Patent application number | Description | Published |
20080227393 | Method and system for pairing of wireless devices using physical presence - Techniques that facilitate pairing of wireless devices with other wireless devices are disclosed. Once paired, the wireless devices can exchange data in a wireless manner. According to one embodiment, a pairing process can be secured through use of physical proximity, or even physical connection, of wireless devices to be paired. According to another embodiment, user actions to provoke or perform pairing can be reduced or eliminated. According to still another embodiment, a wireless device being paired can be configured using configuration information provided from another wireless device being paired. | 09-18-2008 |
20110028041 | CONNECTOR ASSEMBLIES - A headset connector assembly that includes a connector plate, a casing, and electrical contact members is provided. The connector plate can have a first mating surface, a second mating surface, and at least two apertures existing between the first and the second mating surfaces. The casing can have a first side in contact with the first mating surface and a second side. The casing can include a protruding cavity member for each of the at least two apertures. Each protruding cavity member can extend from the first side and be constructed to fit within one of the at least two apertures. Each protruding cavity member can house an electrical contact member. | 02-03-2011 |
20120069517 | GLASS ENCLOSURE - A handheld computing device that includes an enclosure having structural walls formed from a glass material that can be radio-transparent. The enclosure can be formed from a hollow glass tube or two glass members bonded together. A laser frit bonding process may be used to hermetically seal the two glass members together to create a water resistant electronic device. | 03-22-2012 |
20120224710 | HEADSET ELECTRONICS - A wireless headset device that includes an earbud assembly and a primary housing assembly, fixed to the earbud assembly, is provided. The earbud assembly can include an earbud flexible circuit board having mounted thereon a receiver and processing circuitry. The primary housing assembly can include a microphone and a primary housing flexible circuit board electrically coupled to the earbud circuit board and the microphone. In some embodiments, the headset device can include at least one flexible circuit board and the primary housing can include a connector assembly. The at least one flexible circuit board can be electrically coupled to the connector assembly and can include Universal Serial Bus (USB) circuitry operative to process USB protocol communications and serial circuitry operative to process serial protocol communications. | 09-06-2012 |
20120281380 | HOUSING FOR PORTABLE ELECTRONIC DEVICE WITH REDUCED BORDER REGION - An electronic device having a housing structure that is configured to receive at least one glass cover is disclosed. The glass cover serves to cover a display assembly provided within the electronic device. The glass cover can be secured to the housing structure so as to facilitate providing a narrow border between an active display area and an outer edge of the housing structure. The enclosure for the electronic device can be thin yet be sufficiently strong to be suitable for use in electronic devices, such as portable electronic devices. | 11-08-2012 |
20120281381 | Housing for Portable Electronic Device with Reduced Border Region - An electronic device having a housing structure that is configured to receive at least one glass cover is disclosed. The glass cover serves to cover a display assembly provided within the electronic device. The glass cover can be secured to the housing structure so as to facilitate providing a narrow border between an active display area and an outer edge of the housing structure. The enclosure for the electronic device can be thin yet be sufficiently strong to be suitable for use in electronic devices, such as portable electronic devices. | 11-08-2012 |
20130075126 | Laser Bleached Marking of Dyed Anodization - Techniques or processes for providing markings on products are disclosed. In one embodiment, the products have housings and the markings are to be provided on the housings. For example, a housing for a particular product can include an outer housing surface and the markings can be provided on the outer housing surface so as to be visible from the outside of the housing. The surface of the housing is able to be anodized and dyed, and the markings of the surface are able to be bleached markings of dyed anodization. | 03-28-2013 |
20130163210 | INTEGRATED FLEX TAIL CIRCUIT PACKAGING - An integrated structure for interconnection of electrical components is provided. In one embodiment, the integrated structure includes a through mold via (TMV) module having a substrate and at least one component coupled to the substrate. A flexible printed circuit board (flex-PCB) is integrated with the substrate of the TMV module. A TMV is provided through a body of the module to allow the flex-PCB to couple with a logic board. | 06-27-2013 |
20130217246 | Headset Connector - Headset assemblies and headset connectors are provided. Headset connectors can include a magnetic mating face and a plurality of electrical contacts disposed within the mating face. Engaging assemblies and engaging connectors are also provided. The engaging connectors can include a housing having a mating side, a magnetic array structure, and a plurality of spring biased contact members. The magnetic array structure can be fixed within the housing and house a plurality of spring biased contact members. The spring biased contact members can include tips that extend out of the mating side. The tips can electrically couple with electrical contacts in a headset connector. | 08-22-2013 |
20130335275 | Structures for Shielding and Mounting Components in Electronic Devices - An electronic device may be provided with a conductive housing. An antenna window structure may be formed in an opening in the housing. The antenna window structure may have an antenna support structure that is attached to the conductive housing and that supports antenna structures. An antenna window cap may be mounted in the opening and attached to the antenna support structure with liquid adhesive. Alignment structures may be provided in the antenna support structure. An antenna support plate with mating alignment structures may be used in attaching the antenna structures to the antenna support structures. Metal shielding structures may be used to provide electromagnetic shielding. A shielding wall may be formed from a sheet metal structure supported by a plastic support structure. A flexible metal shielding foil layer may be welded to the shielding wall using a sacrificial plate. | 12-19-2013 |
20140028902 | Electronic Device With Input-Output Component Mounting Structures - An electronic device may have a housing such as a metal housing. Openings may be formed in the housing to accommodate a button, to form a camera window, to form a microphone port, and to form a camera flash window. An input-output component mounting member may be used to mount input-output components to the housing of the electronic device. The input-output component mounting member may have a recess that mates with a corresponding protrusion on the housing. Screws may attach the input-output component mounting member to the housing. The protrusion and recess in the input-output component mounting member may ensure that the input-output component mounting member is accurately aligned with respect to the housing. Input-output components such as a microphone, button switch, camera, and camera flash may be mounted to the electronic device with the input-output component mounting member. | 01-30-2014 |
20140048310 | Printed Circuit Solder Connections - Printed circuits may be electrically and mechanically connected to each other using connections such as solder connections. A first printed circuit such as a rigid printed circuit board may have solder pads and other metal traces. A second printed circuit such as a flexible printed circuit may have openings. Solder connections may be formed in the openings to attach metal traces in the flexible printed circuit to the solder pads on the rigid printed circuit board. A ring of adhesive may surround the solder connections. The flexible printed circuit may be attached to the rigid printed circuit board using the ring of adhesive. An insulating tape may cover the solder connections. A conductive shielding layer with a conductive layer and a layer of conductive adhesive may overlap the solder joints. The conductive adhesive may connect the shielding layer to the metal traces on the rigid printed circuit board. | 02-20-2014 |
20140068919 | ACCESSORY ATTACHMENT MECHANISMS FOR AN ELECTRONIC DEVICE - Attachment mechanisms that may be employed to attach accessory devices to electronic devices are provided. The attachment mechanism may include a displaceable post that is moveable between deployed and stored configurations. In the deployed configuration an accessory may be attached to the displaceable post, whereas in the stored configuration the displaceable post may be at least partially inaccessible. Movement of the displaceable post may be controlled by cam surfaces, a spring, and a follower. The spring may be conical and configured to fold flat to reduce the height of the attachment mechanism. | 03-13-2014 |
20140069712 | TRIM FOR INPUT/OUTPUT ARCHITECTURE IN AN ELECTRONIC DEVICE - A trim is provided which may be substantially concealed in an electronic device housing. Embodiments may be configured to distribute received forces away from internal components of an electronic device. Further some embodiments may be configured to align an electronic device housing with the internal plug receptacle for ease of assembly. Some embodiments may be configured to align a plug with the plug receptacle during plug attachment to ensure the correct attachment of the plug. Further embodiments may be made of a substantially rigid material to sustain repeated cycles plug insertion and removal. Additional embodiments may limit the ability for moisture to access the internal components of the electronic device. Certain embodiments may be interposed between a plug receptacle and an electronic device housing. | 03-13-2014 |
20140069999 | DEVICE IDENTIFIER PROCESSING - A system for integrating a marked product housing includes an image capture device configured to capture an image of indicia formed on an exterior surface of the marked product housing, a controller in operative communication with the image capture device configured to process the image of the indicia to retrieve a unique product identifier represented by the indicia, and an indicia forming device in operative communication with the controller configured to form a coded formation onto an interior surface of the marked product housing representing the unique product identifier. | 03-13-2014 |
20140071548 | BAYONET ATTACHMENT MECHANISMS - An attachment mechanism includes a compliance member positioned between a body and bayonets. The bayonets collectively define an aperture therebetween. Alignment members prevent rotation of the bayonets relative to the body while allowing the bayonets to move radially outwardly against the compliance member. When a second attachment mechanism is received in the aperture of the first attachment mechanism, relative rotation therebetween may interlock corresponding bayonets thereof. The attachment mechanisms may release from one another in a drop event or other incidence of force applied thereto by allowing a bayonet to radially move outwardly out of contact with a corresponding bayonet of the second attachment mechanism. Related methods are also provided. | 03-13-2014 |
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 |
20140076657 | INVERTIBLE EAR TIPS FOR AN EAR PIECE - An ear piece for providing audio (e.g., from an electronic device) to the user is provided. The ear piece may include a compliant element operative to be inserted in the user's ear such that the compliant element deforms to retain the ear piece in the user's ear. The compliant element may include a connector portion coupling the compliant element to the ear piece housing, and an outer portion folded over the ear piece housing. To improve the user's comfort, the parting lines and other manufacturing defects may be hidden from view and from touch (e.g., the parting lines are then on the inner surface of the outer portion). | 03-20-2014 |
20140113184 | THREE-DIMENSIONAL NON-RECTANGULAR BATTERY CELL STRUCTURES - The disclosed embodiments provide a battery cell. The battery cell includes a set of layers including a cathode with an active coating, a separator, and an anode with an active coating. The battery cell also includes a pouch enclosing the layers. Finally, the battery cell has a three-dimensional non-rectangular shape to facilitate efficient use of space within a portable electronic device powered by the battery cell. | 04-24-2014 |
20140147703 | BATTERY SAFETY CIRCUIT AND TAB PLACEMENT AND ORIENTATION - In a first embodiment, a battery pouch has a long edge seal and a short edge seal. An electrical connection tab is positioned on the short edge seal and at least a portion of a power control module is positioned on the long edge seal. In a second embodiment, a battery pouch has a long edge seal and a short edge seal. An electrical connection tab and at least a portion of a power control module are positioned on the long edge seal. | 05-29-2014 |
20140313086 | Portable Electronic Device Housing Having Insert Molding Around Antenna - Embodiments are described herein in the context of housings for electronic devices. In one embodiment, a housing can make use of an outer member, which can be formed of glass. The outer member can be secured with respect to other portions of the housing for the electronic device. The output member can also be protected at its edges by a protective side member. Still further, one or more antenna can be provided at least partially internal to the protective side member. The electronic devices can be portable and in some cases handheld. | 10-23-2014 |
20150016058 | GLASS ENCLOSURE - A handheld computing device that includes an enclosure having structural walls formed from a glass material that can be radio-transparent. The enclosure can be formed from a hollow glass tube or two glass members bonded together. A laser frit bonding process may be used to hermetically seal the two glass members together to create a water resistant electronic device. | 01-15-2015 |
20150070826 | COMPONENT ASSEMBLY IN PRE BENT STATE - A portable electronic device is provided. The portable electronic device may include a housing and a cover panel that may cover a display. The cover panel may define a pre-bent configuration prior to being coupled to the housing. Thereby, the cover panel may be elastically bent during attachement to the housing. Thus, the cover panel may include internal forces as a result of the elastic bending that prevent the cover panel from bowing outwardly from the housing. Related assemblies and methods are also provided. | 03-12-2015 |
20150077624 | Electronic Device Having A Flexible Printed Circuit Biasing Structure - An electronic device may have electrical components such as input-output devices. An electrical component may be mounted on a flexible printed circuit. The flexible printed circuit may have a bend that forms a flexible printed circuit spring to bias the electrical component in a desired direction. The electronic device may have a display with a display cover layer. In an inactive display area, opaque masking material may be formed on the display cover layer. A light window may be formed in the opaque masking layer. The flexible printed circuit spring may bias the electrical component against the display cover layer in alignment with the light window. An air gap under the electrical component may separate the component from a planar portion of the flexible printed circuit that is overlapped by the electrical component. The electrical component may be a camera, a light sensor, or other device. | 03-19-2015 |