing system is further configured to calculate a sensing profile from the sensing values, calculate a profile span from the sensing values, and determine a shape factor from the sensing profile and the profile span. Finally, the processing system is configured to determine a number of objects in the sensing region from the determined shape factor. Thus, the sensor device facilitates the determination of the number of objects in the sensing region. | 06-23-2011 |
| 20110148436 | SYSTEM AND METHOD FOR DETERMINING A NUMBER OF OBJECTS IN A CAPACITIVE SENSING REGION USING SIGNAL GROUPING - An input device and method are provided that facilitate improved usability. The input device comprises an array of capacitive sensing electrodes and a processing system. The processing system is configured to receive sensing signals from the capacitive sensing electrodes and generate a plurality of sensing values, each of the plurality of sensing values corresponding to a sensing electrode in the first array of capacitive sensing electrodes. The processing system is further configured to produce a plurality of positional values corresponding to a plurality of groups of electrodes in the first array of capacitive sensing electrodes; analyze the plurality of positional values to determine if one or more clusters exist in the plurality of positional values; and determine a number of objects in the sensing region from the determined one or more clusters in the plurality of positional values. | 06-23-2011 |
| 20110141053 | SYSTEM AND METHOD FOR MEASURING INDIVIDUAL FORCE IN MULTI-OBJECT SENSING - An input device is provided that facilitates improved user interface functionality by determining force information for each of multiple objects in a sensing region. The input device includes a processing system, a sensor configured to sense objects in a sensing region proximate a surface, and a plurality of force sensors. The plurality of force sensors are coupled to the surface to provide a plurality of measures of force applied to the surface. The processing system is configured to determine positional information for each the multiple objects sensed by the sensor in the sensing region. Furthermore, the processing system is configured to determine force information for each of the multiple objects from the positional information and the plurality of measures of force applied to the surface. Thus, device and method provides the ability to determine both positional information and force information for each of multiple objects in a sensing region. | 06-16-2011 |
| 20110074732 | METHODS AND SYSTEMS FOR DETECTING A POSITION-BASED ATTRIBUTE OF AN OBJECT USING DIGITAL CODES - Methods, systems and devices are described for detecting a position-based attribute of a finger, stylus or other object with a touchpad or other sensor having a touch-sensitive region that includes a plurality of electrodes. Modulation signals for one or more electrodes are produced as a function of any number of distinct digital codes. The modulation signals are applied to an associated at least one of the plurality of electrodes to obtain a resultant signal that is electrically affected by the position of the object. The resultant signal is demodulated using the plurality of distinct digital codes to discriminate electrical effects produced by the object. The position-based attribute of the object is then determined with respect to the plurality of electrodes from the electrical effects. | 03-31-2011 |
| 20110074723 | METHODS AND SYSTEMS FOR DETECTING A POSITION-BASED ATTRIBUTE OF AN OBJECT USING DIGITAL CODES - Methods, systems and devices are described for detecting a position-based attribute of a finger, stylus or other object with a touchpad or other sensor having a touch-sensitive region that includes a plurality of electrodes. Modulation signals for one or more electrodes are produced as a function of any number of distinct digital codes. The modulation signals are applied to an associated at least one of the plurality of electrodes to obtain a resultant signal that is electrically affected by the position of the object. The resultant signal is demodulated using the plurality of distinct digital codes to discriminate electrical effects produced by the object. The position-based attribute of the object is then determined with respect to the plurality of electrodes from the electrical effects. | 03-31-2011 |
| 20110001704 | CAPACITIVE MOUSE - A pointing device some or all of whose elements are made from capacitive sensors. Such elements may include a rotary motion detector which includes a rotating member and a plurality of fixed capacitive detecting members; a rolling ball with patterned conductive surface and a plurality of fixed capacitive detecting members; capacitive touch sensors or capacitive switches to serve as mouse buttons; and a scrolling wheel, knob, or touch surface built from capacitive sensors. The pointing device further includes a capacitance measuring circuit and processor to measure variations of capacitance on the various capacitive elements and to determine the movement of and other activations of the mouse. | 01-06-2011 |
| 20110001703 | CAPACITIVE MOUSE - A pointing device some or all of whose elements are made from capacitive sensors. Such elements may include a rotary motion detector which includes a rotating member and a plurality of fixed capacitive detecting members; a rolling ball with patterned conductive surface and a plurality of fixed capacitive detecting members; capacitive touch sensors or capacitive switches to serve as mouse buttons; and a scrolling wheel, knob, or touch surface built from capacitive sensors. The pointing device further includes a capacitance measuring circuit and processor to measure variations of capacitance on the various capacitive elements and to determine the movement of and other activations of the mouse. | 01-06-2011 |
| 20110001494 | METHODS AND SYSTEMS FOR SIGMA DELTA CAPACITANCE MEASURING USING SHARED COMPONENTS - Methods, systems and devices are described for detecting a measurable capacitance using sigma-delta charge transfer techniques that can be implemented with many standard microcontrollers, and can share components to reduce device complexity and improve performance. In the various implementations of this embodiment, the passive network used to accumulate charge can be shared between multiple measurable capacitances. A switch or IO controlling the charge sharing and/or charge changing can also be shared Likewise, in various implementations a voltage conditioning circuit configured to provide a variable reference voltage can be shared between multiple measurable capacitances. Finally, in various implementations a guarding electrode configured to guard the measurable capacitances can be shared between multiple measurable capacitances. In each of these cases, sharing components can reduce device complexity and improve performance. | 01-06-2011 |
| 20100321034 | SYSTEM AND METHOD FOR DETECTING INTERFERNCE IN A SENSOR DEVICE USING PHASE SHIFTING - A capacitive sensor device and method is configured to respond a stimulus provided in a sensing region with an output signal. A signal generator is configured to apply a carrier signal to the capacitive sensor device. The carrier signal is switched between a plurality of phases at a switching rate, where the switching rate is less than a demodulation filter bandwidth. The result of the carrier phase shifting is that effects of interference in the output signal are frequency shifted away from the effects of user applied stimulus. An interference detection filter is configured to filter from the sensor outputs at least one effect produced by the stimulus. An interference measuring device is configured to determine a level of interference in the at least one interference output. Thus, the system can detect interference in the output of the capacitive sensor device. | 12-23-2010 |
| 20100308847 | METHODS AND SYSTEMS FOR GUARDING A CHARGE TRANSFER CAPACITANCE SENSOR FOR PROXIMITY DETECTION - Methods, systems and devices are described for determining a measurable capacitance for proximity detection in a sensor having a plurality of sensing electrodes and at least one guarding electrode. A charge transfer process is executed for at least two executions. The charge transfer process includes applying a pre-determined voltage to at least one of the plurality of sensing electrodes using a first switch, applying a first guard voltage to the at least one guarding electrode using a second switch, sharing charge between the at least one of the plurality of sensing electrodes and a filter capacitance, and applying a second guard voltage different from the first guard voltage to the at least one guarding electrode. A voltage is measured on the filter capacitance for a number of measurements equal to at least one to produce at least one result to determine the measurable capacitance for proximity detection. | 12-09-2010 |
| 20100308844 | INPUT DEVICE AND METHOD WITH PRESSURE-SENSITIVE LAYER - Devices and methods are provided that facilitate improved input device performance. Specifically, the devices and methods facilitate input using a pressure-sensitive layer whose electrical admittivity changes in response to pressure applied to a touch surface. An input device is provided that comprises a plurality of sensor electrodes including a set of primary sensor electrodes and a set of secondary sensor electrodes. Each primary sensor electrode is electrically coupled to at least one secondary sensor electrode to form a set of electrical admittances. In one embodiment, the pressure-sensitive layer is located between the sensor electrodes and the touch surface, such that changes in the admittivity of the pressure-sensitive layer in response to pressure on the touch surface cause corresponding changes in the admittances between the primary and secondary sensor electrodes. | 12-09-2010 |
| 20100302153 | DEPRESSABLE TOUCH SENSOR - An input device and a method for providing an input device are provided. The input device assembly includes a base, a sensor support, and a scissor mechanism attached to the base and the sensor support. The scissor mechanism allows for only substantially uniform translation of the sensor support towards the base in response to a force biasing the sensor support substantially towards the base. | 12-02-2010 |
| 20100300772 | DEPRESSABLE TOUCH SENSOR - An input device and a method for providing an input device are provided. The input device assembly includes a base, a sensor support, and a guide mechanism attached to the base and the sensor support. The guide mechanism allows for only substantially uniform translation of the sensor support towards the base in response to a force biasing the sensor support substantially towards the base. | 12-02-2010 |
| 20100289503 | EXTENDED PROXIMITY SENSOR DEVICE WITH ELECTROSTATIC DISCHARGE PROTECTION - An input device is provided with improved electrostatic discharge protection. Specifically, the input device includes a plurality of capacitive sensing electrodes configured for object detection. An electrostatic discharge (ESD) shunt is disposed near the capacitive sensing electrodes and configured to provide ESD protection to the capacitive sensing electrodes. The input device also includes an extended-proximity capacitive sensing electrode configured to for object detection of relatively distant objects. The ESD shunt has an associated first resistance, and the extended-proximity capacitive sensing electrode has an associated second resistance. The second resistance is greater than the first resistance such that an electrostatic discharge at a first exposed location would be attracted to the ESD shunt via a first potential discharge path instead of being attracted to the extended-proximity capacitive sensing electrode via a second potential discharge path, where the first discharge path is longer than the second discharge path. | 11-18-2010 |
| 20100275163 | TOUCH SCREEN WITH USER INTERFACE ENHANCEMENT - The present invention is a graphical user interface in a computing device having a processor running an operating system and a display. The graphical user interface comprises a touch screen and a driver coupling the touch screen to the operating system. The driver can display a plurality of icons on the touch screen, or a plurality of screen images having at least one icon, with each of the icons associated with operations on the display and/or the touch screen. Other embodiments include the touch screen having unactivated and activated states, as well as the presence of an application programming interface that enables an application to display at least one image on the touch screen. | 10-28-2010 |
| 20100275033 | TOUCH SCREEN WITH USER INTERFACE ENHANCEMENT - The present invention is a graphical user interface in a computing device having a processor running an operating system and a display. The graphical user interface comprises a touch screen and a driver coupling the touch screen to the operating system. The driver can display a plurality of icons on the touch screen, or a plurality of screen images having at least one icon, with each of the icons associated with operations on the display and/or the touch screen. Other embodiments include the touch screen having unactivated and activated states, as well as the presence of an application programming interface that enables an application to display at least one image on the touch screen. | 10-28-2010 |
| 20100253651 | INPUT DEVICE WITH DEFLECTABLE ELECTRODE - Devices and methods are provided that facilitate improved input device performance. The devices and methods utilize a set of sensor electrodes comprising at least one transmitter sensor electrode and at least one receiver sensor electrode that are capacitively coupled to form a transcapacitance for capacitively sensing input objects in a sensing region. A measure of the transcapacitance may be used to determine positional information for the input objects in the sensing region. In accordance with the various embodiments, the devices and methods additionally utilize at least one deflectable electrode, where the deflectable electrode is electrically floating. The deflectable electrode is configured to be deflectable toward the set of sensor electrodes, where the deflection causes a change in the transcapacitance. | 10-07-2010 |
| 20100253645 | INPUT DEVICE WITH CAPACITIVE FORCE SENSOR AND METHOD FOR CONSTRUCTING THE SAME - Input devices which include a capacitive force sensor, along with methods of making and using such, are provided. The input device includes a structural component having first and second substantially opposing sides, a plurality of sensor electrodes located on the first side of the structural component, the plurality of sensor electrodes configured to capacitively sense positional information associated with user input in a sensing region, a first capacitive electrode located on the second side of the structural component, the first capacitive electrode being configured to capacitively couple to a second capacitive electrode that is separated from the first capacitive electrode by a gas and moveable relative to the first capacitive electrode, and a biasing member configured to be physically coupled to the structural component such that a force associated with the user input causes a change in a separation distance between the first and second capacitive electrodes based on the force. | 10-07-2010 |
| 20100214250 | TOUCH SCREEN WITH USER INTERFACE ENHANCEMENT - The present invention is a graphical user interface in a computing device having a processor running an operating system and a display. The graphical user interface comprises a touch screen and a driver coupling the touch screen to the operating system. The driver can display a plurality of icons on the touch screen, or a plurality of screen images having at least one icon, with each of the icons associated with operations on the display and/or the touch screen. Other embodiments include the touch screen having unactivated and activated states, as well as the presence of an application programming interface that enables an application to display at least one image on the touch screen. | 08-26-2010 |
| 20100148806 | METHODS AND SYSTEMS FOR DETECTING A CAPACITANCE USING SIGMA-DELTA MEASUREMENT TECHNIQUES - Methods, systems and devices are described for detecting a measurable capacitance using sigma-delta measurement techniques. According to various embodiments, a voltage is applied to the measurable capacitance using a first switch. The measurable capacitance is allowed to share charge with a passive network. If the charge on the passive network is past a threshold value, then the charge on the passive network is changed by a known amount for a sufficient number of repetitions until the measurable capacitance can be detected. Such a detection scheme may be readily implemented using conventional components, and can be particularly useful in sensing the position of a finger, stylus or other object with respect to a button, slider, touchpad or other input sensor. | 06-17-2010 |
| 20100097332 | INPUT DEVICE AND METHOD FOR ADJUSTING A PARAMETER OF AN ELECTRONIC SYSTEM - Input devices and methods are provided for effecting adjustment, in which a sensing system is adapted to detect motion of a first object and a second object in a sensing region and a processing system coupled to the sensing system. The processing system is adapted to detect a change in position of the first object relative to the second object, the first and second objects being simultaneously present in the sensing region, and effect a change in a parameter in response to a motion of the first object in the sensing region. | 04-22-2010 |
| 20100090712 | SENSOR DEVICE AND METHOD WITH AT SURFACE OBJECT SENSING AND AWAY FROM SURFACE OBJECT SENSING - Methods, systems and devices are described for determining positional information for objects using a sensing device. The various embodiments provide improved user interface functionality by facilitating user input with both objects that are at the surfaced and objects that are away from the surface. The sensor device includes a processing system and a sensor array of sensing electrodes adapted to capacitively sense objects in a sensing region. First, the processing system is configured to determine positional information for objects at the surface in a first portion of the sensing region. Secondly, the processing system is configured to determine positional information for objects that are away from the surface and in a second portion of the sensing region, where the first portion of the sensing region is between the surface and the second portion of the sensing region. | 04-15-2010 |
| 20100045310 | SYSTEM AND METHOD FOR MEASURING A CAPACITANCE AND SELECTIVELY ACTIVATING AN INDICATING TRANSDUCER - Systems and methods for sensing capacitances that are applicable to proximity sensor devices are provided. The systems and methods provide decreased implementation costs by reducing the number of output terminals required. Specifically, the systems and methods for sensing capacitances provide the ability to selectively activate indicating transducers, such as LEDs, with the same output terminals used for sensing capacitances. This reduces the need for additional, dedicated output terminals for activating the indicating transducers. As such, the system and method provides for efficient use of resources in proximity sensor devices. | 02-25-2010 |
| 20090289902 | PROXIMITY SENSOR DEVICE AND METHOD WITH SUBREGION BASED SWIPETHROUGH DATA ENTRY - A touch sensor device and method is provided that facilitates improved device usability. Specifically, the device and method provide improved user interface functionality by facilitating quick and easy data entry using proximity sensors with limited space. The electronic device includes a processing system and a sensor adapted to detect strokes in a sensing region. The device is adapted to provide user interface functionality by defining a plurality of subregions in the sensing region and producing an output responsive to the sensor detecting a stroke that meets a set of criteria. The produced output corresponds to a selected option, and the option is selected from a plurality of options based on a subregion identified by a portion of the stroke and a direction of the stroke. By so defining a plurality of subregions, and facilitating the selection of options based on subregion identified by a stroke and the direction of the stroke, the electronic device facilitates fast and flexible user input in a limited space. | 11-26-2009 |
| 20090288889 | PROXIMITY SENSOR DEVICE AND METHOD WITH SWIPETHROUGH DATA ENTRY - A touch sensor device and method is provided that facilitates improved device usability. Specifically, the touch screen device and method provide user interface functionality while reducing the possibility of inadvertent activation of certain functions. The touch screen device comprises a proximity sensor adapted to detect object presence in a sensing region, a display screen overlapping the sensing region, and a processing system. The touch screen device is adapted to provide user interface functionality by facilitating the display of user interface elements and the selection and activation of corresponding functions. For certain functions, the touch screen device and method uses the presence of a second object to confirm selection of a function before that function will be performed. So configured, the touch device screen is able to reduce the likelihood of inadvertent activation for certain functions on the device. | 11-26-2009 |
| 20090283342 | FINGER/STYLUS TOUCH PAD - A touch pad module to implement user input functions to an electronic device is disclosed. The touch pad module includes a sensor layer which, when used in conjunction with an insulative layer and contiguous conductive layer enable the touch pad module to sense both finger and stylus input data to the electronic device. | 11-19-2009 |
| 20090278812 | METHOD AND APPARATUS FOR CONTROL OF MULTIPLE DEGREES OF FREEDOM OF A DISPLAY - A method for controlling multiple degrees of freedom of a display using a single contiguous sensing region of a sensing device is disclosed. The single contiguous sensing region is separate from the display. The method comprises: detecting a gesture in the single contiguous sensing region; causing rotation about a first axis of the display if the gesture is determined to comprise multiple input objects concurrently traveling along a second direction; causing rotation about a second axis of the display if the gesture is determined to comprise multiple input objects concurrently traveling along a first direction; and causing rotation about a third axis of the display if the gesture is determined to be a type of gesture that comprises multiple input objects. The first direction may be nonparallel to the second direction. | 11-12-2009 |
| 20090206852 | METHODS AND SYSTEMS FOR GUARDING A CHARGE TRANSFER CAPACITANCE SENSOR FOR PROXIMITY DETECTION - Methods, systems and devices are described for determining a measurable capacitance for proximity detection in a sensor having a plurality of sensing electrodes and at least one guarding electrode. A charge transfer process is executed for at least two executions. The charge transfer process includes applying a pre-determined voltage to at least one of the plurality of sensing electrodes using a first switch, applying a first guard voltage to the at least one guarding electrode using a second switch, sharing charge between the at least one of the plurality of sensing electrodes and a filter capacitance, and applying a second guard voltage different from the first guard voltage to the at least one guarding electrode. A voltage is measured on the filter capacitance for a number of measurements equal to at least one to produce at least one result to determine the measurable capacitance for proximity detection. | 08-20-2009 |
| 20090201261 | METHOD AND APPARATUS FOR EXTENDED ADJUSTMENT BASED ON RELATIVE POSITIONING OF MULTIPLE OBJECTS CONTEMPORANEOUSLY IN A SENSING REGION - A touch sensor device and method is provided that facilitates improved device usability. Specifically, the device and method provide improved user interface functionality by facilitating extended parameter adjustment using proximity sensor devices. The device includes a processing system and a sensor adapted to detect objects in a sensing region. The device is adapted to provide user interface functionality by determining a measurement descriptive of a location of a first object relative to a location of a second object, and applying a first rate for adjusting a visual parameter such that the visual parameter adjusts even if the first object is stationary relative to the second object, where the first rate is based on the measurement. By so providing a first rate for adjusting a parameter, the device facilitates extended user input. | 08-13-2009 |
| 20090174416 | METHODS AND SYSTEMS FOR DETECTING A CAPACITANCE USING SWITCHED CHARGE TRANSFER TECHNIQUES - Methods, systems and devices are described for detecting a measurable capacitance using charge transfer techniques. According to various embodiments, a charge transfer process is performed for two or more times. During the charge transfer process, a pre-determined voltage is applied to the measurable capacitance, and the measurable capacitance is then allowed to share charge with a filter capacitance through a passive impedance that remains coupled to both the measurable capacitance and to the filter capacitance throughout the charge transfer process. The value of the measurable capacitance can then be determined as a function of a representation of a charge on the filter capacitance and the number of times that the charge transfer process was performed. Such a detection scheme may be readily implemented using conventional components, and can be particularly useful in sensing the position of a finger, stylus or other object with respect to an input sensor. | 07-09-2009 |
| 20090054107 | HANDHELD COMMUNICATION DEVICE AND METHOD FOR CONFERENCE CALL INITIATION - A handheld communication device and method is provided that facilitates improved device usability. The handheld communication device and method uses a touch screen interface, where the touch screen comprises a proximity sensor adapted to detect object motion in a sensing region, a display screen overlapping the sensing region, and a processor. The touch screen is adapted to provide user interface functionality on the communication device by facilitating the display of user interface elements and the selection and activation of corresponding functions. The handheld communication device and method are configured to display representations of calls on the display screen, and are further configured to initiate conference calls responsive to sensed object motion beginning at a first call representation and continuing toward a second call representation. Thus, a user can initiate a conference call with a relatively simple and easy to perform gesture on the touch screen. | 02-26-2009 |
| 20090051660 | PROXIMITY SENSOR DEVICE AND METHOD WITH ACTIVATION CONFIRMATION - A touch sensor device and method is provided that facilitates improved device usability. Specifically, the touch screen device and method provide user interface functionality while reducing the possibility of inadvertent activation of certain functions. The touch screen device comprises a proximity sensor adapted to detect object presence in a sensing region, a display screen overlapping the sensing region, and a processor. The touch screen device is adapted to provide user interface functionality by facilitating the display of user interface elements and the selection and activation of corresponding functions. For certain functions, the touch screen device and method uses the presence of a second object to confirm selection of a function before that function will be performed. So configured, the touch device screen is able to reduce the likelihood of inadvertent activation for certain functions on the device. | 02-26-2009 |
| 20090040191 | CAPACITIVE TOUCH SENSOR WITH CONDUCTIVE TRACE LINES IN BONDING REGION - Methods and apparatus are provided for a capacitive touch sensor including a circuit substrate (which may be a flexible substrate) having a touch sensor controller coupled to a plurality of contacts through a plurality of conductive traces. The contacts are formed on a first (bottom) side of the circuit substrate while the conductive traces are formed on a second (top) side of the circuit substrate, but are ohmically (electrically) coupled to the contacts through the use of conductive vias. This arrangement of conductive traces, vias and contacts allows the conductive traces to reside over the contacts and within the bonding region resulting in an improvement of over fifty percent in wasted space as compared to conventional touch sensors. | 02-12-2009 |
| 20090039902 | METHODS AND SYSTEMS FOR DETECTING A CAPACITANCE USING SIGMA-DELTA MEASUREMENT TECHNIQUES - Methods, systems and devices are described for detecting a measurable capacitance using sigma-delta measurement techniques. According to various embodiments, a voltage is applied to the measurable capacitance using a first switch. The measurable capacitance is allowed to share charge with a passive network. If the charge on the passive network is past a threshold value, then the charge on the passive network is changed by a known amount for a sufficient number of repetitions until the measurable capacitance can be detected. Such a detection scheme may be readily implemented using conventional components, and can be particularly useful in sensing the position of a finger, stylus or other object with respect to a button, slider, touchpad or other input sensor. | 02-12-2009 |
| 20090015566 | METHOD AND APPARATUS FOR INITIATING ONE-DIMENSIONAL SIGNALS WITH A TWO-DIMENSIONAL POINTING DEVICE - Scrolling or other user interface functions are provided in response to two-dimensional inputs produced by a touchpad or other input device. The user initially touches the touch sensor in an area near a periphery of the touch sensor and moves his or her finger along the periphery of the device, and then provides a subsequent motion of the finger across the touch sensor in a direction that departs from the periphery. The amount of scrolling produced on the computing system may be determined as a function of a distance moved by the user's finger. | 01-15-2009 |
| 20090015559 | INPUT DEVICE AND METHOD FOR VIRTUAL TRACKBALL OPERATION - Input devices and methods are provided in which a sensing system is adapted to detect motion of an object on a surface and a processing system is coupled to the sensing system. The processing system is adapted to effect movement of a display pointer on a display in a first direction in response to motion of the object on the surface and effect continued movement of the display pointer in the first direction in response to the object being removed from the surface. | 01-15-2009 |
| 20090002339 | TOUCH PAD WITH FLEXIBLE SUBSTRATE - A touch sensor device is provided that uses a flexible circuit substrate to provide an improved input device. Specifically, the present invention uses a touch sensor controller affixed to the flexible circuit substrate, which is coupled to a sensor component to provide a flexible, reliable and cost effective touch sensor suitable for a wide variety of applications. In one embodiment the touch sensor uses a flexible circuit substrate that provides relatively high temperature resistance. This allows the touch sensor controller to be affixed using reliable techniques, such as various types of soldering. The sensor component can comprise a relatively low-temperature-resistant substrate that can provide a cost effective solution. Taken together, this embodiment of the touch sensor provides reliability and flexibility at relatively low cost. | 01-01-2009 |
| 20080284738 | PROXIMITY SENSOR AND METHOD FOR INDICATING A DISPLAY ORIENTATION CHANGE - A proximity sensor device and method is provided that facilitates orientation changes in displays. The proximity sensor device and method provide a user with the ability to indicate an orientation change in a display using the sensing region of a proximity sensor device as a user interface. In one specific embodiment, proximity sensor device is implemented to indicate an orientation change in a first way responsive to detected object motion along the sensing region in a first direction, and is further implemented to indicate an orientation change in a second way responsive to detected object motion along the sensing region in a second direction. Thus, a user can cause orientation changes of different ways through the use of object motions in different directions along the sensing region. | 11-20-2008 |
| 20080284736 | PROXIMITY SENSOR DEVICE AND METHOD WITH KEYBOARD EMULATION - A proximity sensor device and method is provided that facilitates improved device usability by providing a at least one control function prior to the specialized host software loading, and then switch to provide full range of functionality when the specialized host software has been loaded. In one embodiment, the proximity sensor device comprises a proximity sensor adapted to detect object presence and a controller configured to output simulated keyboard information and output object positional information. For example, when operating in a first mode prior to the specialized host software loading the controller outputs the simulated keyboard information that indicates a control function to a keyboard controller. Then, when operating in a second mode after the specialized host software has been loaded, the controller outputs object positional information to the keyboard controller. The object positional information can be used to provide a full range of user interface functions. | 11-20-2008 |
