Patent application number | Description | Published |
20080204541 | Aperture stop in an image projection arrangement for preserving color fidelity over an image - A lightweight, compact image projection module has a laser assembly for emitting a plurality of laser beams of different wavelengths, an optical assembly for focusing and nearly collinearly arranging the laser beams to form a composite beam, a scanner for sweeping the composite beam in a pattern of scan lines, each scan line having a number of pixels, and a controller for causing selected pixels to be illuminated, and rendered visible, by the composite beam to produce the image. An aperture stop located between the laser assembly and the scanner, limits a cross-sectional dimension of at least one of the laser beams to below a prescribed level to preserve color fidelity over the image. | 08-28-2008 |
20090057405 | Light collection assembly with self-retaining lens in electro-optical reader - An assembly for collecting light from indicia includes a chassis having a port through which the light from the indicia passes, and walls bounding an interior compartment. A self-retaining frame constituted of an optical material is non-adhesively mounted within the compartment in an assembled position. The frame has an integral lens optically aligned with the port in the assembled position for optically modifying the light passing through the port, and a plurality of legs in gripping frictional interference engagement with the walls in the assembled position. A sensor is optically aligned with the lens, for sensing the light optically modified by the lens. | 03-05-2009 |
20090059616 | Illumination light assembly with self-retaining lightpipe for minimizing specular reflection in electro-optical reader - An assembly for illuminating indicia includes a chassis, an illuminator for emitting illumination light, and a self-retaining lightpipe constituted of an optical material and non-adhesively mounted on the chassis with a snap action in an assembled position. The lightpipe is optically aligned with the illuminator in the assembled position, for optically guiding the illumination light from the illuminator to the indicia. The lightpipe has a textured exit surface, preferably with a predetermined scattering directionality, for scattering the illumination light exiting therefrom toward the indicia in a controlled manner to minimize specular reflection. | 03-05-2009 |
20090108075 | Sealed housing with integral window and integral pressure indicator in electro-optical reader - A reader for electro-optically reading indicia, includes a sensor for sensing light from the indicia, and for generating a signal indicative of the indicia. A support includes a housing in which the sensor is contained, and a light-transmissive window through which the light from the indicia passes en route to the sensor. The window and the housing are both constituted of a same moldable material and are integrally molded together as a single component of one-piece, seamless construction. A pressure indicator is also integrally formed with the housing, for visually indicating pressure within the housing. | 04-30-2009 |
20100123007 | Electro-optical lens mounting assembly and method in electro-optical readers - A lensholder holds at least one fixed optical lens and a variable focusing element in a spaced relation along an optical path through which light passes in an electro-optical reader. The variable focusing element has a pair of electrodes across which a voltage is applied to optically modify the light passing through the fixed optical lens and the variable focusing element. The lensholder directly electrically conductively contacts the electrodes and establishes an electrically conductive path between each electrode and an exterior of the lensholder. | 05-20-2010 |
20130026233 | IMAGER EXPOSURE, ILLUMINATION AND SATURATION CONTROLS IN A POINT-OF-TRANSACTION WORKSTATION - An illumination time of an illumination system and/or an exposure setting of an imaging system are adjusted by a proximity system operative for detecting a product entering a field of view in a bi-optical, dual window, point-of-transaction workstation. The proximity system includes an infrared emitter for emitting infrared light to the product, and an infrared sensor for sensing return infrared light from the product. Multiple predefined thresholds are stored for the sensed return infrared light, and a predefined illumination time and/or exposure setting are stored and assigned to each predefined threshold. Adjustment of the illumination time and/or of the exposure setting is performed by comparing the sensed return infrared light from the product in real time operation with the stored predefined thresholds. | 01-31-2013 |
20130141584 | APPARATUS FOR AND METHOD OF TRIGGERING ELECTRO-OPTICAL READING ONLY WHEN A TARGET TO BE READ IS IN A SELECTED ZONE IN A POINT-OF-TRANSACTION WORKSTATION - Products associated with targets to be read by image capture are processed in a workstation having a window, a solid-state imager looking at a field of view extending through the window to a target to be imaged, and an illumination system for illuminating the field of view. A proximity system detects a product associated with the target in a selected zone outside the window. The proximity system has an infrared (IR) emitter for emitting IR light into an IR emission field, and an IR sensor for sensing return IR light within an IR detection field that intersects the IR emission field in the selected zone. A controller energizes the illumination system in response to the detection of the product in the selected zone, and processes return illumination light captured in the field of view by the imager. | 06-06-2013 |
Patent application number | Description | Published |
20110147459 | AIMING SIGHT FOR A BARCODE READER - An apparatus, system, and method for aiming and reading a target object. The apparatus includes a barcode reader for reading the target object. The apparatus also includes an aiming sight coupled to the barcode reader. The aiming sight is used for aiming the target object and thereby directing the barcode reader to read the target object. The aiming sight can either be used independently or can be used along with an aiming pattern generator present in the barcode reader, in order to read the target object. | 06-23-2011 |
20120074226 | AIMING SIGHT FOR A BARCODE READER - An apparatus, system, and method for aiming and reading a target object. The apparatus includes a barcode reader for reading the target object. The apparatus also includes an aiming sight coupled to the barcode reader. The aiming sight is used for aiming the target object and thereby directing the barcode reader to read the target object. The aiming sight can either be used independently or can be used along with an aiming pattern generator present in the barcode reader, in order to read the target object. | 03-29-2012 |
20120126015 | LIGHT SEAL GASKET FOR USING IN IMAGING-BASED BARCODE READER - The light seal gasket for using in a barcode reading arrangement includes (1) a skirt region configured to surround the solid-state imager on the circuit board and having a bottom surface for making a light seal with the circuit board, (2) a baffle tube configured for aligning with an opening on the chassis and having a top surface for making a light seal with the chassis, and (3) a diaphragm region configured to be bendable when the chassis and the circuit board are pressed towards each other with the light seal gasket sandwiched in-between. | 05-24-2012 |
20130161392 | AIMING METHOD FOR ROLLING SHUTTER IMAGE SENSORS - A method includes capturing an image of a target object within a field of view through an imaging lens arrangement with an imaging sensor during a frame exposure time period in rolling shutter mode. The method further includes activating an aiming light source to generate a visible aiming light pattern towards the target object during a part of the frame exposure time period and to substantially deactivate the aiming light source during the remaining part of the frame exposure time period. | 06-27-2013 |
20140090902 | ARRANGEMENT FOR AND METHOD OF PREVENTING OVERHANGING WEIGHING PLATTER OF SCALE FROM TIPPING AT PRODUCT CHECKOUT SYSTEM AND METHOD OF MOUNTING AND REMOVING THE WEIGHING PLATTER WITHOUT TOOLS - A checkout system includes a workstation having a data capture arrangement for capturing through a horizontal window a target associated with a product to identify the product being checked out at the workstation, and a scale for weighing the product at the workstation. The scale has a scale mechanism, and a weighing platter on which the product is placed for weighing. The weighing platter is integrated with the horizontal window and overlies the scale mechanism. The weighing platter projects past the scale mechanism and has a front end that overhangs the scale mechanism. Non-threaded, interlocking connectors, which are provided on the weighing platter and the scale mechanism, prevent the weighing platter from tipping if a force is exerted on the front end of the weighing platter. The weighing platter is mounted on, and removed from, the scale mechanism without the aid of tools. | 04-03-2014 |
20140183262 | METHOD OF ADJUSTING POINTING DIRECTIONS OF MULTIPLE CAMERAS IN BARCODE SCANNER - A workstation with a housing having a upright window and a horizontal window includes a printed circuit board having at least two imaging sensors thereon located in the housing, and a controller operative to read a barcode in a captured image. The workstation also includes a chassis firmly mounted on the printed circuit board, and two inserts each configured to hold steadily one of at least two lens assemblies. At least one of the two inserts includes multiple slots for attaching such insert to the chassis at a position that is laterally adjustable. | 07-03-2014 |
20150192455 | APPLICATION FOR AND METHOD OF PREVENTING OVERHANGING WEIGHING PLATTER OF SCALE FROM TIPPING AT PRODUCT CHECKOUT SYSTEM AND METHOD OF MOUNTING AND REMOVING THE WEIGHING PLATTER WITHOUT TOOLS - A checkout system includes a workstation having a data capture arrangement for capturing through a horizontal window a target associated with a product to identify the product being checked out at the workstation, and a scale for weighing the product at the workstation. The scale has a scale mechanism, and a weighing platter on which the product is placed for weighing. The weighing platter is integrated with the horizontal window and overlies the scale mechanism. The weighing platter projects past the scale mechanism and has a front end that overhangs the scale mechanism. Non-threaded, interlocking connectors, which are provided on the weighing platter and the scale mechanism, prevent the weighing platter from tipping if a force is exerted on the front end of the weighing platter. The weighing platter is mounted on, and removed from, the scale mechanism without the aid of tools. | 07-09-2015 |
Patent application number | Description | Published |
20130170109 | Mesh Structure Providing Enhanced Acoustic Coupling - A portable electronic device that provides compact configurations for audio elements are disclosed. The audio elements can be drivers (e.g., speakers) or receivers (e.g., microphones). According to one aspect, mesh structures, such as mesh barriers, are formed to facilitate improved acoustic sealing in a space efficient manner. In one embodiment, a mesh barrier for an audio port can be reliably acoustically sealed (or coupled) with an audio chamber and/or outer device housing in a space efficient manner. A mesh barrier can serve to block undesired foreign substances from entry or further entry into an audio port and/or serve as a cosmetic barrier which obscures vision into an audio port. In one embodiment, a portion of a mesh structure can be provided with a substantially planar surface that facilitates improved acoustic sealing. | 07-04-2013 |
20130214450 | METHOD AND APPARATUS FOR MOLDING PARTS - A method and apparatus for injection molding plastic parts is described. In one embodiment, at least two materials are simultaneously injected into a mold. The resulting molded part can include at least two different regions. Each region can have distinct physical properties. Positions of the regions within the molded part can be at least partially controlled by controlling flow fronts of the at least two materials within the mold. | 08-22-2013 |
20130233611 | MOLDED EMI AND THERMAL SHIELD - One embodiment of a molded shield can include a cavity to conform to and receive an electrical component, a slit to conform to and receive a metal frame and a metal layer coupled to the top and lateral sides of the molded shield. In one embodiment, the molded shield can be formed from silicon and can include material to enhance electrical conductivity. The molded shield can couple to the metal frame which in turn can be coupled to ground with the resulting configuration acting to reduce electrical emissions. The molded shield can transfer heat away from the electrical component through conduction. | 09-12-2013 |
20130242150 | Electronic Device with Shape Memory Devices - An electronic device may be provided with shape memory structures. The shape memory structures may be used to form actuators for a camera shutter, an actuator for moving an optical filter, or other actuators in an electronic device. A camera shutter may have an opaque shutter member that is movable between a first position in which the shutter is closed and blocks light from a digital image sensor and a second position in which the shutter is open and allows light to reach the digital image sensor. The camera shutter may have an associated color filter structure. Shape memory wire may be configured to form a loop that heats upon application of a signal or may be configured to form a twisting or linear actuator. The camera shutter may be provided with a controllable aperture. | 09-19-2013 |
20130343015 | Electronic Devices With Printed Circuit Boards Having Padded Openings - An electronic device may be provided with a printed circuit board having padded through-holes. The padded through-holes may be formed from openings in a printed circuit board substrate and elastomeric members in the openings. The elastomeric members may be conductive elastomeric members such as electrically or thermally conductive elastomeric members. The printed circuit board may be secured within a housing for the electronic device using engagement members that extend through padded through-holes. The engagement members may engage with the housing or with additional engagement members that are attached to the housing. The electronic device may include a cowling structure formed over electronic components on a surface of the printed circuit board. The cowling structure may be secured to the printed circuit board using attachment members that engage with the engagement members in the padded through-holes. | 12-26-2013 |
20130344712 | INTERCONNECTIONS BETWEEN FLEXIBLE AND RIGID COMPONENTS - A low-height connectorless interconnection system includes a first substrate, the first substrate having a first plurality of exposed portions of underlying circuit traces and a second substrate, the second substrate having a second plurality of exposed portions of underlying circuit traces. The system further includes a plurality of conductive formations formed on at least one of the first and second pluralities of exposed portions of underlying circuit traces and a clamping member arranged to join the first and second substrate such that the first and second pluralities of exposed portions of circuit traces are in severable electrical communication. | 12-26-2013 |
20140001022 | BUTTON STRUCTURES FOR ELECTRONIC DEVICES | 01-02-2014 |
20140002996 | Thermally Conductive Printed Circuit Board Bumpers | 01-02-2014 |
20140004294 | COMPONENTS WITH MATING SURFACES | 01-02-2014 |
20140029206 | EJECTABLE COMPONENT ASSEMBLIES IN ELECTRONIC DEVICES - Electronic devices are provided with ejectable component assemblies. Each ejectable component assembly may include a tray that can be loaded with one or more types of removable module, such as a mini-SIM card and a micro-SIM card, and inserted into the device. Each assembly may also include a cover coupled to a circuit board. The tray may be inserted through an opening in the electronic device and into a space between the cover and the circuit board. A portion of the space is contained within the pocket. A portion of the tray may be contained within the pocket when the tray is inserted into the device for holding the module at a functional insertion position within the device. | 01-30-2014 |
20140055915 | COMPLEMENTARY GROUND AND SUPPORT MEMBERS - A ground member of a personal electronic device includes a base and a first deflection arm formed of a portion of the base. The first deflection arm exposes a cutout portion of the base and is bent along a first bend line. The cutout portion is dimensioned to engage with a complementary dimensioned support member and the first deflection arm is configured to deflect and engage with the support member in response to insertion of the support member in the cutout portion. The ground member further includes a second deflection arm extending from the base and bent along a second bend line. | 02-27-2014 |
20140055961 | Printed Circuit Boards with Recesses - Printed circuit boards are provided with recess-mounted components. The components may be mounted within recesses in the surface of a printed circuit board substrate that are larger than the component. A solder stencil may be used to mount the components in a recess. The solder stencil may have curved portions between a planar portion and a depressed portion. The difference in the lateral width of the recess and the lateral width of the component may be configured to allow the planar portion and the depressed portion to be placed against the surface of the printed circuit board without damaging edges of the recess during solder application processes. The recess may be formed by placing a dummy component having a size and shape that is larger than the size and shape of the recess-mounted component against a portion of the printed circuit board during board formation operations. | 02-27-2014 |
20140063769 | Component Mounting Structures with Breakaway Support Tabs - Components may be mounted to printed circuit substrates using solder. A breakaway support tab may be detachably connected to a component and may help prevent the component from shifting or toppling over during reflow operations. The component and breakaway support tab may be formed from sheet metal. The interface that links the component to the breakaway support tab may be perforated or half sheared to allow the breakaway support tab to be easily separated from the component following reflow operations. The breakaway support tab may be fixed in place during reflow operations by mechanically coupling the breakaway support tab to a fixture or by mounting the breakaway support tab to an unused portion of a panel of printed circuit substrates. A breakaway support tab may be mechanically coupled between two components on a printed circuit substrate and may be used to maintain a distance between the components during reflow operations. | 03-06-2014 |
20140069789 | CYLINDRICAL ACTIVATION OF MENU BUTTONS - Cylindrical switch assemblies and methods of making the same are provided. Cylindrical switch assemblies can mitigate false presses by using switch assembly designs with vertically or near vertically mounted activation elements positioned around a perimeter of a button. The activation elements (e.g., switches) of the switch assemblies may be fixed to a vertical sidewall of a bracket and positioned such that a portion of the activation elements extend beneath the button. When the button is actuated by a user, the button activates the activation elements. Positioning multiple activation elements around the perimeter of the button ensures that the user can press anywhere on the button and still activate the activation elements. | 03-13-2014 |
20140070081 | Electronic Device With Light Sensor Alignment Structures - Electronic devices may include light sensors. The light sensors may include alignment features. The light sensors may be optically aligned with an aperture in an opaque structure. The opaque structure may be formed from an opaque material or a transparent material with an opaque coating. The light sensor may be mounted in a support structure that has been optically aligned with the aperture. The light sensor or the support structure may include extended portions that are transparent to ultraviolet light. Ultraviolet light may be transmitted through the extended portions to cure adhesive that attaches the light sensor or the support structure to the opaque structure. The light sensor may be optically aligned with the aperture by viewing the aperture through an opening in the support structure, by viewing the alignment features on the light sensor through the aperture or by gathering alignment data using the light sensor during alignment operations. | 03-13-2014 |
20140071594 | Components Having Breakaway Installation Handles - A component may be molded with an integral breakaway installation handle. The breakaway installation handle may be used to manipulate and maneuver the component during assembly operations and during component mounting operations. A technician may use the breakaway installation handle to mount the component to a fixture while applying adhesive, attaching a mesh, or performing other assembly operations on the component. Following assembly operations, the technician may use the breakaway installation handle to install the component in an electronic device. After installing the component in the electronic device, the technician may bend the breakaway installation handle with respect to the component until the breakaway installation handle breaks off from the component. Components having breakaway installation handles may be formed form an injection molding system in which mold cavities each receive molten plastic from a runner. Plastic that solidifies in each runner may form the breakaway installation handle for each component. | 03-13-2014 |
20140071597 | AFFINITY BOND LAYER - A method and apparatus for bonding a first substrate to a second substrate can include an intermediate layer disposed between the substrates. In one embodiment, the intermediate layer can be disposed to a bonding area of the first substrate and only one adhesive layer can be disposed between the intermediate layer and the second substrate. In other embodiments, a plurality of intermediate layers can be used. | 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 |
20140072759 | SYSTEMS AND METHODS FOR PROTECTION OF COSMETIC SURFACES AND OVERFLOW PREVENTION ON ELECTRONIC DEVICES - Systems and methods for protection of cosmetic surfaces on electronic devices and adhesive overflow prevention are provided. In particular, an assembly for protecting a cosmetic surface can include a heat activated adhesive, such as a heat active film adhesive (“HAF”), which can be used to secure a mesh to the cosmetic surface. In some embodiments, a protective layer having a center layer laminated between two layers of heat activated adhesive can be used to protect the cosmetic surface from scratches caused by the mesh. In some embodiments, one or more hot shoes can be used to cross-link the heat activated adhesives to the mesh and the cosmetic surface. Because the shape of a shoe can influence the flow of heat activated adhesives during cross-linking, different shoes can be selected in order to minimize overflow in certain locations in the assembly. | 03-13-2014 |
20140113475 | RETENTION KEY LOCK FOR BOARD-TO-BOARD CONNECTORS - Board-to-board connectors that consume a minimal amount of board area, are simple to assemble, and provide a clear indication that a proper connection has been made. One example may consume minimal area, since only a retention key and slots in boards and connectors are needed. The connector may be simple to assemble since it may be as simple as stacking components, pushing down, and turning a retention key. Further, a first and a first line on a key and a cowling may be aligned after assembly to provide a clear indication that the connector has been properly assembled. | 04-24-2014 |
20140140018 | Flexible Printed Circuit Connector Protection Structures - Protection structures may be provided to protect connectors, printed circuits, and other internal device components from damage. Components may shift within a device if the device is unexpectedly dropped. Protection structures can shield printed circuit connectors and other structures so that component movement during a drop event does not dislodge a printed circuit connector or otherwise damage a device. A cowling can be used to hold a board-to-board connector or other connector together. The cowling may have a protruding portion that is bent to form a protective wall. Plastic structures may be molded onto the cowling to form protective walls. Protection structures for printed circuit connectors and other internal device components may be formed from spring-based structures that clip onto the edge of a printed circuit board. | 05-22-2014 |
20140140021 | Component Mounting Structure With Flexible Jumper - An electronic device contains electrical components. An electrical component is mounted to an electronic device housing using mounting structures. The mounting structures include a flexible printed circuit jumper having opposing ends with metal contact pads. Metal traces in the flexible printed circuit jumper form contact traces within openings in a solder mask layer. Solder in the openings may be used to connect the metal contact pads to the contact traces. A metal bracket may be screwed into the electronic device housing to mount the electrical component to the electronic device housing. The metal bracket may press the metal contact pads on one end of the jumper against mating contact terminals on the electrical component and may press the metal contacts on the other end of the jumper against mating contact pads on an additional printed circuit. | 05-22-2014 |
20140140533 | Electronic Device Having Components With Elastomeric Sealing Structures - An electronic device has a housing in which components are installed. The components contain audio components having audio ports and terminals. Elastomeric material is molded over the surface of an audio component so that the leads attached to the terminals protrude through the elastomeric material. The protruding portions of the leads are bent back to lie flush with the surface of the elastomeric material. The elastomeric material are configured to form elastomeric structures with an opening that is aligned with the audio port in a component. The housing of an electronic device has one or more openings that form an audio port. The opening in the elastomeric structures that are molded onto the audio component is aligned with the audio port in the housing and the audio port in the audio component. Mesh structures cover the audio port in the housing. | 05-22-2014 |
20140153211 | Electronic Device With Antenna Cable Bracket - An electronic device contains circuitry such as radio-frequency transceiver circuitry and antenna structures that are coupled using transmission line paths such as coaxial cable paths. A coaxial cable is mounted within an electronic device housing cable mounting structures. The coaxial cable has a meandering portion that forms a service loop. The cable mounting structures includes grooves that receive the meandering portion of the cable. The grooves may be formed within a molded plastic body. Patterned metal may be formed on the surface of the molded plastic body using laser-based processing techniques. The cable in the meandering portion may have a segment in which an outer cable conductor is exposed. The patterned metal on the molded plastic body may short the exposed outer conductor to the electronic device housing or other ground structure. | 06-05-2014 |
20140159989 | Adjustable Antenna Structures for Adjusting Antenna Performance in Electronic Devices - Adjustable antenna structures may be used to compensate for manufacturing variations in electronic device antennas. An electronic device antenna may have an antenna feed and conductive structures such as portions of a peripheral conductive electronic device housing member and other conductive antenna structures. The adjustable antenna structures may have a movable dielectric support. Multiple conductive paths may be formed on the dielectric support. The movable dielectric support may be installed within an electronic device housing so that a selected one of the multiple conductive paths is coupled into use to convey antenna signals. Coupling the selected path into use adjusts the position of an antenna feed terminal for the antenna feed and compensates for manufacturing variations in the conductive antenna structures that could potentially lead to undesired variations in antenna performance. | 06-12-2014 |
20140160684 | COOLING FOR ELECTRONIC COMPONENTS - Examples of electronic components and printed circuit board assemblies which may be configured for directional heat transport are described herein. A circuit board assembly according to the examples herein may include a plurality of stacked planar layers, including a signal layer with a plurality of signal traces, a ground layer separated from the signal layer using an insulating layer, and a plurality of heat sink traces extending from the ground layer through at least a portion of the thickness of the insulating layer, each of the plurality of heat sink traces being electrically insulated from the signal traces and coupled to ground. The circuit board assembly may further include one or more electronic components electrically coupled to the signal layer using one or more of the signal traces, with the heat sink traces arranged around the one or more electronic components such that heat is selectively directed from one location of the board (e.g. a heat source, or hotter one of a plurality of components) to another location of the board (e.g. a perimeter of the board, or off the board). | 06-12-2014 |
20140177180 | Electromagnetic Interference Shielding and Strain Relief Structures For Coupled Printed Circuits - Electrical components in an electronic device are mounted on substrates such as printed circuits. Printed circuits contain signal paths formed from metal traces. The signal lines in the signal paths of the printed circuits are coupled together using electrical connection structures such as printed circuit board-to-board connectors, contacts joined by anisotropic conductive film, or contacts joined using solder. Electrical connection structures may be surrounded by conductive resilient ring-shaped structures such as conductive foam structures or spring structures. The conductive foam structures may be provided with a metal layer with which the conductive foam structures are soldered to a ring of metal on a printed circuit. Strain relief structures may be formed from an elastomeric ring that surrounds the electrical connection structures or an overmolded plastic structure. Coating layers and conductive plastic may be used in providing strain relief structures with electromagnetic interference shielding capabilities. | 06-26-2014 |
20140177181 | Electromagnetic Interference Shielding Structures - Electrical components are mounted on a printed circuit in an electronic device housing. Shielding can structures may include a sheet metal shield can layer with a conductive gasket. The printed circuit may have an opening. A screw passes through the opening in the printed circuit and openings in the conductive gasket and sheet metal shield can layer to secure the shielding can structures to the housing. When secured, a lip in the gasket lies between the printed circuit substrate and the housing. The gasket may be formed from conductive elastomeric material. A shield can lid and a flexible printed circuit may be embedded within conductive elastomeric material that provides a thermal conduction path to dissipate heat from electrical components under the lid. Shield can members that are located on opposing sides of a bend in a flexible printed circuit substrate may be coupled by a conductive elastomeric bridging structure. | 06-26-2014 |
20140216903 | Switches and Switch Mounting Structures - An electronic device has circuitry mounted within an electronic device housing. The electronic device housing may have housing walls such as metal sidewalls. Openings are formed in an electronic device housing wall to accommodate buttons. A button may have a switch with a switch housing mounted to the housing wall. A movable button member that extends from the switch housing may protrude through a housing opening. Switch terminals are coupled to signal lines on structures such as flexible printed circuits. The switch terminals may be formed from portions of elongated switch leads supported by support structure that are mounted to the housing wall or may be formed on an inner surface of the switch housing. Support structures may be molded into engagement with features on a housing wall or may be mounted to a housing wall using a fastener such as a screw. | 08-07-2014 |
20140220320 | MOLDED PARTS - A method and apparatus for injection molding plastic parts is described. In one embodiment, at least two materials are simultaneously injected into a mold. The resulting molded part can include at least two different regions. Each region can have distinct physical properties. Positions of the regions within the molded part can be at least partially controlled by controlling flow fronts of the at least two materials within the mold. | 08-07-2014 |
20140339736 | TOOLING CONCEPTS FOR REDUCING SINK AND IMPROVING AS-MOLDED COSMETICS AND DRAWINGS - The described embodiments relate generally to improvements to injection molding equipment. More specifically, concepts for reducing sink and improving cosmetics of portions of injection molded parts in close proximity to gate areas of an injection mold are disclosed. A cold runner system is described in which molding material disposed in a mold cavity is separated from excess molding material in the runner system shortly after the mold is filled at a predetermined packing pressure. | 11-20-2014 |
20160086456 | Electronic Device With Electrically Controlled Button Indicator - An electronic device may have a housing. Electrical components may be mounted in an interior portion of the housing. A display may be mounted to the housing to display images for a user. A button may have a movable button member that moves inwardly and outwardly with respect to the housing. Control circuitry can use a sensor to monitor button press activity on the button. A visual indicator such as an electrophoretic display or other low power display may be mounted on a protruding portion of the button member. The control circuitry can alter the visual appearance of the visual indicator in response to detection of button presses on the button member. The button may be sealed to prevent intrusion of moisture into the interior of the housing. | 03-24-2016 |
Patent application number | Description | Published |
20110255259 | MOUNTING STRUCTURES FOR COMPONENTS IN ELECTRONIC DEVICES - An electronic device may be provided with a housing having housing sidewalls. A plate may be connected between a pair of the sidewalls. An audio jack may be mounted to the plate. A microphone may be mounted within the device between the audio jack and a given one of the sidewalls. A vibrator may be mounted between one of the sidewalls and the audio jack using a bracket. The vibrator may have a weight that is tapered along its length. A button may be formed in an opening in one of the housing sidewalls. The button may have a button member with a protrusion that extends through a button opening in the sidewall. A support structure may be interposed between a switch and the button member. The switch may have a portion that extends through an opening in the support structure and that is actuated by the button member. | 10-20-2011 |
20110255260 | BUTTON STRUCTURES FOR ELECTRONIC DEVICES - An electronic device may have buttons, a display, and a vibrator unit. Buttons may be included in electronic devices such as glass buttons, metal buttons, buttons that are assembled on printed circuit boards, and buttons that are partly formed from antenna structures. Button coatings may be used to improve the sliding performance of metal-on-metal buttons. A layer of polymer may be interposed between a button plate and a housing structure. A glass button member may have an underside on which a layer of patterned ink is formed. Elastomeric members may be used to reduce button rattle. Portions of a button may be provided with conductive features that form portions of an antenna. | 10-20-2011 |
20110290630 | SLIDING BUTTON WITH ROTATING SHAFT - An electronic device may have a housing with an opening. A button may be formed within the electronic device. The button may have a button member that is actuated by a user. The button member may translate within an opening in the electronic device housing when actuated by a user. The button may have a shaft that is coupled to the button member by a coupling mechanism. When the button member is laterally translated within the opening, the coupling mechanism may rotate the shaft about its longitudinal axis. The button may be provided with detents using a detent biasing mechanism. The detent biasing mechanism may be based on a spring having grooves that interact with a protrusion on the shaft or a spring-loaded pin that engages recesses in the shaft. A switch mechanism for the button may be formed using traces on the shaft, spring-type switch contacts, and other structures. | 12-01-2011 |
20110300751 | AUDIO CONNECTOR CONTROL SYSTEM - An electronic device such as a portable music player, cellular telephone, or computer may be provided with an audio jack system that allows audio plug position measurements to be made. Sensors such as optical sensors, magnetic sensors, mechanical sensors, electrical sensors, resistive sensors, and capacitive sensors may be used in monitoring the position and movement of the audio plug relative to the audio jack. A user may rotate the audio plug to control operations such as media playback operations, menu selection operations, and other activities in the electronic device. The audio jack may include flexible structures that allow the audio plug to be tilted relative to the audio jack. Capacitive sensors or other sensors may be used to monitor audio plug tilt and axial audio plug movement. This allows the audio plug to serve as a joystick for the electronic device. | 12-08-2011 |
20130052947 | ELECTRONIC DEVICE WITH SHARED NEAR FIELD COMMUNICATIONS ELEMENT - Electronic devices may be provided with near field communications capabilities. A near field communications antenna may be formed from multiple inductive components. The inductive components may include a speaker coil. One or more switches may be provided in the near field communications antenna to adjust the inductance of the near field communications antenna during different modes of operation. An audio circuit may be used to generate audio signals. A first transmitter may be used to transmit near field hearing aid signals through the near field communications antenna. A second transmitter may be used to transmit near field communications signals to external equipment such as near field communications point of sale equipment. Switching circuitry may be used to selectively couple the audio circuit, the first transmitter, and the second transmitter to the near field communications antenna. | 02-28-2013 |
20130239372 | LATCH MECHANISM DEVICE AND METHODS OF USE - Latch mechanism devices for attaching components within a device and methods of use are provided herein. In one aspect, the latch mechanism includes a pair of deflectable members between which a protruding latch member, such as a latch pin, is inserted thereby separating the deflectable members. A latch pin can have a distal insertion portion and a proximal locking portion, the locking portion having a reduced profile so as to resiliently receive the deflectable members displaced by insertion of the latch pin so as to couple the latch pin between the cords. The latch pin can have insertion faces and locking faces angled so as to control the force required to insert and retract the latch pin from the cord pair. The latch mechanism may utilize releasing mechanisms for separating or reducing tension in the deflectable members to facilitate retraction of the latch pin. | 09-19-2013 |
20140085859 | Camera Light Source Mounting Structures - An electronic device may be provided with an electronic component such as a camera light source containing a light-emitting diode. During operation, the light-emitting diode may produce heat. Thermally conducting elastomeric structures may have features such as sidewalls that mate with external surface of the camera light source or other electronic component to dissipate heat from the electronic component. Metal structures such as a bracket may be used to press the elastomeric structures and the electronic component towards a wall of a housing for the electronic device. Support structures may be interposed between the wall of the housing and the elastomeric structures. The support structures may have an opening that is aligned with an opening in the housing wall. Insert structures may be received within the opening in the support structures. The electronic component may be aligned with the insert structures and the opening in the support structures. | 03-27-2014 |
Patent application number | Description | Published |
20130327621 | MODULAR MOLDED INTERCONNECT DEVICES - A switching subassembly includes a modular molded interconnect bracket and a switching device arranged on the modular molded interconnect bracket. The modular molded interconnect includes at least one electronic circuit trace arranged thereon configured to interconnect a portion of a flexible printed circuit board and to support a portion of the flexible printed circuit board. The switching device is configured to contact portions of the at least one electronic circuit trace. | 12-12-2013 |
20140092532 | SYSTEMS AND METHODS FOR SECURING COMPONENTS OF AN ELECTRONIC DEVICE - Systems and methods for securing components of an electronic device are provided. In some embodiments, the electronic device may include a housing having an opening, a cover resting on a portion of the electronic device in a first cover position within the opening, and a lock component configured to move within the housing from a first lock position to a second lock position for securing the cover in the first cover position. | 04-03-2014 |
20160062213 | CAMERA FEATURES OF AN ELECTRONIC DEVICE - An electronic device having a securing member for a camera module is disclosed. The securing member may include several flexible spring elements extending around the camera module to maintain the position of the camera module during an assembly process of the electronic device. The securing member and the housing may be made from an electrically conductive material or materials. In this manner, the securing member may further provide the camera module with an electrical ground to prevent excessive electric charge within the camera module. In some embodiments, an alignment member is positioned on the housing and aligns the camera module and/or securing member with an aperture of the housing. | 03-03-2016 |
20160064810 | FLEXIBLE SHOCK ABSORBING CONNECTIONS WITHIN A MOBILE COMPUTING DEVICE - The subject matter of the disclosure relates to connectors for antenna feed assemblies and display coupling components of a mobile device. The flexible connectors can be configured with a flexible spring connector component that couples a mobile device antenna to a main logic board of the mobile device within a housing of the mobile device such that the flexible connector can withstand a drop event, while at the same providing for an in-line inductance as part of an antenna-defined design requirement. The display of the mobile device can be coupled to a housing of the mobile device using a pin-screw arrangement that allows the display to controllably shift in the X-direction and the Y-direction, while only being purposefully constrained in the Z-direction (with reference to a 3-dimensional graph having X, Y, and Z axes). This configuration can prevent the display from being pulled out of alignment during a drop event. | 03-03-2016 |
20160066454 | HOUSING FEATURES INCLUDING LOGO FEATURES OF AN ELECTRONIC DEVICE - An enclosure having an indicium (e.g., logo) and a method for securing an indicium to an enclosure is disclosed. The enclosure includes an aperture extending through an interior portion and an exterior portion of the enclosure. The aperture may include concentric portions. For example, the aperture may include a first opening formed on an interior portion and a second opening smaller than the first opening formed on the exterior portion. The indicium may include a flange member such that the indicium may extend through the first opening but not the second opening. Also, in some embodiments, a plate is adhesively secured to the indicium and the enclosure; however, the indicium is not directly adhesively secured to the enclosure. This may prevent adhesively from protruding from an interface region between the indicium and the enclosure. | 03-03-2016 |
20160071668 | PIVOTING ELECTRICAL SWITCH - The embodiments discussed herein relate to electrical switches. Specifically, the embodiments include a pivoting switch that translates a rotational movement of a portion of the pivoting switch into a linear movement for toggling a button. The pivoting switch can include a pin that extends into a bracket in order to define and limit a rotational movement of the pivoting switch. The pivoting switch can further include a switch cavity that can force a knob of the button to move with the pivoting switch. The embodiments can further include an electrical switch having a welded cover plate. The welded cover plate can include arms that extend across and are welded to one or more surfaces of the electrical switch. The welded cover plate provides a more secure retaining mechanism for the electrical switch in order to reduce bending of certain portions of the electrical switch when the electrical switch is toggled. | 03-10-2016 |
20160072932 | HOUSING FEATURES OF AN ELECTRONIC DEVICE - An enclosure and a method for forming an enclosure are disclosed. The enclosure may be formed from metal, such as aluminum, and further include a non-metal portion allowing for transmission and receipt of electromagnetic waves. The non-metal portion may be interlocked to the enclosure and in particular, to a region within the enclosure including a first material having a relatively high strength and stiffness compared to the non-metal portion. Interlocking means may include forming dovetail cuts into the enclosure to receive the non-metal portion, a hole or cavity drilled into the enclosure which includes internal threads, and a rod inserted into the first material to provide a tension to the non-metal portion. Methods of assembling internal components using anodization are also disclosed. | 03-10-2016 |
20160073529 | SUBSCRIBER IDENTITY MODULE (SIM) EJECTOR - Several embodiments for ejecting a SIM tray from an electronic device are disclosed. In some embodiments, a lever positioned behind the tray can be actuated to eject the tray. In some embodiments, a pivot mechanism can be actuated to eject the tray. In other embodiments, a gear mechanism can be actuated to eject the tray. In other embodiments, a spring element can be actuated to eject the tray. In some embodiments, the electronic device may include a key feature that allows the tray to eject only when a tool is used having a mating key feature with the key feature of the electronic device. | 03-10-2016 |
Patent application number | Description | Published |
20120175232 | STRUCTURALLY ENHANCED SWITCH ASSEMBLIES - Slide switch assemblies with structural enhancements are provided for use in electronic devices. Slide switch assemblies in accordance with embodiments the invention can include a button, an engagement member, and switch box. The engagement member couples the button to the switch box and translates any movement of the button to the switch box. The switch box is mounted offset with respect to the button because another component such as, for example, a display screen occupies the space that would have been a better mounting position for the switch box. To compensate for the offset, and the added torsion that is applied to the engagement member during button movement events, the engagement member is structurally enhanced. | 07-12-2012 |
20120175506 | SHEET AND BLOCK FOR ENHANCING PROXIMITY SENSOR PERFORMANCE - An electronic device can include different components providing different functionality. Some electronic devices can include a proximity sensor for determining when a user's face is near the device. The sensor can include an emitter and a detector that are separated by a foam block to limit cross-talk between the emitter and detector. A sheet can be placed over the foam block to define openings for each of the emitter and detector. Some electronic devices can also include a camera. A glass cover secured to the device enclosure can protect the camera. To improve an adhesive bond between the glass cover and a metal enclosure, an ink layer can be placed between an adhesive and the glass. In addition, the camera or another component may need to be grounded to ensure proper operation. During assembly, however, the position of the camera can shift due to closing an enclosure. A grounding assembly that maintains contact with the camera in its initial and final positions can be provided. | 07-12-2012 |
20120176760 | SYSTEMS AND METHODS FOR GROUNDING A MOVABLE COMPONENT - An electronic device can include different components providing different functionality. Some electronic devices can include a proximity sensor for determining when a user's face is near the device. The sensor can include an emitter and a detector that are separated by a foam block to limit cross-talk between the emitter and detector. A sheet can be placed over the foam block to define openings for each of the emitter and detector. Some electronic devices can also include a camera. A glass cover secured to the device enclosure can protect the camera. To improve an adhesive bond between the glass cover and a metal enclosure, an ink layer can be placed between an adhesive and the glass. In addition, the camera or another component may need to be grounded to ensure proper operation. During assembly, however, the position of the camera can shift due to closing an enclosure. A grounding assembly that maintains contact with the camera in its initial and final positions can be provided. | 07-12-2012 |
20120177358 | SYSTEMS AND METHODS FOR COUPLING A COVER TO AN ENCLOSURE - An electronic device can include different components providing different functionality. Some electronic devices can include a proximity sensor for determining when a user's face is near the device. The sensor can include an emitter and a detector that are separated by a foam block to limit cross-talk between the emitter and detector. A sheet can be placed over the foam block to define openings for each of the emitter and detector. Some electronic devices can also include a camera. A glass cover secured to the device enclosure can protect the camera. To improve an adhesive bond between the glass cover and a metal enclosure, an ink layer can be placed between an adhesive and the glass. In addition, the camera or another component may need to be grounded to ensure proper operation. During assembly, however, the position of the camera can shift due to closing an enclosure. A grounding assembly that maintains contact with the camera in its initial and final positions can be provided. | 07-12-2012 |
20130233691 | STRUCTURALLY ENHANCED SWITCH ASSEMBLIES - Slide switch assemblies with structural enhancements are provided for use in electronic devices. Slide switch assemblies in accordance with embodiments the invention can include a button, an engagement member, and switch box. The engagement member couples the button to the switch box and translates any movement of the button to the switch box. The switch box is mounted offset with respect to the button because another component such as, for example, a display screen occupies the space that would have been a better mounting position for the switch box. To compensate for the offset, and the added torsion that is applied to the engagement member during button movement events, the engagement member is structurally enhanced. | 09-12-2013 |