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 |
20090049773 | LAMINATED DISPLAY WINDOW AND DEVICE INCORPORATING SAME - A laminated window assembly for a device, such as a handheld electronic device (e.g., a media player or mobile telephone), includes a window layer that preferably is glass, and a larger, substantially transparent lip-forming layer to which it is laminated, preferably by a substantially clear adhesive. Additional adhesive preferably is placed at at least portions of the edge of the window layer adjacent the lip-forming layer, especially at the corners, to resist delamination. Holes preferably are formed in the lip—e.g., at the corners—to resist the lip-forming layer peeling apart from the window layer forming layer. The holes preferably make up at most about 33% of the periphery of the window layer. | 02-26-2009 |
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 |
20090301857 | CANTILEVERED PUSH BUTTON HAVING MULTIPLE CONTACTS AND FULCRUMS - A cantilevered push button adapted for accepting an input on an electrical or electronic device is disclosed. The button can include an elongated button top component disposed about an exterior surface of an electrical or electronic device such that it is accessible to a user, and having two opposing distal ends associated with separate user inputs. A first fulcrum is located between the first distal end and the midpoint of the elongated button top component, while a second fulcrum is located between the second distal end and the midpoint. A first electrical contact is associated with the first distal end, such that when a user presses on the first distal end, the elongated button top component pivots about the second fulcrum and the first electrical contact is actuated. A second electrical contact is similarly associated with the second distal end and first fulcrum. | 12-10-2009 |
20090305168 | Techniques for Marking Product Housings - Techniques or processes for providing markings on products are disclosed. The markings provided on products can be textual and/or graphic. The techniques or processes can provide high resolution markings on surfaces that are flat or curved. In one embodiment, the products have housings and the markings are to be provided on the housings. For example, the housing for a particular product can include an outer housing surface and the markings can be provided on the outer housing surface. | 12-10-2009 |
20100142134 | COLD WORKED METAL HOUSING FOR A PORTABLE ELECTRONIC DEVICE - A cold worked stainless steel bezel for a portable electronic device is provided. The bezel is secured flush to a housing to form part of the case of the portable electronic device. A brace that includes a slot for receiving a wall extending from the bezel is fixed to the housing. When the bezel engages the housing, the wall of the bezel is inserted in the slot of the brace and releasably held by a spring that engages both the brace and the wall. The bezel can be released by disengaging the spring, (e.g., using a special tool or a magnetic field). Because the bezel is manufactured from cold worked stainless steel, it is hard and resistant to impacts. Cold worked steel also facilitates manufacturing within design constraints and tolerances, and requires very little machining after manufacturing to comply with those constraints. The portable electronic device may include a personal media device, a mobile telephone, or any other suitable device or combination thereof. | 06-10-2010 |
20110069437 | CANTILEVERED PUSH BUTTON - A cantilevered push button adapted for accepting an input on an electrical or electronic device is disclosed. The button can include an elongated button top component disposed about an exterior surface of an electrical or electronic device such that it is accessible to a user, and having two opposing distal ends associated with separate user inputs. A first fulcrum is located between the first distal end and the midpoint of the elongated button top component, while a second fulcrum is located between the second distal end and the midpoint. A first electrical contact is associated with the first distal end, such that when a user presses on the first distal end, the elongated button top component pivots about the second fulcrum and the first electrical contact is actuated. A second electrical contact is similarly associated with the second distal end and first fulcrum. | 03-24-2011 |
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 |
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 |
20110255726 | Audio Port Configuration for Compact Electronic Devices - 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). In one embodiment, an audio element can be mounted on or coupled to an intermediate structure (e.g., a flexible electrical substrate) having an opening therein to allow audio sound to pass there through. In another embodiment, an audio chamber can be formed to assist in directing audio sound between an opening an outer housing and a flexible electronic substrate to which the audio element is mounted or coupled thereto. In still another embodiment, a barrier, such as a mesh barrier, can be provided in an opening of an outer housing so that undesired foreign substances can be blocked from further entry into the opening in the outer housing. | 10-20-2011 |
20120177237 | AUDIO PORT CONFIGURATION FOR COMPACT ELECTRONIC DEVICES - 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). In one embodiment, a molded acoustic chamber can be formed to assist in directing audio sound between an opening an outer housing and an internal flexible electronic substrate. The audio element can be mounted on or coupled to the flexible electrical substrate over an opening therein that allows allow audio sound to pass there through. The molded acoustic chamber can also be formed such that it includes a barrier, such as a mesh barrier, so that undesired foreign substances can be blocked from entry or further entry into the audio chamber. The molded acoustic chamber can also be formed such that it includes one or more acoustic seals that can be used to provide an acoustic seal between the molded acoustic chamber and the opening in the outer housing. | 07-12-2012 |
20130063284 | CANTILEVERED PUSH BUTTON - A cantilevered push button adapted for accepting an input on an electrical or electronic device is disclosed. The button can include an elongated button top component disposed about an exterior surface of an electrical or electronic device such that it is accessible to a user, and having two opposing distal ends associated with separate user inputs. A first fulcrum is located between the first distal end and the midpoint of the elongated button top component, while a second fulcrum is located between the second distal end and the midpoint. A first electrical contact is associated with the first distal end, such that when a user presses on the first distal end, the elongated button top component pivots about the second fulcrum and the first electrical contact is actuated. A second electrical contact is similarly associated with the second distal end and first fulcrum. | 03-14-2013 |
20130129986 | TECHNIQUES FOR MARKING PRODUCT HOUSINGS - Techniques or processes for providing markings on products are disclosed. The markings provided on products can be textual and/or graphic. The techniques or processes can provide high resolution markings on surfaces that are flat or curved. In one embodiment, the products have housings and the markings are to be provided on the housings. For example, the housing for a particular product can include an outer housing surface and the markings can be provided on the outer housing surface. | 05-23-2013 |
20130328462 | Offset Control for Assemblying an Electronic Device Housing - Improved housings for electronic devices are disclosed. An electronic device housing can make use of at least one outer member (e.g., cover) that can be aligned, protected and/or secured with respect to other portions of the housing for the electronic device. In one embodiment, an electronic device housing can have one or more outer members (e.g., exposed major surfaces), such as front or back surfaces, that are formed of glass. Protective sides can be provided in some embodiments to protect the edges of the one or more glass surfaces so as to dissipate impact forces and thus reduce damage to the electronic device housing. The one or more glass surfaces can be part of outer member assemblies that can be secured to other portions of the electronic device housing. According to one aspect, adjoining surfaces of electronic device housings can be mounted or arranged such that adjoining surfaces are flush to a high degree of precision. The electronic device can be portable and in some cases handheld. | 12-12-2013 |
20140055019 | LOW PROFILE HINGE AND PIN MOUNT - Described embodiments provide a low profile hinge and pin mount to be mounted within a small encasement. The mount has a low profile and takes up minimal space within the small encasement without sacrificing structural support for a component and external forces placed on the mount. The mount includes a bracket, a pin and a fastener. The bracket includes a rounded end, a fastening end and a beam configured to support the component placed between the rounded end and the fastening end. The rounded end of the bracket is sized and shaped to fit in an enclosure of the encasement and to pivot about the pin during a rework process. Methods for installing and reworking the low profile hinge and pin mount are described. | 02-27-2014 |
20140071601 | INSERT MOLDED DEVICE HOUSINGS FOR PORTABLE ELECTRONIC DEVICES - Improved techniques for forming an electronic device housing in which an outer housing member can be assembled with one or more other housing members of the electronic device are disclosed. The one or more other housing members can together with a thin substrate layer (or thin substrate) form a frame to which the outer housing member can be secured. The thin substrate layer facilitates molding of the one or more other housing members adjacent to the outer housing member. In one embodiment, the outer housing member can be made of glass and the one or more other housing members can be made of a polymer, such as plastic. The substrate layer can, for example, be formed of a polymer or a metal. The resulting electronic device housing can be thin yet be sufficiently strong to be suitable for use in electronic devices, such as portable electronic devices. | 03-13-2014 |
20140106819 | COMPACT FORM FACTOR INTEGRATED CIRCUIT CARD AND METHODS - A compact form factor integrated circuit card. In one embodiment, a Subscriber Identity Module (SIM) card is disclosed. In one embodiment, the SIM card has overall dimensions optimized for a particular application; e.g., 12.30 mm (±0.10 mm)×8.80 mm (0.10 mm)×0.67 mm (+0.03/−0.07). In another embodiment, the SIM card has overall dimensions of 11.90 mm (±0.10 mm)×8.80 mm (±0.10 mm)×0.70 mm (maximum). Multiple complementary SIM card adapters and methods of use are also disclosed. | 04-17-2014 |
20140307377 | HOUSING COMPONENTS FOR ELECTRONIC DEVICES - 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. | 10-16-2014 |
20150014421 | COMPACT FORM FACTOR INTEGRATED CIRCUIT CARD AND METHODS - A compact form factor integrated circuit card. In one embodiment, a Subscriber Identity Module (SIM) card is disclosed. In one embodiment, the SIM card has overall dimensions optimized for a particular application; e.g., 12.30 mm (±0.10 mm)×8.80 mm (0.10 mm)×0.67 mm (+0.03/−0.07). In another embodiment, the SIM card has overall dimensions of 11.90 mm (±0.10 mm)×8.80 mm (±0.10 mm)×0.70 mm (maximum). Multiple complementary SIM card adapters and methods of use are also disclosed. | 01-15-2015 |