Patent application number | Description | Published |
20080316116 | Handheld electronic device with cable grounding - A handheld electronic device may be provided that contains a conductive housing and other conductive elements. The conductive elements may form an antenna ground plane. One or more antennas for the handheld electronic device may be formed from the ground plane and one or more associated antenna resonating elements. Transceiver circuitry may be connected to the resonating elements by transmission lines such as coaxial cables. Ferrules may be crimped to the coaxial cables. A bracket with extending members may be crimped over the ferrules to ground the coaxial cables to the housing and other conductive elements in the ground plane. The ground plane may contain an antenna slot. A dock connector and flex circuit may overlap the slot in a way that does not affect the resonant frequency of the slot. Electrical components may be isolated from the antenna using isolation elements such as inductors and resistors. | 12-25-2008 |
20080316121 | WIRELESS HANDHELD ELECTRONIC DEVICE - A handheld electronic device may be provided that contains a conductive housing and other conductive elements. The conductive elements may form an antenna ground plane. One or more antennas for the handheld electronic device may be formed from the ground plane and one or more associated antenna resonating elements. Transceiver circuitry may be connected to the resonating elements by transmission lines such as coaxial cables. Ferrules may be crimped to the coaxial cables. A bracket with extending members may be crimped over the ferrules to ground the coaxial cables to the housing and other conductive elements in the ground plane. The ground plane may contain an antenna slot. A dock connector and flex circuit may overlap the slot in a way that does not affect the resonant frequency of the slot. Electrical components may be isolated from the antenna using isolation elements such as inductors and resistors. | 12-25-2008 |
20090000931 | Switch assembly constructions - Electronic devices are provided with switch assembly input components that can have adhesives adhered to the side and/or bottom surfaces of support plates for retaining switches between the adhesives and the tops of the support plates. The switch assembly input components can include buttons with one or more absorption elements for receiving impact energy, reducing the impact energy, and transferring the reduced impact energy onto the switches. | 01-01-2009 |
20090040703 | HOUSING COMPONENTS FOR ELECTRONIC DEVICES AND METHODS FOR CONSTRUCTING THE SAME - Electronic devices are provided with a protective housing having one or more housing components. A housing component can be formed from a single sheet of material to appear as if the housing component had been formed from a hollowed out solid block of material. The sheet of material may be deep drawn, forged, and machined to form the housing component. One or more holes may be formed through a portion of the housing component to provide an I/O interface. | 02-12-2009 |
20090116656 | METHOD AND APPARATUS FOR ACOUSTICS TESTING OF A PERSONAL MOBILE DEVICE - A portable handheld test fixture has an acoustic port, e.g. a speaker port, a microphone, and/or an earpiece/receiver port. Once the media device has been installed onto the test fixture, the port becomes acoustically coupled to a respective acoustic aperture of the media device that is associated with a speaker, a microphone, or an earpiece/receiver as the case may be. A sound test tool, e.g. a reference sound source and/or a sound pressure level, SPL, meter, has an input or output sound port that can be removably coupled to the acoustic port of the test fixture. Other embodiments are also described and claimed. | 05-07-2009 |
20090266699 | Switch structures for use on printed circuit boards - An electrical contact area on a printed circuit board (“PCB”), that would otherwise be subject to abrasion and possibly also corrosion, can be protected by covering it with another, more durable contact structure that is bonded to the first-mentioned contact area using an anistropic conductive adhesive (“ACA”). The more durable contact structure may include a member of PCB material or the like with electrically connected electrical contacts on its upper and lower surfaces. At least the upper one of these contacts (which is exposed for the service that involves possible abrasion and/or corrosion) may be given high durability by plating it with hard gold. The lower of these contacts is adhered to the main PCB via the above-mentioned ACA. | 10-29-2009 |
20100073328 | ANISOTROPIC OPTICAL COVER FOR TOUCH PANEL DISPLAY - A touch panel display configured to improve touch panel detection for sensor panels embedded in display modules. Touch panel detection can be improved by arranging an optically anisotropic cover over a display module within which an optical sensor panel is embedded. Since the optically anisotropic cover comprises light-guiding channels through which light is guided by total internal reflection, the cover can effectively shift the sensor plane from an outer surface of the cover, near the location of an object to be detected, to an inner surface of the cover, near the location of the sensor panel. In additional, the optically anisotropic cover can effectively shift the image plane from the inner surface of the cover, near the display module, to the outer surface of the cover, near the viewing surface. | 03-25-2010 |
20100078562 | HIDDEN SENSORS IN AN ELECTRONIC DEVICE - An electronic device having one or more sensors is provided. The sensors may include any suitable type of sensor, including for example a proximity sensor, an ambient light sensor, or any other suitable type of sensor that emits or receives radiation (e.g., light waves) from the environment. The electronic device may include openings through which radiation may reach the sensors while keeping the sensors hidden from view. In some embodiments, the sensors may be placed underneath an opening used for an audio receiver such that radiation is piped to the sensors using a light path or a chamfered surface along the opening. In some embodiments, the sensors may be embedded in a screen such that the radiation emitted by the sensors exits the screen instead of being reflected on the screen (e.g., to provide content displays). In some embodiments, the sensors may be placed along the periphery of the display, such that access to the sensors is provided via discontinuities in a gasket used to couple the display to the electronic device. | 04-01-2010 |
20100080084 | MICROPHONE PROXIMITY DETECTION - A mobile communications device contains at least two microphones. One microphone is located away from the handset receiver and serves to pick up voice of a near end user of the device for transmission to the other party during a call. Another microphone is located near the handset receiver and serves to pick up acoustic output of the handset receiver (a far end signal). A signal processor measures the frequency response of the receiver. The signal processor performs spectral analysis of the receiver frequency response to determine whether or not the device is being held at the ear of the user. On that basis, the device automatically changes its operating mode, e.g., turns on or off a touch sensitive display screen during the call. Other embodiments are also described. | 04-01-2010 |
20100216526 | Audio Jack with Included Microphone - A connector for receiving a cylindrical plug includes a body defining a plug aperture and a cavity for receiving the cylindrical plug. A plurality of electrical contacts in communication with the cavity make electrical connections with the cylindrical plug and retain the cylindrical plug. A microphone is coupled to the body such that the plug aperture and the cavity provide an acoustic path to the microphone. The microphone may be at an end of the connector opposite the plug aperture or on a side of the connector adjacent the plug aperture. The connector allows a microphone to be added to a device, such as a mobile telephone, without the need for an additional external aperture. The microphone in the connector may operate with a second microphone and processing electronics in the device to provide audio processing functions such as noise cancellation or audio beamforming. | 08-26-2010 |
20100277877 | FOLDED FLEX ASSEMBLY FOR PERSONAL MEDIA DEVICE - Systems and methods are provided for media devices including a housing, a frame disposed adjacent to the housing, a support panel that is integrated with the frame, and a flexible circuit that is disposed adjacent to the support panel such that the support panel provides support for the flexible circuit. | 11-04-2010 |
20110012845 | TOUCH SENSOR STRUCTURES FOR DISPLAYS - An electronic device may have a touch screen display. The display may have a touch sensor structure that determines the location at which external objects touch the display. The touch sensor structure may have a clear substrate on which conductive capacitive touch sensor electrodes are formed. The electrodes may be formed from a transparent conductive material such as indium-tin oxide. The clear substrate may be formed from a flexible material such as a polymer. The polymer may be a clear polyimide. Copper traces or other conductive traces may be used to route sensor signals from the capacitive touch sensor electrodes to processing circuitry in the electronic device. | 01-20-2011 |
20110109516 | Wireless Handheld Electronic Device - A handheld electronic device may be provided that contains a conductive housing and other conductive elements. The conductive elements may form an antenna ground plane. One or more antennas for the handheld electronic device may be formed from the ground plane and one or more associated antenna resonating elements. Transceiver circuitry may be connected to the resonating elements by transmission lines such as coaxial cables. Ferrules may be crimped to the coaxial cables. A bracket with extending members may be crimped over the ferrules to ground the coaxial cables to the housing and other conductive elements in the ground plane. The ground plane may contain an antenna slot. A dock connector and flex circuit may overlap the slot in a way that does not affect the resonant frequency of the slot. Electrical components may be isolated from the antenna using isolation elements such as inductors and resistors. | 05-12-2011 |
20110120850 | SWITCH ASSEMBLY CONSTRUCTIONS - Electronic devices are provided with switch assembly input components that can have adhesives adhered to the side and/or bottom surfaces of support plates for retaining switches between the adhesives and the tops of the support plates. The switch assembly input components can include buttons with one or more absorption elements for receiving impact energy, reducing the impact energy, and transferring the reduced impact energy onto the switches. | 05-26-2011 |
20110133998 | HANDHELD ELECTRONIC DEVICE WITH CABLE GROUNDING - A handheld electronic device may be provided that contains a conductive housing and other conductive elements. The conductive elements may form an antenna ground plane. One or more antennas for the handheld electronic device may be formed from the ground plane and one or more associated antenna resonating elements. Transceiver circuitry may be connected to the resonating elements by transmission lines such as coaxial cables. Ferrules may be crimped to the coaxial cables. A bracket with extending members may be crimped over the ferrules to ground the coaxial cables to the housing and other conductive elements in the ground plane. The ground plane may contain an antenna slot. A dock connector and flex circuit may overlap the slot in a way that does not affect the resonant frequency of the slot. Electrical components may be isolated from the antenna using isolation elements such as inductors and resistors. | 06-09-2011 |
20110255000 | CAMERA ALIGNMENT AND MOUNTING STRUCTURES - An electronic device may be provided with a housing. A camera module may be mounted within the housing. The housing may have a camera window with which a lens in the camera module is aligned. To rotationally and laterally align the camera module with respect to the camera window and the electronic device housing, an alignment structure may be mounted to the housing in alignment with the camera window and housing. The alignment structure may be formed form a ring-shaped structure with an opening. The alignment structures may have sidewalls that form an alignment groove for the camera module. The camera window may be formed from a circular opening in a layer of opaque material deposited on a transparent housing member such as a planar layer of glass. During the process, a laser tool may be used to trim the opening in the opaque material. | 10-20-2011 |
20110255250 | PRINTED CIRCUIT BOARD COMPONENTS FOR ELECTRONIC DEVICES - Electronic devices may be provided that include mechanical and electronic components. Connectors may be used to interconnect printed circuits and devices mounted to printed circuits. Printed circuits may include rigid printed circuit boards and flexible printed circuit boards. Cosmetic structures such as cowlings may be used to improve device aesthetics. Bumpers may be mounted over rough edges of printed circuit boards to protect flex circuits that are routed over the printed circuit boards. Fasteners may be soldered to solder pad structures on printed circuit boards. | 10-20-2011 |
20110255850 | ELECTRONIC SUBASSEMBLIES FOR ELECTRONIC DEVICES - Electronic devices may be provided that include mechanical and electronic components. Connectors may be used to interconnect printed circuits and devices mounted to printed circuits. Printed circuits may include rigid printed circuit boards and flexible printed circuit boards. Heat sinks and other thermally conductive structures may be used to remove excess component heat. Structures may also be provided in an electronic device to detect moisture. Integrated circuits and other circuitry may be mounted on a printed circuit board under a radio-frequency shielding can. | 10-20-2011 |
20120128189 | INTEGRATED SPEAKER ASSEMBLY FOR PERSONAL MEDIA DEVICE - Systems and methods are provided for media devices including a housing, a frame disposed adjacent to the housing, and an acoustic source that is integrated with the frame for emitting sound from the media device. | 05-24-2012 |
20120224299 | Electronic Devices With Moisture Resistant Openings - Electronic devices may have openings that serve as potential pathways for moisture intrusion into interior portions of the devices. An electronic device may be provided with moisture repelling coatings in the vicinity of these openings to help prevent moisture from reaching the interior of the device. The openings may be associated with gaps between adjacent housing structures, openings for buttons, openings for audio and connector ports or other openings in device structures. The moisture repelling coatings may be applied to housing surfaces, button members, structures associated with audio and connector ports, and other device structures. | 09-06-2012 |
20120225258 | TRANSPARENT ELECTRONIC DEVICE COMPONENTS WITH OPAQUE EDGE COVERINGS - An electronic device may have components such as button members, display cover glass layers, structures associated with connector ports, and other components. The components may have transparent and opaque structures. The transparent structures may be formed on top of the opaque structures. The transparent structures may have peripheral edges through which light may pass. To help prevent the appearance of the components from becoming degraded by the presence of dirt, at least some of the edge portions of the transparent structures may be covered with an opaque covering material. The opaque covering material may be formed from paint or sidewall structures that are formed as an integral part of the opaque structures. | 09-06-2012 |
20120231778 | MICROPHONE PROXIMITY DETECTION - A mobile communications device contains at least two microphones. One microphone is located away from the handset receiver and serves to pick up voice of a near end user of the device for transmission to the other party during a call. Another microphone is located near the handset receiver and serves to pick up acoustic output of the handset receiver (a far end signal). A signal processor measures the frequency response of the receiver. The signal processor performs spectral analysis of the receiver frequency response to determine whether or not the device is being held at the ear of the user. On that basis, the device automatically changes its operating mode, e.g., turns on or off a touch sensitive display screen during the call. Other embodiments are also described. | 09-13-2012 |
20120269599 | THREADED STRUCTURES WITH SOLDER MANAGEMENT FEATURES - Threaded structures such as threaded standoff structures may be provided with features that control the flow of solder. A base structure for a standoff may be formed from a material such as metal. During attachment of the standoff to a substrate such as a printed circuit board, the base structure may be exposed to molten solder. A solderphilic coating may be provided on the outer surface of the standoff to encourage wicking of solder up and over lower portions of the standoff and beneath the standoff, thereby helping to secure the standoff to the substrate. The center of the base structure may be provided with threads to receive screws. To prevent solder from covering the threads, the surface of the threads may be provided with a solderphobic surface. | 10-25-2012 |
20130039508 | AUDIO JACK WITH INCLUDED MICROPHONE - A connector for receiving a cylindrical plug includes a body defining a plug aperture and a cavity for receiving the cylindrical plug. A plurality of electrical contacts in communication with the cavity make electrical connections with the cylindrical plug and retain the cylindrical plug. A microphone is coupled to the body such that the plug aperture and the cavity provide an acoustic path to the microphone. The microphone may be at an end of the connector opposite the plug aperture or on a side of the connector adjacent the plug aperture. The connector allows a microphone to be added to a device, such as a mobile telephone, without the need for an additional external aperture. The microphone in the connector may operate with a second microphone and processing electronics in the device to provide audio processing functions such as noise cancellation or audio beamforming. | 02-14-2013 |
20130050950 | SYSTEMS AND METHOD FOR PROVIDING A GRAPHITE LAYER IN AN ELECTRONIC DEVICE - Systems and methods are provided for a sheet of graphite material on an electromagnetic interference shield for enhanced heat transfer. An electronic device component may be enclosed by an EMI shield, which may retain heat generated by the component. To help dissipate heat, a sheet of material selected for its heat transfer properties may be disposed over the EMI shield. A portion of the sheet may be folded over an edge of the EMI shield such that the sheet may cover a top surface of the sheet as well as tabs extending perpendicular to the top surface of the EMI shield. To facilitate the adhesion of the sheet to a smaller surface area of tabs, the sheet may include features forming a discontinuity in regions of the sheet aligned with the edge of the shield to facilitate folding the sheet. The discontinuity can include, for example, one or more holes or windows. | 02-28-2013 |
20130053098 | MOUNTING AND CONFORMAL COATING SUPPORT STRUCTURE TO FLEX ASSEMBLY TO PREVENT TRACE AND COMPONENT CRACKING - A compact proximity sensor for use in a portable computing device is described. In particular various embodiments of a proximity sensor which fits in an extremely small portion of a cellular phone, and accurately determine the presence of a user's head in close proximity to a surface of the cellular phone. In particular, a high yield assembly process for installing the compact proximity sensor is described. | 02-28-2013 |
20130075613 | HIDDEN SENSORS IN AN ELECTRONIC DEVICE - An electronic device having one or more sensors is provided. The sensors may include any suitable type of sensor that emits or receives radiation (e.g., light waves) from the environment. The electronic device may include openings through which radiation may reach the sensors while keeping the sensors hidden from view. In some embodiments, the sensors may be placed underneath an opening used for an audio receiver such that radiation is piped to the sensors using a light path or a chamfered surface along the opening. In some embodiments, the sensors may be embedded in a screen such that the radiation emitted by the sensors exits the screen instead of being reflected on the screen. In some embodiments, the sensors may be placed along the periphery of the display, such that access to the sensors is provided via discontinuities in a gasket used to couple the display to the electronic device. | 03-28-2013 |
20130077282 | INTEGRATED THERMAL AND EMI SHIELDS AND METHODS FOR MAKING THE SAME - Electronic devices having integrated thermal and EMI shields for providing thermal dissipation and EMI shielding of one or more circuitry components, and methods for making the same, are provided. The integrated shield combines both thermal and EMI shielding properties into a single layer material that saves space within the electronic device. The integrated shield can be constructed from a silicon material having one or more EMI shielding additives incorporated therein. | 03-28-2013 |
20130295906 | MICROPHONE PROXIMITY DETECTION - A mobile communications device contains at least two microphones. One microphone is located away from the handset receiver and serves to pick up voice of a near end user of the device for transmission to the other party during a call. Another microphone is located near the handset receiver and serves to pick up acoustic output of the handset receiver (a far end signal). A signal processor measures the frequency response of the receiver. The signal processor performs spectral analysis of the receiver frequency response to determine whether or not the device is being held at the ear of the user. On that basis, the device automatically changes its operating mode, e.g., turns on or off a touch sensitive display screen during the call. Other embodiments are also described. | 11-07-2013 |
20140077094 | HIDDEN SENSORS IN AN ELECTRONIC DEVICE - An electronic device having one or more sensors is provided. The sensors may include any suitable type of sensor that emits or receives radiation (e.g., light waves) from the environment. The electronic device may include openings through which radiation may reach the sensors while keeping the sensors hidden from view. In some embodiments, the sensors may be placed underneath an opening used for an audio receiver such that radiation is piped to the sensors using a light path or a chamfered surface along the opening. In some embodiments, the sensors may be embedded in a screen such that the radiation emitted by the sensors exits the screen instead of being reflected on the screen. In some embodiments, the sensors may be placed along the periphery of the display, such that access to the sensors is provided via discontinuities in a gasket used to couple the display to the electronic device. | 03-20-2014 |
20140252881 | DOME SWITCH STACK AND METHOD FOR MAKING THE SAME - Systems and methods for providing input component assemblies for dome switches are provided. In some embodiments, an input component assembly may include a first conductive contact pad coupled to a first board of a switch, a second conductive contact pad coupled to a second board of the switch, and a layer of conductive adhesive between the first conductive pad and the second conductive pad, where the layer is operative to provide a seal for the switch. | 09-11-2014 |
20140252882 | DOME SWITCH STACK AND METHOD FOR MAKING THE SAME - Systems and methods for providing input component assemblies for dome switches are provided. In some embodiments, an input component assembly may include a contact area coupled to a circuit board for a switch, a conductive covering for enclosing the circuit board, and a dome positioned over the conductive covering, where the dome is operative to close at least one circuit of the switch when the dome is depressed towards the conductive covering. | 09-11-2014 |
20140252883 | DOME SWITCH STACK AND METHOD FOR MAKING THE SAME - Systems and methods for providing input component assemblies for dome switches are provided. In some embodiments, an input component assembly includes a switch, a button positioned over the switch, where the button is operative to close at least one circuit of the switch when the button is depressed towards the switch, an actuator positioned underneath the button to at least partially enclose at least one switch element, where the actuator is operative to deform when the button is depressed, and a weld plate welded to an underside surface of the button with at least one sonic weld joint to create a seal around the actuator and the at least one switch element, where a portion of the actuator is secured between the underside surface of the button and the weld plate. | 09-11-2014 |