Patent application number | Description | Published |
20100103612 | THERMAL SPRAY COATING FOR SEAMLESS AND RADIO-TRANSPARENT ELECTRONIC DEVICE HOUSING - Electronic devices and other apparatuses adapted to receive electromagnetic wave communications are disclosed. An outer housing encloses various device components, including at least an internal antenna located fully therewithin and adapted to receive/send communications from/to an outside source via RF or other electromagnetic waves. A ceramic coating can be a thermal spray coating that covers at least a portion of the outer surface proximate to the internal antenna, and can be “RF transparent”—adapted to allow communications to/from the internal antenna via electromagnetic waves. The outer housing can be plastic, metal or a combination thereof. For metal or other non-RF transparent housings, an RF-transparent insert can be fitted into a window in the housing to permit communications to the internal antenna. The ceramic coating covers some or all of the metal, plastic and/or insert that comprise the outer housing and surface for a final aesthetic finish to the device. | 04-29-2010 |
20110012873 | DISPLAY MODULES - An electronic device may have a display. The display may have active components such as display pixels formed on a display substrate layer. The display substrate layer may be formed from a glass substrate layer. Thin-film transistors and other components for the display pixels may be formed on the glass substrate. An encapsulation glass layer may be bonded to the glass substrate using a ring-shaped bond structure. The ring-shaped bond structure may extend around the periphery of the encapsulation glass layer and the substrate glass layer. The bond structure may be formed from a glass frit, a solid glass ring, integral raised glass portions of the glass layers, meltable metal alloys, or other bond materials. Chemical and physical processing operations may be used to temper the glass layers, to perform annealing operations, to preheat the glass layers, and to promote adhesion. | 01-20-2011 |
20110255000 | CAMERA ALIGNMENT AND MOUNTING STRUCTURES - An electronic device may be provided with a housing. A camera module may be mounted within the housing. The housing may have a camera window with which a lens in the camera module is aligned. To rotationally and laterally align the camera module with respect to the camera window and the electronic device housing, an alignment structure may be mounted to the housing in alignment with the camera window and housing. The alignment structure may be formed form a ring-shaped structure with an opening. The alignment structures may have sidewalls that form an alignment groove for the camera module. The camera window may be formed from a circular opening in a layer of opaque material deposited on a transparent housing member such as a planar layer of glass. During the process, a laser tool may be used to trim the opening in the opaque material. | 10-20-2011 |
20110255250 | PRINTED CIRCUIT BOARD COMPONENTS FOR ELECTRONIC DEVICES - Electronic devices may be provided that include mechanical and electronic components. Connectors may be used to interconnect printed circuits and devices mounted to printed circuits. Printed circuits may include rigid printed circuit boards and flexible printed circuit boards. Cosmetic structures such as cowlings may be used to improve device aesthetics. Bumpers may be mounted over rough edges of printed circuit boards to protect flex circuits that are routed over the printed circuit boards. Fasteners may be soldered to solder pad structures on printed circuit boards. | 10-20-2011 |
20120206870 | THERMAL SPRAY COATING FOR SEAMLESS AND RADIO-TRANSPARENT ELECTRONIC DEVICE HOUSING - Electronic devices and other apparatuses adapted to receive electromagnetic wave communications are disclosed. An outer housing encloses various device components, including at least an internal antenna located fully therewithin and adapted to receive/send communications from/to an outside source via RF or other electromagnetic waves. A ceramic coating can be a thermal spray coating that covers at least a portion of the outer surface proximate to the internal antenna, and can be “RF transparent”—adapted to allow communications to/from the internal antenna via electromagnetic waves. The outer housing can be plastic, metal or a combination thereof. For metal or other non-RF transparent housings, an RF-transparent insert can be fitted into a window in the housing to permit communications to the internal antenna. The ceramic coating covers some or all of the metal, plastic and/or insert that comprise the outer housing and surface for a final aesthetic finish to the device. | 08-16-2012 |
20120224299 | Electronic Devices With Moisture Resistant Openings - Electronic devices may have openings that serve as potential pathways for moisture intrusion into interior portions of the devices. An electronic device may be provided with moisture repelling coatings in the vicinity of these openings to help prevent moisture from reaching the interior of the device. The openings may be associated with gaps between adjacent housing structures, openings for buttons, openings for audio and connector ports or other openings in device structures. The moisture repelling coatings may be applied to housing surfaces, button members, structures associated with audio and connector ports, and other device structures. | 09-06-2012 |
20120327324 | COATED CHASSIS FOR LIQUID CRYSTAL DISPLAY - A coated chassis is disclosed. The chassis can be made from a non-conductive material and can be operable to support a display. A conductive material can be applied to at least a portion of the chassis to form a continuous strip on the chassis frame. The conductive material can further form a closed-loop around the chassis frame. The chassis frame can be included within a device, such as a mobile phone, touchpad, portable computer, portable media player, and the like. The conductive material on the chassis can be coupled to the system ground of the device. Processes for making a coated chassis are also disclosed. | 12-27-2012 |
20130171490 | FLEXIBLE BATTERY PACK - Flexible battery packs for use in electronic devices are disclosed. In one embodiment of the present disclosure, the flexible battery pack may include a plurality of cells, such as galvanic or photovoltaic cells. The battery pack also may include a plurality of laminate layers coupled to the cells that include a top laminate layer and a bottom laminate layer. An adhesive may be used to couple the top and bottom laminate layers together such that each of the plurality of cells is isolated from each other. This arrangement may allow the battery to be shaped to fit a form factor of the electronic device. This arrangement also may allow one or more of the cells to be selectively removed from the plurality, which may be desirable from a manufacturing perspective. | 07-04-2013 |
20130215638 | Methods For Assembling Electronic Devices Using Embedded Light Guide Structures - Electronic devices may include assemblies of structures such as electronic device assemblies connected using light-cured liquid adhesive such as ultraviolet-light-cured adhesive. Light guide structures may be mounted in the assemblies. During manufacture of an electronic device, ultraviolet light may be injected into a light guide structure to cure the light-cured liquid adhesive. A light guide structure may include portions that prevent escape of ultraviolet light and portions that allow ultraviolet light to escape into the light-cured liquid adhesive. Light guide structures may include masked portions, rigid support members, and one or more openings. Openings in a light guide structure may allow the light-cured liquid adhesive to be injected into an assembly through the openings. An adhesive applicator may be used to apply the adhesive to portions of the assembly. An external light source may be used to inject light that cures the adhesive into the light guide structures. | 08-22-2013 |
20130260823 | Compact Portable Electronic Device Having Augmented Back Volume for Speaker - Improved approaches to providing a sealed acoustic chamber (e.g., a back volume) for an acoustic component (e.g., speaker) resident in a compact portable electronic device are disclosed. In one embodiment, a compact portable electronic device includes an internal module (or housing), such as an optical camera module that includes optical components, which contains a module volume. The module volume can be provided with a port (e.g., opening) but is otherwise a substantially enclosed (e.g., at least substantially sealed) volume. By acoustically coupling the acoustic component to the port, the module volume can be used as some or all of the back volume for the acoustic component. Advantageously, a compact portable electronic can provide quality acoustic audio output while requiring only a limited amount of dedicated space. | 10-03-2013 |
20130318766 | COMPONENTS OF AN ELECTRONIC DEVICE AND METHODS FOR THEIR ASSEMBLY - Various components of an electronic device housing and methods for their assembly are disclosed. The housing can be formed by assembling and connecting two or more different sections together. The sections of the housing may be coupled together using one or more coupling members. The coupling members may be formed using a two-shot molding process in which the first shot forms a structural portion of the coupling members, and the second shot forms cosmetic portions of the coupling members. | 12-05-2013 |
20130319755 | COMPONENTS OF AN ELECTRONIC DEVICE AND METHODS FOR THEIR ASSEMBLY - Various components of an electronic device housing and methods for their assembly are disclosed. The housing can be formed by assembling and connecting two or more different sections together. The sections of the housing may be coupled together using one or more coupling members. The coupling members may be formed using a two-shot molding process in which the first shot forms a structural portion of the coupling members, and the second shot forms cosmetic portions of the coupling members. | 12-05-2013 |
20130319865 | DOUBLE ANODIZING PROCESSES - Methods and structures for forming anodization layers that protect and cosmetically enhance metal surfaces are described. In some embodiments, methods involve forming an anodization layer on an underlying metal that permits an underlying metal surface to be viewable. In some embodiments, methods involve forming a first anodization layer and an adjacent second anodization layer on an angled surface, the interface between the two anodization layers being regular and uniform. Described are photomasking techniques and tools for providing sharply defined corners on anodized and texturized patterns on metal surfaces. Also described are techniques and tools for providing anodizing resistant components in the manufacture of electronic devices. | 12-05-2013 |
20130319872 | ANODIZING RESISTANT COMPONENTS AND METHODS OF USE THEREOF - Methods and structures for forming anodization layers that protect and cosmetically enhance metal surfaces are described. In some embodiments, methods involve forming an anodization layer on an underlying metal that permits an underlying metal surface to be viewable. In some embodiments, methods involve forming a first anodization layer and an adjacent second anodization layer on an angled surface, the interface between the two anodization layers being regular and uniform. Described are photomasking techniques and tools for providing sharply defined corners on anodized and texturized patterns on metal surfaces. Also described are techniques and tools for providing anodizing resistant components in the manufacture of electronic devices. | 12-05-2013 |
20130320823 | COMPONENTS OF AN ELECTRONIC DEVICE AND METHODS FOR THEIR ASSEMBLY - Various components of an electronic device housing and methods for their assembly are disclosed. The housing can be formed by assembling and connecting two or more different sections together. The sections of the housing may be coupled together using one or more coupling members. The coupling members may be formed using a two-shot molding process in which the first shot forms a structural portion of the coupling members, and the second shot forms cosmetic portions of the coupling members. | 12-05-2013 |
20130321237 | COMPONENTS OF AN ELECTRONIC DEVICE AND METHODS FOR THEIR ASSEMBLY - Various components of an electronic device housing and methods for their assembly are disclosed. The housing can be formed by assembling and connecting two or more different sections together. The sections of the housing may be coupled together using one or more coupling members. The coupling members may be formed using a two-shot molding process in which the first shot forms a structural portion of the coupling members, and the second shot forms cosmetic portions of the coupling members. | 12-05-2013 |
20140023430 | Attachment Techniques - Techniques for attachment of sapphire substrates with other materials and the resulting structures are provided. One embodiment may take the form of an attachment method including creating an aperture within a sapphire substrate and filling the aperture with an attachment material. The method also includes mechanically coupling a member to the sapphire substrate using the attachment material. | 01-23-2014 |
20140054058 | HANDHELD DEVICE ENCLOSURE - This is directed to an electronic device enclosure. The enclosure includes an outer periphery member forming an outer surface of a device, and to which an internal platform is connected. Electronic device components can be assembled to one or both surfaces of the internal platform. The enclosure can include front and back cover assemblies assembled to the opposite surfaces of the outer periphery member to retain electronic device components. One or both of the cover assemblies can include a window through which display circuitry can provide content to a user of the device. | 02-27-2014 |
20140055019 | LOW PROFILE HINGE AND PIN MOUNT - Described embodiments provide a low profile hinge and pin mount to be mounted within a small encasement. The mount has a low profile and takes up minimal space within the small encasement without sacrificing structural support for a component and external forces placed on the mount. The mount includes a bracket, a pin and a fastener. The bracket includes a rounded end, a fastening end and a beam configured to support the component placed between the rounded end and the fastening end. The rounded end of the bracket is sized and shaped to fit in an enclosure of the encasement and to pivot about the pin during a rework process. Methods for installing and reworking the low profile hinge and pin mount are described. | 02-27-2014 |
20140063265 | Electronic Device Camera Module With Alignment Structures - An electronic device may include a camera module. Control circuitry within the electronic device may use an image sensor within the camera module to acquire digital images. The camera module may have lens structures that are supported by lens support structures such as a lens barrel and lens carrier. An actuator such as a voice coil motor may control the position of the lens support structures relative to internal support structures such as upper and lower spacer members. Springs may be used to couple the lens support structures to the internal support structures. Outer wall structures in the camera module such as a ferromagnetic shield structures may surround and enclose at least some of the internal support structures. The outer wall structures may have openings. The internal support structures may have pins or other alignment structures that protrude through the openings. | 03-06-2014 |
20140066122 | COUPLING REDUCTION FOR ELECTROMECHANICAL ACTUATOR - A portable electronic device comprises an electromechanical module having an actuator for positioning a mechanical element between first and second positions, and a controller coupled to the electromechanical module. The controller is configured to detect a mechanical event coupling to the electromechanical module, select an actuation signal to position the mechanical element in a safe position between the first and second positions, and transmit the selected signal, such that the mechanical element is positioned in the safe position during the event. | 03-06-2014 |
20140071634 | Electronic Device Subassemblies - An electronic device may include subassemblies such as battery structures, electromagnetic shielding structures, and button structures. The electromagnetic shielding structures may include a conductive fence and a flexible shielding layer that covers electronic components. The electromagnetic shielding structure may be formed with a recess that receives a protruding portion of a battery. The recess may be formed from a multi-level shielding structure that includes rigid and flexible portions. The button structures may be mounted to a ledge that is formed as an integral part of a device housing. An electronic device battery may be enclosed in a protective battery sleeve. The battery sleeve may include a center portion that encloses the battery and peripheral portions that are folded and coupled to the center portion by adhesive material interposed between opposing surfaces of the folded peripheral portions and the center portion of the battery sleeve. | 03-13-2014 |
20140071651 | Insert Molded Cowling Structures - Electronic devices may be provided with electronic components and cowling structures that secure the electronic components. A cowling structure may include a metal portion and an insulating portion that has been insert-molded onto the metal portion. The metal portion and the insert-molded insulating portion may each have an opening that receives a screw. The screws may pass through the respective opening and attach to a substrate. The substrate may be a transparent cover layer for a device display. The cowling structure may press the electronic components against the transparent substrate layer. The device may include an antenna. The insert-molded insulating portion may extend from an edge of the metal portion in the direction of the antenna. The insert-molded insulating portion may prevent one of the screws from forming an electrical connection with the metal portion. | 03-13-2014 |
20140182392 | APPARATUS AND METHOD FOR BREAKAGE TESTING OF SMALL ARTICLES - Apparatus, systems and methods for testing brittle articles, such as glass or ceramic articles are disclosed. The testing is provided by a test apparatus that imposes a bending test to a brittle article. The testing is also well suited for testing small scale brittle articles which are too small to utilize conventional multi-point testing or ring-on-ring testing. In addition, the testing is also well suited for testing brittle articles that have one or more apertures (or holes) therein which can impact their ability to resist breakage. For example, the quality of one or more apertures provided in brittle articles can affect breakage levels and thus can be monitored and/or adjusted through testing. | 07-03-2014 |
20140355207 | BATTERY REMOVAL APPARATUS - This application relates generally to battery removal apparatuses. For example, one battery removal apparatus disclosed herein comprises a pull tab configured to be disposed between a battery and a casing of a portable computing device. The pull tab is shaped such that at least one area of the battery and the casing are exposed to one another when the battery, the pull tab and the casing are compressed together. An adhesive layer is shaped to cover the at least one exposed area such that the battery adheres to the casing, and the pull tab is reinforced so as to prevent the pull tab from tearing when used to remove the battery from the portable computing device. Other battery removal apparatuses include a pull string battery removal apparatus as well as a battery removal apparatus that incorporates both a pull tab and one or more pull strings. | 12-04-2014 |