Patent application number | Description | Published |
20110164365 | COMPONENT ASSEMBLY - A portable computing device is disclosed. The portable computing device can take many forms such as a laptop computer, a tablet computer, and so on. The portable computing device can include at least a single piece housing. The single piece housing including a plurality of steps. The plurality of mounting steps are formed by at least removing a preselected amount of housing material at predetermined locations on the interior surface. At least some of the mounting steps are used to mount at least some of the plurality of internal operating components to the housing. | 07-07-2011 |
20120044660 | BUTTON ASSEMBLY WITH DRIVE ASSEMBLY - A process is provided for characterizing a tactile response of a first mechanical actuator (e.g., button) based on a back off distance. The first mechanical actuator may include a plunger, a dome-shaped flexible membrane, and an electrical contact, all aligned with each other so that a contact signal is generated when the flexible membrane touches the contact. The plunger can be moved a first distance towards the contact until the contact signal is generated at a contact point. Then the plunger can be backed off a second distance from the contact point. This second distance may be called the “back off distance”. The particular feel of the first mechanical actuator can then be correlated to a particular back off distance. This process can be repeated a number of times to classify a number of different “feels” for the first mechanical actuator based on a number of different back off distances. | 02-23-2012 |
20120088067 | NON-CONTACT POLISHING TECHNIQUES FOR REDUCING ROUGHNESS ON GLASS SURFACES - Apparatus, systems and methods for reducing surface roughness on surface of a glass member using a non-contact polishing process are disclosed. According to one aspect, a method for processing a glass member suitable for use in a handheld electronic device includes obtaining the glass member and chemically strengthening the glass member. The glass member has at least one surface, and chemically strengthening the glass member increases roughness associated with the at least one surface. The method also includes applying a first non-contact polishing process to the glass member after chemically strengthening the glass member. Applying the first non-contact polishing process reduces the roughness associated with the at least one surface. | 04-12-2012 |
20120162095 | INTERNAL OPTICAL COATING FOR ELECTRONIC DEVICE DISPLAY - An internal optical coating includes multiple layers of different materials and thicknesses and is disposed between a transparent display cover and a visual display unit for an electronic device display. The optical coating transmits most visible light, reflects most non-visible light and substantially absorbs blackbody radiation generated from within the electronic device. The multiple layers comprise two or more materials having alternating low and high indices of refraction, and can include 36 or more layers, each having a thickness ranging from 10 to 400 nanometers. The arrangement and thicknesses of the layers are designed based upon the thickness and optical properties of the transparent display cover. The internal optical coating can also be specially formulated to replace a typical internal anti-reflective coating proximate the visual display unit. | 06-28-2012 |
20120194997 | COMPONENT ASSEMBLY - A portable computing device is disclosed. The portable computing device can take many forms, such as a laptop computer, a tablet computer, and so on. The portable computing device can include at least a single piece housing with a cavity having a substantially flat bottom wall. A battery assembly and main logic board can be mounted directly to the substantially flat bottom wall with a plurality of additional components arranged around a peripheral edge of the battery assembly and main logic board. | 08-02-2012 |
20120218219 | DISPLAYS WITH MINIMIZED BORDERS - An electronic device may be provided with a display having a flexible substrate with bent edges. The flexible substrate may have a planar active region that includes an array of light-emitting elements such as organic light-emitting diodes with associated control lines. The flexible substrate may also have inactive regions that lie outside of the active region. The bent edges may be formed from portions of the flexible substrate in the inactive regions. Traces for distributing control signals to the control lines in the active region may be formed in the inactive regions. Corner openings may be formed at the corners of the flexible substrate to accommodate bending of the flexible substrate in the inactive regions. A jumper or a portion of the flexible substrate that lies outside of a corner opening may be used to convey signals between traces on adjoining inactive regions. | 08-30-2012 |
20120242588 | ELECTRONIC DEVICES WITH CONCAVE DISPLAYS - Electronic devices may be provided with concave displays that reduce the risk of damage in the event of a drop while maximizing the internal volume of the device. Concave displays may be formed from one or more flexible layers including a flexible display layer. The flexible display layer may be mounted to a rigid support structure or a rigid cover layer. Flexible display layers that conform to the curved shape of a rigid cover structure provide additional internal volume in which internal components of the device may be positioned. | 09-27-2012 |
20130216067 | COMPONENT ASSEMBLY - A portable computing device is disclosed. The portable computing device can take many forms such as a laptop computer, a tablet computer, and so on. The portable computing device can include at least a single piece housing. The single piece housing including a plurality of steps. The plurality of mounting steps are formed by at least removing a preselected amount of housing material at predetermined locations on the interior surface. At least some of the mounting steps are used to mount at least some of the plurality of internal operating components to the housing. | 08-22-2013 |
20130220789 | BUTTON ASSEMBLY WITH DRIVE ASSEMBLY - A process is provided for characterizing a tactile response of a first mechanical actuator (e.g., button) based on a back off distance. The first mechanical actuator may include a plunger, a dome-shaped flexible membrane, and an electrical contact, all aligned with each other so that a contact signal is generated when the flexible membrane touches the contact. The plunger can be moved a first distance towards the contact until the contact signal is generated at a contact point. Then the plunger can be backed off a second distance from the contact point. This second distance may be called the “back off distance”. The particular feel of the first mechanical actuator can then be correlated to a particular back off distance. This process can be repeated a number of times to classify a number of different “feels” for the first mechanical actuator based on a number of different back off distances. | 08-29-2013 |
20140097835 | METHOD AND APPARATUS FOR DETECTING DIRECTION OF A MAGNETIC FIELD - An integrated system of sensors that can be used to detect a direction of an externally applied magnetic field is disclosed. In one embodiment, the system can be incorporated into a compact package that can be used within an electronic device. A processor can use signals provided by the sensor system to provide an indication of the direction of the externally applied magnetic field. In one embodiment, the sensors can take the form of analog sensors such as Hall Effect sensors configured in such a way that the direction of the externally applied magnetic field can be deduced based in part upon detection signals provided by the Hall Effect sensors. In one embodiment, the Hall Effect sensors can be stacked one atop the other in such a way that relative signal strength of the detection signals from the sensors can indicate the direction of the externally applied magnetic field. | 04-10-2014 |
20140174607 | RETENTION OF MAGNETIC PROPERTIES - Methods, systems, and apparatuses for retaining magnetic properties of magnetic elements while undergoing manufacturing processes are presented. In one embodiment, a manufacturing fixture includes a temperature controlled region suitable for retaining a magnetic element. The manufacturing fixture also includes a cooling mechanism configured to maintain the magnetic element at an acceptable temperature range during a thermally active manufacturing process. The temperature controlled or stabilized region can include a structure configured to receive the magnetic element and a sensor, or sensors. In one embodiment, the sensor can be configured to measure an ambient temperature of the temperature stabilized region. In another embodiment, the sensor can be a magnetic sensor configured to determine a magnetic property of the magnetic element. | 06-26-2014 |
20140272129 | COMPLIANT PERMEABLE GLUE APPLICATOR - An adhesive applicator including an adhesive dispenser to provide adhesive at a pressure and a compliant head adapted to rotate about a symmetry axis is provided. The compliant head includes a permeable material to provide the adhesive to an adhesive layer on a top surface of a substrate. The adhesive applicator may include a driver coupled to move the compliant head so that the symmetry axis forms a trajectory on a substrate. An applicator head including a foam matrix having pores with a pre-selected pore diameter and having a compliant surface to accommodate substrate geometry is also provided. The foam matrix is elastically deformable upon contact with the substrate geometry. A method for applying an adhesive layer to a substrate using an adhesive applicator as above is also provided. | 09-18-2014 |
20150116920 | Flexible Electronic Devices - Flexible electronic devices may be provided. A flexible electronic device may include a flexible display, a flexible housing and one or more flexible internal components configured to allow the flexible electronic device to be deformed. Flexible displays may include flexible display layers, flexible touch-sensitive layers, and flexible display cover layers. The flexible housing may be a multi-stable flexible housing having one or more stable positions. The flexible housing may include a configurable support structure that, when engaged, provides a rigid support structure for the flexible housing. The flexible internal components may include flexible batteries, flexible printed circuits or other flexible components. A flexible battery may include flexible and rigid portions or may include a lubricious separator layer that provides flexibility for the flexible battery. A flexible printed circuit may include flexible and rigid portions or openings that allow some rigid portions to flex with respect to other rigid portions. | 04-30-2015 |
20150360442 | COMPOSITE BONDED LEATHER CASES - Methods and computer program products for forming a composite structure are provided. The composite structure may include a first molded layer and a second molded layer. The molded layers may include leather particles, a binding agent, and structural fibers. Thereby, the composite structure may define a look and feel similar to natural sheets of leather. An intermediate member may be positioned between the first molded layer and the second molded layer to provide certain specified additional functionality such as bending resistance. | 12-17-2015 |
Patent application number | Description | Published |
20130044282 | Electronic Devices with Flexible Glass Polarizers - Electronic devices may be provided with displays having polarizer structures. Polarizer structures may incorporate flexible layers of glass. The flexible glass layers may be laminated to other sheets of material in the polarizer structures using roll-to-roll lamination equipment. After the polarizer structures are cut into panels, the panels may be laminated to liquid crystal display structures, organic light-emitting-diode display structures or other display structures using sheet-to-sheet lamination tools. Ultraviolet-light-blocking material may be incorporated into a display to prevent damage to the polarizer layers in the polarizer structures. Coatings such as antireflection coatings, antistatic coating, and anti-smudge coatings may be provided on the polarizer structures. Displays may use the flexible glass layers and additional protective layers to prevent a polarizer layer from being exposed to excessive moisture. A birefringent layer may be incorporated into a display and may serve as a protective layer for a polarizer. | 02-21-2013 |
20130076573 | Embedded Antenna Structures - An electronic device may be provided with antenna structures that are embedded in a dielectric such as plastic. The plastic may be molded over the antenna structures using molding equipment. Antenna structures may be embedded in molded plastic structures such as plastic electronic device housing structures. The plastic electronic device housing structures may form housing structures such as housing wall structures. The antenna structures may be embedded within the housing wall structures in the vicinity of an exterior surface of the housing wall structures. Embedded antenna structures may also be mounted under other dielectric structures such portions of a display cover layer. | 03-28-2013 |
20130076574 | Customizable Antenna Structures - Antenna structures may be customized to compensate for manufacturing variations in electronic device antennas. The antenna structures may include an antenna resonating element and a ground. Customizations may be made to the antenna structures by performing customization operations such as adding material, removing material, deforming material, and making electrical adjustments. Customizations may be performed to a conductive antenna resonating element structure, to a ground structure, or to associated antenna structures such as parasitic antenna elements. During manufacturing operations, antenna structures may be characterized by making radio-frequency antenna performance measurements. Antenna performance can be compared to desired performance levels and compensating customizations for the antenna structures can be identified. Customized antenna structures can be installed in electronic devices during manufacturing to produce devices that meet desired specifications. | 03-28-2013 |
20130082984 | DISPLAY AND MULTI-LAYER PRINTED CIRCUIT BOARD WITH SHARED FLEXIBLE SUBSTRATE - An electronic device may be provided with a display and a multi-layer printed circuit. Integrated circuits and other components may be mounted to the multi-layer printed circuit. The display and multi-layer printed circuit may share a common layer formed from a flexible substrate. The flexible substrate may have portions that are integrated into the display and portions that are integrated into the multi-layer printed circuit board. The flexible substrate may contain patterned conductive traces that are used to route signals from components in the multi-layer printed circuit to display circuitry such as a display driver integrated circuit. An array of thin-film transistors may be used to control the emission of light from the display and may be formed on portions of the flexible substrate that are integrated into the display. The display may be a flexible display that includes an array of organic light-emitting diodes. | 04-04-2013 |
20130083491 | Electronic Devices With Cover Layers Mounted to Displays - An electronic device may be provided with a display cover layer mounted to the device using an adhesive bond with a display. The display may be a flexible display. The flexible display may include Organic Light Emitting Diode display technology. The display may be mounted to a rigid support structure. The rigid support structure may be mounted to a device housing member. Mounting the display cover layer to the display may eliminate the need to mount the display cover layer to the device housing and may allow active display pixels to be visible under the display cover layer closer to the device housing than in conventional devices. Providing the electronic device with active display pixels closer to the device housing may reduce the need for an inactive border around the display and may improve the aesthetic appeal of the electronic device. | 04-04-2013 |
20130083496 | Flexible Electronic Devices - Flexible electronic devices may be provided. A flexible electronic device may include a flexible display, a flexible housing and one or more flexible internal components configured to allow the flexible electronic device to be deformed. Flexible displays may include flexible display layers, flexible touch-sensitive layers, and flexible display cover layers. The flexible housing may be a multi-stable flexible housing having one or more stable positions. The flexible housing may include a configurable support structure that, when engaged, provides a rigid support structure for the flexible housing. The flexible internal components may include flexible batteries, flexible printed circuits or other flexible components. A flexible battery may include flexible and rigid portions or may include a lubricious separator layer that provides flexibility for the flexible battery. A flexible printed circuit may include flexible and rigid portions or openings that allow some rigid portions to flex with respect to other rigid portions. | 04-04-2013 |
20130083506 | MULTI-LAYER TRANSPARENT STRUCTURES FOR ELECTRONIC DEVICE HOUSINGS - Transparent structures for portions of electronic device housings are disclosed. The transparent structures are formed from multiple layers of transparent (optically clear) materials. The multiple layers can include at least an outer glass layer and one or more other transparent layers that can be either glass or polymer layers. The multiple layers can be bonded together with one or more lamination layers. Accordingly, multi-layer transparent structures that are formed from multiple layers bonded together are able to be not only thin but also sufficiently strong and resistant to damage. The multi-layer transparent structures are well suited for use in consumer products, such as consumer electronic devices (e.g., portable electronic devices). | 04-04-2013 |
20130088671 | Displays with Minimized Border Regions - An electronic device may be provided with a display having a thin-film transistor layer. One or more holes in the thin-film transistor layer may be used to form pathways from display circuitry to other circuitry underneath the display. One or more conductive bridges may pass through holes in the thin-film transistor layer and may have one end that couples to the display circuitry and a second end that couples to a printed circuit underneath the display. These conductive bridges may be formed from wire bonding. Wire bond connections may be encapsulated with potting material to improve the reliability of the wire bond and increase the resiliency of the display. Display signal lines may be routed through holes in a thin-film transistor layer to run along a backside of the display thereby reducing the need for space in the border region for display circuitry. | 04-11-2013 |
20130094126 | Electronic Devices Having Displays with Openings - An electronic device may have a display. The display may have an active region in which display pixels are used to display images. The display may have one or more openings and may be mounted in a housing associated with the electronic device. An electronic component may be mounted in alignment with the openings in the display. The electronic component may include a camera, a light sensor, a light-based proximity sensor, status indicator lights, a light-based touch sensor array, a secondary display that has display pixels that may be viewed through the openings, antenna structures, a speaker, a microphone, or other acoustic, electromagnetic, or light-based component. One or more openings in the display may form a window through which a user of the device may view an external object. Display pixels in the window region may be used in forming a heads-up display. | 04-18-2013 |
20130314648 | Display With Broadband Antireflection Film - Display layers in an electronic device may be used to generate images. The display layers may include liquid crystal display layers such as upper and lower polarizers and a layer of liquid crystal material. A display cover layer may be mounted in a housing adhesive. A touch sensor layer may be mounted under the display cover layer. An air gap may separate the upper polarizer from the touch sensor layer and display cover layer. Antireflection coatings may be formed on the lower surface of the display cover layer or touch sensor layer and may be formed on the upper surface of the upper polarizer. The antireflection coatings may include coatings formed from a polymer hard coat covered with a polymer layer having a different index of refraction and may include broadband antireflection coating material formed from textured polymer or other structure exhibiting a continuously varying index of refraction. | 11-28-2013 |
20130328051 | Notched Display Layers - An electronic device may have a display mounted in a housing. The display may have layers such as polarizer layers, a color filter layer, and a thin-film transistor layer. Display layers such as color filter layers and thin-film-transistor layers may have glass substrates. Notches or other openings may be formed in the layers of a display. For example, a notch with a curved chamfered edge may be formed in a lower end of a thin-film-transistor layer. A component such as a button may overlap the notch. Structures such as sensors, cameras, acoustic components, and other electronic components, buttons, communications path structures such as flexible printed circuit cables and wire bonding wires, and housing structures may be received within a display layer notch. | 12-12-2013 |
20130342495 | Tape-Based Grounding Structures - An electronic device housing may have conductive walls and planar metal internal housing structures. A display in the electronic device may have a touch sensor layer such as an array of capacitive touch sensor electrodes. The display may have display layers in a plastic chassis structure and a metal chassis structure. A display layer may have a conductive surface. Conductive tape may be used to couple the touch sensor to the metal chassis structure and a metal radio-frequency shielding structure. Conductive tape may also be used to short the conductive surface of the display layer to the internal metal housing structure. Segments of conductive tape may run along each of the four edges of a display and may overlap at display corners. Conductive foam structures may be used to short the segments to adjacent portions of the conductive housing walls. | 12-26-2013 |
20130342970 | LOW-FORCE DUST SEAL - An electronic device may have polarizer layers, color filter layers, thin-film-transistor layers, and other display layers. A display layer may be separated from structures such as a display cover layer formed from clear glass or plastic and a touch sensor layer mounted on an inner surface of the display cover layer by an air gap. Cavities within an electronic device housing may serve as a source of dust and other contaminants. The air gap may be sealed against dust intrusion from a cavity within an electronic device using a dust sealing structure. The dust sealing structure may have a rectangular ring shape that runs around a rectangular peripheral portion of a display layer. The dust sealing structure may be formed from a tape-based structure, an elastomeric structure, a compressible foam structure, or a cured liquid structure. | 12-26-2013 |
20130343085 | Electronic Device Display Chassis - An electronic device display may include display layers mounted in a display chassis. The display chassis may have a plastic chassis structure and a metal chassis structure. Backlight structures may include a rectangular light guide plate. Light-emitting diodes within the backlight structures may emit light that is coupled into the light guide plate. The display chassis may have four edges that surround a rectangular opening. The rectangular opening may be configured to receive display layers such as the light guide plate. The metal chassis may have a C-shaped cross-section that forms a cavity in which the light-emitting diodes are mounted. The metal chassis structure may have engagement features such as holes and bent tabs. The plastic chassis structure may be overmolded on the metal chassis structure in engagement with the engagement features. Mounting structures may be formed from protruding portions of the plastic chassis structure. | 12-26-2013 |
20140003083 | THERMAL MITIGATION OF FLAT-PANEL DISPLAYS | 01-02-2014 |
20140118531 | Methods for Assembling Display Structures - Electronic devices may include displays. A display may include a display unit that includes an array of display pixels and a backlight unit that provides backlight illumination for the display pixels. An automated alignment system may be used to align the display unit to the backlight unit. The alignment system may include a camera, a control unit, and computer-controlled positioners. The control unit may gather alignment feature location information from the display unit and the backlight unit using the camera. The control unit may determine a centroid of the backlight unit based on the alignment feature location information. The alignment feature location information may include the respective locations of openings in the backlight unit. The control unit may operate computer-controlled positioners to align the display unit with respect to the backlight unit using the centroid and to subsequently attach the display unit to the backlight unit. | 05-01-2014 |
20140166350 | Methods for Forming Metallized Dielectric Structures - An electronic device may be provided with metal coated dielectric structures that serve as electromagnetic interference shielding, antenna structures, or other metal structures. The metal coated dielectric structures may be formed form a sheet of polymer. Metal may be deposited on the sheet of polymer using a deposition tool and patterned following deposition or may be patterned during deposition. A dielectric sheet having patterned metal may be shaped into a desired shape using molding equipment or other equipment that applies heat and pressure to the dielectric sheet and patterned metal. Metal on a dielectric sheet may also be patterned after the dielectric sheet is formed into a desired shape. Metal may be formed on opposing sides of the dielectric sheet. | 06-19-2014 |
20150070840 | Flexible Printed Circuit Cables With Service Loops and Overbending Prevention - An electronic device may have a signal cable formed from a flexible printed circuit. A service loop may be formed in the signal cable. The bend may be formed in a desired location on the flexible printed circuit by contraction of an elastic member having ends attached to the flexible printed circuit. The elastic member may be conductive to carry signals and provide shielding. Structures may be attached to the flexible printed circuit to promote bending in a desired location and direction. A crease or other bending promotion feature may be applied to the flexible printed circuit at a desired bend location. Overbending prevention structures such as overmolded elastomeric structures may be applied to the flexible printed circuit at the bend. Integral strain relief features may prevent overbending of the flexible printed circuit upon exiting the elastomeric structures. Overmolded structures may serve as protective bumpers. | 03-12-2015 |
20150144934 | Electronic Devices Having Displays With Openings - An electronic device may have a display. The display may have an active region in which display pixels are used to display images. The display may have one or more openings and may be mounted in a housing associated with the electronic device. An electronic component may be mounted in alignment with the openings in the display. The electronic component may include a camera, a light sensor, a light-based proximity sensor, status indicator lights, a light-based touch sensor array, a secondary display that has display pixels that may be viewed through the openings, antenna structures, a speaker, a microphone, or other acoustic, electromagnetic, or light-based component. One or more openings in the display may form a window through which a user of the device may view an external object. Display pixels in the window region may be used in forming a heads-up display. | 05-28-2015 |
20150287358 | Organic Light Emitting Diode Display Having Photodiodes - Systems, methods, and devices are provided in which photodetectors disposed throughout a display are used to control the display brightness. The photodetectors are to be used for ambient light sensing, proximity sensing, or to compensate for aging OLEDs. In some embodiments, photodiodes are fabricated with OLEDs during the TFT fabrication process. In some embodiments, the photodetectors may be disposed throughout the display in zones containing OLEDs. The photodetectors are used to control the display brightness and color for the OLEDs in areas around each photodetector based on ambient light, aging, and/or nearby objects. A controller makes driving strength adjustments to the OLEDs in each zone independent of other zones. Photodetectors disposed throughout the display may improve proximity sensing and provide additional functionality to the device. | 10-08-2015 |
20150331444 | Electronic Devices With Cover Layers Mounted to Displays - An electronic device may be provided with a display cover layer mounted to the device using an adhesive bond with a display. The display may be a flexible display. The flexible display may include Organic Light Emitting Diode display technology. The display may be mounted to a rigid support structure. The rigid support structure may be mounted to a device housing member. Mounting the display cover layer to the display may eliminate the need to mount the display cover layer to the device housing and may allow active display pixels to be visible under the display cover layer closer to the device housing than in conventional devices. Providing the electronic device with active display pixels closer to the device housing may reduce the need for an inactive border around the display and may improve the aesthetic appeal of the electronic device. | 11-19-2015 |
20160087329 | Embedded Antenna Structures - An electronic device may be provided with antenna structures that are embedded in a dielectric such as plastic. The plastic may be molded over the antenna structures using molding equipment. Antenna structures may be embedded in molded plastic structures such as plastic electronic device housing structures. The plastic electronic device housing structures may form housing structures such as housing wall structures. The antenna structures may be embedded within the housing wall structures in the vicinity of an exterior surface of the housing wall structures. Embedded antenna structures may also be mounted under other dielectric structures such portions of a display cover layer. | 03-24-2016 |
Patent application number | Description | Published |
20130083080 | OPTICAL SYSTEM AND METHOD TO MIMIC ZERO-BORDER DISPLAY - A system and methods to extending the overall display area for a device. At or near the borders of a device, pixel pitch between adjacent pixels may be increased such that overall pixel placement may be provided closer to a border of a display of a device. In one embodiment, pixel drive circuitry may be located in the spacing between adjacent pixels. Additionally, various optical systems and techniques may be utilized to provide an appearance of a lack of a border around the display such as decreasing the size of border pixels, overdriving the border pixels, or utilizing a light pipe on a surface above the border pixels. | 04-04-2013 |
20130135244 | EMBEDDED FORCE MEASUREMENT - Disclosed embodiments relate to a force detection system that detects force exerted on a flexible display based upon changes in resistance and/or capacitance. In one embodiment, a method includes measuring a baseline comprising a baseline resistance or a baseline capacitance or both of a force measurement layer disposed within or overlaid on the display panel. The method further includes detecting a change in the baseline resistance or the baseline capacitance or both and calculating a change location where the change in the baseline resistance or the baseline capacitance or both occurred. The method also includes calculating a magnitude of the change in the baseline resistance or the baseline capacitance or both. | 05-30-2013 |
20130135328 | DEVICES AND METHODS FOR PROVIDING ACCESS TO INTERNAL COMPONENT - Systems, methods, and devices are disclosed for applying concealment of components of an electronic device. In one embodiment, an electronic device may include a component that is disposed behind a display (e.g., a transparent organic light-emitting diode (OLED) display) that is configured to selectively become transparent at certain transparency regions. Additionally, the electronic device includes data processing circuitry configured to determine when an event requesting that the component be exposed occurs. The data processing circuitry may control portions of the display to become transparent, to expose the component upon the occurrence of the event requesting that the component be exposed. | 05-30-2013 |
20130194199 | ORGANIC LIGHT EMITTING DIODE DISPLAY HAVING PHOTODIODES - Systems, methods, and devices are provided in which photodetectors disposed throughout a display are used to control the display brightness. The photodetectors are to be used for ambient light sensing, proximity sensing, or to compensate for aging OLEDs. In some embodiments, photodiodes are fabricated with OLEDs during the TFT fabrication process. In some embodiments, the photodetectors may be disposed throughout the display in zones containing OLEDs. The photodetectors are used to control the display brightness and color for the OLEDs in areas around each photodetector based on ambient light, aging, and/or nearby objects. A controller makes driving strength adjustments to the OLEDs in each zone independent of other zones. Photodetectors disposed throughout the display may improve proximity sensing and provide additional functionality to the device. | 08-01-2013 |
20130321361 | DISPLAY HAVING INTEGRATED THERMAL SENSORS - Thermal sensors are disposed with OLEDs across a display of an electronic device to measure temperatures across the display surface. Thermal sensors may be used to create a temperature map across the display surface due to both the ambient environment and the internal environment of the electronic device. The thermal sensors may be disposed in the OLED layer, on a separate layer, or both. Thermal sensors may be disposed in a substantially 1:1 ratio with OLEDs or with zones of OLEDs. Both the temperature history and usage history for OLEDs may be recorded and processed to determine the age of each OLED. Controllers may adjust the driving strength of OLEDs or adjust the operation of components within the electronic device to compensate for aging or temperature based on the temperature map and age determination. Controllers may move static images from one part of the display to another less-aged part. | 12-05-2013 |
20150103050 | Embedded Force Measurement - Disclosed embodiments relate to a force detection system that detects force exerted on a flexible display based upon changes in resistance and/or capacitance. In one embodiment, a method includes measuring a baseline comprising a baseline resistance or a baseline capacitance or both of a force measurement layer disposed within or overlaid on the display panel. The method further includes detecting a change in the baseline resistance or the baseline capacitance or both and calculating a change location where the change in the baseline resistance or the baseline capacitance or both occurred. The method also includes calculating a magnitude of the change in the baseline resistance or the baseline capacitance or both. | 04-16-2015 |
Patent application number | Description | Published |
20140074575 | SYSTEMS AND METHODS TO PROGRAM INTERACTION WITH A USER THROUGH TRANSACTIONS IN MULTIPLE ACCOUNTS - In one aspect, a computing apparatus is configured to represent offer rules based on requirements for the detection of predefined types of events and actions scheduled to be performed in response to the detection of each occurrence of the events. The events are independent from each other in processing and are linked via prerequisite conditions to formulate the requirements of an offer campaign. The computing apparatus is configured to allow a user to register a plurality of different accounts; and a transaction in a first account of the user can be used to satisfy the prerequisite conditions for the detection of a subsequent event in the offer rules corresponding to a subsequent transaction in a second account different from the first account. Thus, the user can use any of the registered accounts to generate the events anticipated by different stages of the offer rules and thus trigger the respective actions. | 03-13-2014 |
20140074599 | SYSTEMS AND METHODS TO PROVIDE OFFERS VIA MULTIPLE MEDIA CHANNELS - A computing apparatus configured to target the same offer differently to users based on the media channels used to deliver the offer. The offer may include first qualification conditions formulated based on triggering events, such as the current location of a user, the current transaction of the user as being processed by a transaction handler. The offer may further include second qualification conditions not based on such triggering events. When a first set of media channels is used for offer delivery, the first qualification conditions are ignored; and the offer is delivered, via the first set of media channels, to users who satisfy the second qualification conditions. When a second set of media channels is used for offer delivery, the delivery of the offer is limited to users who satisfy both the first qualification conditions and the second qualification conditions. | 03-13-2014 |
20140129306 | SYSTEMS AND METHODS TO FACILITATE AN OFFER CAMPAIGN BASED ON THE RESULT OF A COMPETITION - Systems and methods configured to allow an offer campaign to be specified in connection with a competition on a social networking site. Users are classified into different groups based on a result of the competition; and the offer campaign provides different interaction experiences to users of different groups in accordance with the specification of the offer campaign. | 05-08-2014 |
20140129308 | SYSTEMS AND METHODS TO PROVIDE OFFER BENEFITS BASED ON ISSUER IDENTITY - Systems and methods configured to specify and/or deliver the benefit of an offer, based on the identity of an issuer of a consumer payment account with which the offer is associated and using which account a transaction qualifying for the offer is performed. | 05-08-2014 |
20140129313 | SYSTEMS AND METHODS TO FACILITATE AN OFFER CAMPAIGN BASED ON TRANSACTIONS WITH DIFFERENT MERCHANTS - Systems and methods configured to allow an offer campaign to be specified based on event requirements associated with multiple, different merchants. The event requirements are linked via prerequisite conditions to form the offer campaign. Each event may identify an event related to one merchant (e.g., a payment transaction for a purchase from the merchant) and an optional action to be performed in response to a user satisfying the requirements of the event. Each merchant in the offer campaign is allowed to insert an event related to the merchant, subsequently edit the inserted event, and identify other events in the offer campaign as prerequisite requirements of the event related to the merchant. Merchants may be prevented from inserting or editing events specific to other merchants. | 05-08-2014 |
20140365301 | SYSTEMS AND METHODS TO GENERATE OFFERS BASED ON TRANSACTION DATA - A computing apparatus includes an offer engine configured to generate offers on behalf of merchants based on transaction data and a reduced set of parameters, such as budget, timing, and logo. The offers may be generated to include offer terms, identification of targeted customers to whom the offers will be provided, identification of media channels through which the offers will be distributed, and other aspects that generated based on the transaction data in accordance with the reduced set of parameters. | 12-11-2014 |