Patent application number | Description | Published |
20110025176 | Multiple Position Stand - A support mechanism for supporting an object on a surface is disclosed. The support mechanism includes a joint connected to the object; and a stand connected to the joint. The joint may selectively rotate to allow the stand to support the object on the surface in: a first position comprising a landscape orientation at a first angle between the object and the surface, a second position comprising a landscape orientation at a second angle between the object and the surface, a third position comprising a portrait orientation at a third angle between the object and the surface, and a fourth position comprising a portrait orientation at a fourth angle between the object and the surface. | 02-03-2011 |
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 |
20110164370 | ASSEMBLY OF DISPLAY MODULE - 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 a single piece housing and a display module. The display module can include a protective top glass cover that is bonded to a plastic display frame and surrounded by a seal frame. The display module can also include a display panel and its associated circuitry suspended from the display frame below the protective glass cover. The display module is coupled to the single piece housing mounting clips in a manner that allows the display module to move relative to the single piece housing during an impact event. The plastic display frame can include inserts that provide structural support near openings in the single piece housing. | 07-07-2011 |
20110164371 | PRINTED CIRCUIT BOARD - A methodology for connecting device components with circuitry located at different levels and orientations relative to one another is described. First circuitry can be located on a multi-plane rigid circuit board where the multi-plane rigid circuit board can include at least one flexible member sharing a common substrate with the multi-plane rigid circuit board that extends from a body portion of the multi-plane rigid circuit board. The flexible member can include traces used to convey power and/or data and an interface coupled to the power and/or data traces. The flexible member can be deflected or twisted to connect first circuitry on the body portion of the multi-plane rigid circuit board to second circuitry associated with another device component. | 07-07-2011 |
20110164372 | DISPLAY MODULE - 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 a single piece housing and a display module. The display module can include a protective top glass cover that is bonded to a plastic display frame and surrounded by a seal frame. The display module can also include a display panel and its associated circuitry suspended from the display frame below the protective glass cover. The display module is coupled to the single piece housing mounting clips in a manner that allows the display module to move relative to the single piece housing during an impact event. The plastic display frame can include inserts that provide structural support near openings in the single piece housing. | 07-07-2011 |
20110164767 | LOW-PROFILE SPEAKER ARRANGEMENTS FOR COMPACT ELECTRONIC DEVICES - A portable electronic device that provides audio sound output from multiple internal speakers to a common output audio opening in a housing of the portable electronic device is disclosed. In one embodiment, the multiple internal speakers are provided in close proximity to one another, such as adjacent to one another, and serve to produce audio sound pertaining to different audio channels. The sound (i.e., pressure waves) produced by each of the internal speakers is directed into a respective acoustic chamber and output via the output audio opening in the housing. Accordingly, the acoustic chambers for the multiple internal speakers can each direct their audio sound output to the same output audio opening in the housing. The respective acoustic chambers can be formed adjacent to one another with a structural barrier serving to separate the distinct acoustic chambers. | 07-07-2011 |
20110166690 | HANDHELD COMPUTING DEVICE - 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 is 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 |
20110212288 | FOAM/ADHESIVE COMPOSITE AND METHODS OF USE THEREOF - A composite formed by impregnating open cell foam having a plurality of foam cells with liquid adhesive, wherein the liquid adhesive fills most of the plurality of foam cells, wherein in an uncured state, the composite remains pliable and compressible, wherein in a cured state, the composite becomes rigid and is capable of adhering to a surface in contact therewith, and wherein in the uncured state, the composition responds to applied pressure to a surface of the composite by generating a counter pressure uniformly along the surface. | 09-01-2011 |
20110225817 | PRINTED CIRCUIT BOARD - A methodology for connecting device components with circuitry located at different levels and orientations relative to one another is described. First circuitry can be located on a multi-plane rigid circuit board where the multi-plane rigid circuit board can include at least one flexible member sharing a common substrate with the multi-plane rigid circuit board that extends from a body portion of the multi-plane rigid circuit board. The flexible member can include traces used to convey power and/or data and an interface coupled to the power and/or data traces. The flexible member can be deflected or twisted to connect first circuitry on the body portion of the multi-plane rigid circuit board to second circuitry associated with another device component. | 09-22-2011 |
20110304984 | BATTERY ASSEMBLY FOR BATTERY POWERED PORTABLE DEVICES - A battery assembly includes at least a plurality of battery cells that includes at least a first and a second battery cell each attached to a distributed battery monitoring unit, the second battery cell being associated with an external circuit, the second battery cell connected to a battery management unit (BMU) by way of a pre-formed battery contact shaped to accommodate the external circuit. The plurality of battery cells are electrically connected to at least the BMU such that each of the plurality of battery cells are substantially aligned with each other thereby preserving a battery profile corresponding to unconnected battery cells. | 12-15-2011 |
20120194393 | ANTENNA, SHIELDING AND GROUNDING - 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 a single piece housing formed from a radio opaque material with a cover formed from a radio transparent material. To implement a wireless interface, an antenna stack-up can be provided that allows an antenna to be mounted to a bottom of the cover. Methods and apparatus are provided for improving wireless performance. For instance, in one embodiment, a metal housing can be thinned to improve antenna performance. As another example, a faraday cage can be formed around speaker drivers to improve antenna performance. | 08-02-2012 |
20120194998 | HANDHELD PORTABLE DEVICE - 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 can be machined from a single billet of material, such as a billet of aluminum. The single piece housing can include ledges with a surface receiving a trim bead and a cover. Corner brackets can be attached to the single piece housing to improve the damage resistance of the housing. | 08-02-2012 |
20120195008 | METHOD OF MANUFACTURING A PRINTED CIRCUIT BOARD - A methodology for connecting device components with circuitry located at different levels and orientations relative to one another is described. First circuitry can be located on a multi-plane rigid circuit board where the multi-plane rigid circuit board can include at least one flexible member sharing a common substrate with the multi-plane rigid circuit board that extends from a body portion of the multi-plane rigid circuit board. The flexible member can include traces used to convey power and/or data and an interface coupled to the power and/or data traces. The flexible member can be deflected or twisted to connect first circuitry on the body portion of the multi-plane rigid circuit board to second circuitry associated with another device component. | 08-02-2012 |
20120196462 | FLAT OBJECT EJECTOR ASSEMBLY - An apparatus for ejecting a flat object from a casing of a mobile device is disclosed. The apparatus is arranged to receive an ejection tool along a first axis and to eject the flat object along a second axis, wherein the first and second axes are not parallel. In one embodiment, the first axis is parallel to a top surface of the mobile device and the second axis is perpendicular to a curved edge surface of the mobile device. In one embodiment, the apparatus includes a first pivot element to receive the ejection tool and rotate thereby displacing a lever section of a second pivot element. The second pivot element includes a tabular element that contacts and ejects the flat object upon rotation of the second pivot element. | 08-02-2012 |
20120268882 | DISPLAY MODULE - 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 a single piece housing and a display module. The display module can include a protective top glass cover that is bonded to a plastic display frame and surrounded by a seal frame. The display module can also include a display panel and its associated circuitry suspended from the display frame below the protective glass cover. The display module is coupled to the single piece housing using mounting clips in a manner that allows the display module to move relative to the single piece housing during an impact event. The plastic display frame can include inserts that provide structural support near openings in the single piece housing. | 10-25-2012 |
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 |
20130100607 | HANDHELD COMPUTING DEVICE - 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 is 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. | 04-25-2013 |
20130108906 | NON-RECTANGULAR BATTERIES FOR PORTABLE ELECTRONIC DEVICES | 05-02-2013 |
20130108907 | CURVED BATTERY CELLS FOR PORTABLE ELECTRONIC DEVICES | 05-02-2013 |
20130115500 | BATTERY ASSEMBLY FOR BATTERY POWERED PORTABLE DEVICES - A battery assembly includes at least a plurality of battery cells that includes at least a first and a second battery cell each attached to a distributed battery monitoring unit, the second battery cell being associated with an external circuit, the second battery cell connected to a battery management unit (BMU) by way of a pre-formed battery contact shaped to accommodate the external circuit. The plurality of battery cells are electrically connected to at least the BMU such that each of the plurality of battery cells are substantially aligned with each other thereby preserving a battery profile corresponding to unconnected battery cells. | 05-09-2013 |
20130136289 | LOW-PROFILE SPEAKER ARRANGEMENTS FOR COMPACT ELECTRONIC DEVICES - A portable electronic device that provides audio sound output from multiple internal speakers to a common output audio opening in a housing of the portable electronic device is disclosed. In one embodiment, the multiple internal speakers are provided in close proximity to one another, such as adjacent to one another, and serve to produce audio sound pertaining to different audio channels. The sound (i.e., pressure waves) produced by each of the internal speakers is directed into a respective acoustic chamber and output via the output audio opening in the housing. Accordingly, the acoustic chambers for the multiple internal speakers can each direct their audio sound output to the same output audio opening in the housing. The respective acoustic chambers can be formed adjacent to one another with a structural barrier serving to separate the distinct acoustic chambers. | 05-30-2013 |
20130136967 | CURVED BATTERY CELLS FOR PORTABLE ELECTRONIC DEVICES - The disclosed embodiments relate to the manufacture of 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, wherein the pouch is flexible. The layers may be wound to create a jelly roll prior to sealing the layers in the flexible pouch. A curve may also be formed in the battery cell by applying a pressure of at least 0.13 kilogram-force (kgf) per square millimeter to the layers using a set of curved plates applying a temperature of about 85° C. to the layers. | 05-30-2013 |
20130176512 | Displays with Liquid Crystal Shutters - An electronic device may have a display such as a liquid crystal display. The display may have an array of display pixels. The array of display pixels may display images for a user in an active area of the display. An inactive area of the display may surround the active area. An opaque masking layer may be provided in the inactive area to block internal components in the electronic device from view. An optical component such as a light-based proximity sensor, ambient light sensor, image sensor, or light-emitting status indicator may be aligned with an opening in the opaque masking layer. A liquid crystal shutter may be provided in the display. The liquid crystal shutter may be controlled by control circuitry in the electronic device. The liquid crystal shutter may be aligned with the opening in the opaque masking layer in the inactive area and with the optical component. | 07-11-2013 |
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 |
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 |
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 |
20140075743 | HANDHELD PORTABLE DEVICE - 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 can be machined from a single billet of material, such as a billet of aluminum. The single piece housing can include ledges with a surface receiving a trim bead and a cover. Corner brackets can be attached to the single piece housing to improve the damage resistance of the housing. | 03-20-2014 |
20140110231 | SLIDE INPUT COMPONENT ASSEMBLIES OF AN ELECTRONIC DEVICE AND METHODS FOR MAKING THE SAME - Slide input component assemblies of an electronic device and methods for making the same are provided. In some embodiments, a slide input component assembly may include a slide button subassembly that may have a knob, a base, a retention mechanism that may couple the knob to the base, and a shell part that may be provided about at least a portion of the base. The slide input component assembly may also include a slide switch subassembly that may have a switch that may be configured to move along a switch path when the slide button subassembly moves along a button path. | 04-24-2014 |
20140111684 | Antenna Structures and Electrical Components with Grounding - An electronic device may have a conductive housing with an antenna window. Antenna structures may be mounted adjacent to the antenna window. The antenna structures may have a dielectric carrier. Patterned metal antenna traces may be formed on the surface of the dielectric carrier. A proximity sensor may be formed from a flexible printed circuit mounted on the dielectric carrier. The flexible printed circuit may have a tail that contains a transmission line for feeding the antenna structures. The transmission line may include a positive signal conductor that is maintained at a desired distance from the conductive housing using a polymer sheet. A portion of the antenna structures may protrude between a microphone and a camera module. Plastic camera module housing structures may have an inner surface coated with a shielding metal. A U-shaped conductive fabric layer may be used as a grounding structure. | 04-24-2014 |
20140111953 | Electronic Devices With Components Mounted to Touch Sensor Substrates - Touch panel structures may be provided with flexible substrates. A touch sensor array may be formed from transparent capacitive touch sensor electrodes. Electrical components such as ambient light sensors, proximity sensors, magnetic sensors, camera sensors, buttons, and integrated circuits may be mounted on the same flexible substrate as the transparent capacitive touch sensor electrodes. A flexible substrate for a touch panel structure may be formed from multiple substrate portions that are coupled using solder connections or conductive adhesive connections. A touch panel may have a flexible tail that is coupled to a printed circuit board in an electronic device housing. The flexible tail may bend when installing the touch panel in the housing. | 04-24-2014 |
20140112511 | Electronic Device With Conductive Fabric Shield Wall - An electronic device may have a housing such as a metal housing. A display may be mounted in the metal housing. Antenna structures may be mounted in the housing under an inactive peripheral portion of the display. Integrated circuits and other electrical components may be mounted in the housing under an active central portion of the display. Shielding structures may be configured to form a wall that extends between the display and the metal housing. The shielding structures may include a sheet of conductive fabric that is shorted to the metal housing and metal chassis structures in the display. The shielding structures may also include a tube of conductive fabric that is capacitively coupled to ground traces in a touch sensor panel. The conductive fabric tube and the sheet of conductive fabric may be shorted to each other using conductive adhesive. | 04-24-2014 |
20140113463 | Structures for Securing Printed Circuit Connectors - Printed circuit substrates may be formed from rigid printed circuit material or flexible sheets of polymer. Printed circuit substrates may have conductive traces. Integrated circuits, touch sensor electrode structure, sensors, and other components may be mounted to the conductive traces. Connectors such as board-to-board connectors may be used to couple printed circuit substrates together. To hold the connectors together and to provide electromagnetic shielding, printed circuits and connectors may be surrounded by printed circuit connector securing structures. The printed circuit connector securing structures may have one or more strips of conductive fabric tape wrapped around the connectors. Metal stiffening members may be attached to opposing ends of the strip of conductive tape to facilitate removal of the tape for rework or repair. An additional strip of tape may be used to help secure the wrapped conductive tape. The additional strip of tapc may have a tab to facilitate removal. | 04-24-2014 |
20140117006 | INDUCTION ACTIVATED THERMAL BONDING - The described embodiment relates generally to the field of inductive heating. More specifically an inductive heater designed for use in assembling electronics is disclosed. A number of methods for shaping a radio-frequency (RF) receiver structure are disclosed for the purpose of completing an inductive bonding process without causing harm to adjacent electrical components. | 05-01-2014 |
20140138011 | Methods for Assembling Devices Using Pressure Indicator Adhesives - Pressure indicator pressure sensitive adhesive may contain microspheres that burst and release indicator when subjected to pressure and thereby produce a detectable indication of how much pressure has been applied when forming an adhesive joint between opposing structures. Electronic device structures can be assembled using the pressure indicator pressure sensitive adhesive. A camera or other sensor may monitor joint formation. The camera can gather infrared image data, visible light image data, or ultraviolet light image data. Sensor data such as magnetic or ultrasonic sensor data can also be collected on an adhesive joint. Joint inspection can be performed on test structures and production structures and corresponding adjustments made to the joint formation process. Positioners and other equipment that compresses the pressure indicator pressure sensitive adhesive can be adjusted in real time or calibrated using information about the condition of the pressure indicator pressure sensitive adhesive. | 05-22-2014 |