Patent application number | Description | Published |
20090103764 | Removable Ear Tip for Earphone - An earphone or a removable component for use with an earphone are disclosed. As an example, the removable component can be an ear tip. According to one aspect, an improved ear tip can be provided for use with a headphone. The ear tip is suitable for in-ear operation and has a deformable outer member. The deformable outer member enables the ear tip to readily conform to a user's ear. The ear tip can also include an inner member to structurally support the outer member and to facilitate attachment to a headphone. | 04-23-2009 |
20100054493 | ACCESSORY CONTROLLER FOR ELECTRONIC DEVICES - Accessories such as headsets for electronic devices are provided. A headset may be provided with a button controller assembly that has user-actuated buttons. The button controller assembly may be formed of housing portions that float with respect to each other. Plastic engagement structures may limit the amount of unimpeded travel that is exhibited by the housing portions. The housing portions may be formed from first and second housings. A rigid frame may be mounted within the second housing. The first housing may flex along its length when the user squeezes the first and second housings together to actuate a desired button. Housings may be formed as double-shot plastic parts having first and second plastics with different properties. Integrated circuits and a microphone may be mounted within the button controller assembly. A nonoperational microphone port may be provided as a visual indicator that the button controller contains a microphone. | 03-04-2010 |
20100159755 | Compact Device Housing and Assembly Techniques Therefor - High density electronic device assemblies and techniques for forming high density electronic device assemblies are disclosed. These assemblies and techniques can be used to form compact electronic devices. In one embodiment, substrate arrangements that include a multiple-part substrate can be used to form a high density electronic device assembly. In another embodiment, one or more clips can be used in a high density electronic device assembly to provide mechanical and electrical interconnection between electrical structures that are to be removably coupled together as parts of the high density electronic device assembly. In still another embodiment, a removable cap (and a method for forming the removable cap) can be used for an electronic device housing. | 06-24-2010 |
20100246879 | Deformable Ear Tip for Earphone and Method Therefor - A removable component for use with an earphone is disclosed. As an example, the removable component can be an ear tip. According to one aspect, an improved ear tip can be provided for use with a headphone. The ear tip is suitable for in-ear operation and can have a cosmetic deformable outer member. The deformable outer member can enable the ear tip to readily conform to a user's ear. The ear tip can also include an inner member to structurally support the outer member and to facilitate attachment to a headphone. Methods for forming such ear tips are also disclosed. | 09-30-2010 |
20110057842 | OVERSIZED ANTENNA FLEX - This is directed to an antenna for use in an electronic device. The antenna can be constructed from a flex and printed trace, such that the flex is originally defined to be as large or nearly as large as possible to fit within portion of the electronic device dedicated to the antenna. This can allow the antenna trace to vary as the antenna is tuned without requiring a new flex having a different shape. In addition, this can allow the antenna design to be decoupled from the mechanical considerations related to mounting the antenna within the electronic device. | 03-10-2011 |
20110059348 | HANDHELD DEVICE ASSEMBLY - This is directed to several handheld device components to be placed in a handheld device, as well as methods or systems for mounting or retaining components within the device. In particular, this is directed to a rigid shield used in an SMT process and securing connected flex connectors by adhering the flexes together. This is also directed to using foam in combination with a hard material to create an acoustic seal, or several layers of foam to create an acoustic and mechanical seal. This is also directed to selectively folding a sheet of material placed around a battery cell. | 03-10-2011 |
20120044623 | SELF CAPTURING AND KEYED MOBILE DEVICE BUTTON - A housing of an electronic device encloses and supports at least one operational component and includes at least one opening sized to accommodate a mechanical input assembly. The mechanical input assembly includes a feature arranged to receive an input event, at least a portion of the feature exposed at an outside surface of the housing, an operational indicia visible on the exposed portion and having a preferred orientation with respect to the housing, the operational indicial providing an indication of how an operation of the operational component is influenced, and a shaft having a size and shape in accordance with the opening, the shaft attached to the external feature at a first end and an integrally formed self-capturing feature at the second end. The self-capturing feature is inserted into the opening until activated. The indicia is then properly aligned and the mechanical input assembly is locked to the housing. | 02-23-2012 |
20120155041 | COMPACT DEVICE HOUSING AND ASSEMBLY TECHNIQUES THEREFOR - High density electronic device assemblies and techniques for forming high density electronic device assemblies are disclosed. These assemblies and techniques can be used to form compact electronic devices, such as portable power adapters. In one embodiment, substrate arrangements that include a multiple-part substrate can be used to form a high density electronic device assembly. In another embodiment, one or more clips can be used in a high density electronic device assembly to provide mechanical and electrical interconnection between electrical structures that are to be removably coupled together as parts of the high density electronic device assembly. In still another embodiment, a removable cap (and a method for forming the removable cap) can be used for an electronic device housing. | 06-21-2012 |
20130118871 | SELF CAPTURING AND KEYED MOBILE DEVICE BUTTON - A housing of an electronic device encloses and supports at least one operational component and includes at least one opening sized to accommodate a mechanical input assembly. The mechanical input assembly includes a feature arranged to receive an input event, at least a portion of the feature exposed at an outside surface of the housing, an operational indicia visible on the exposed portion and having a preferred orientation with respect to the housing, the operational indicial providing an indication of how an operation of the operational component is influenced, and a shaft having a size and shape in accordance with the opening, the shaft attached to the external feature at a first end and an integrally formed self-capturing feature at the second end. The self-capturing feature is inserted into the opening until activated. The indicia is then properly aligned and the mechanical input assembly is locked to the housing. | 05-16-2013 |
20130152378 | OVERSIZED ANTENNA FLEX - This is directed to an antenna for use in an electronic device. The antenna can be constructed from a flex and printed trace, such that the flex is originally defined to be as large or nearly as large as possible to fit within portion of the electronic device dedicated to the antenna. This can allow the antenna trace to vary as the antenna is tuned without requiring a new flex having a different shape. In addition, this can allow the antenna design to be decoupled from the mechanical considerations related to mounting the antenna within the electronic device. | 06-20-2013 |
20130335275 | Structures for Shielding and Mounting Components in Electronic Devices - An electronic device may be provided with a conductive housing. An antenna window structure may be formed in an opening in the housing. The antenna window structure may have an antenna support structure that is attached to the conductive housing and that supports antenna structures. An antenna window cap may be mounted in the opening and attached to the antenna support structure with liquid adhesive. Alignment structures may be provided in the antenna support structure. An antenna support plate with mating alignment structures may be used in attaching the antenna structures to the antenna support structures. Metal shielding structures may be used to provide electromagnetic shielding. A shielding wall may be formed from a sheet metal structure supported by a plastic support structure. A flexible metal shielding foil layer may be welded to the shielding wall using a sacrificial plate. | 12-19-2013 |
20140168864 | Electronic Device With Unified Display Mounting Structures - An electronic device is provided with a display such as a liquid crystal display mounted in an electronic device housing. The display has display layers such as a layer of liquid crystal material, a color filter layer, a thin-film transistor layer, and polarizer layers. The display also has backlight structures and a display cover layer. Display mounting structures are formed from a metal member that also serves as a structural midplate within the electronic device housing. Plastic reflector structures such as white plastic and plastic trim structures are molded onto the midplate. The plastic reflector structures form a rectangular recess that receives the light guide plate. The midplate has bent wall portions that form a rectangular recess that receives the display layers. The trim structures define a rectangular recess that receives the display cover layer. Protruding portions with openings attach the midplate to the housing. | 06-19-2014 |
20140211122 | Electronic Device With Display Backlight Unit And Display Assembly - An electronic device may be provided with electrical components mounted in an electronic device housing. A display module may be attached to a display cover layer with a layer of adhesive to form a display module assembly. The display module assembly may include a display module assembly chassis. The display module assembly chassis may include a plastic display module assembly chassis molded over a metal display module assembly chassis. The display module assembly and a backlight unit may be assembled to form a display module that is installed within the electronic device housing or display module assembly layers and backlight unit structures may be assembled into the electronic device housing. The backlight unit may include a backlight unit chassis. A metal housing midplate may serve as part of the backlight unit chassis. | 07-31-2014 |
20140239276 | Displays with Shared Flexible Substrates - An electronic device may be provided with a display such as an organic light-emitting diode display. The display may include an array of display pixels formed on a polymer substrate layer. The polymer substrate layer may include an contiguous layer of polyimide that forms a substrate layer in additional structures such as a polymer film and a flexible printed circuit. A first transition region may be interposed between the display and the polymer film, and a second transition region may be interposed between the polymer film and the flexible printed circuit. Metal traces may be formed on the polymer film and on the flexible printed circuit. A display driver integrated circuit may be mounted to the traces on the polymer film. The polymer film may form a U-shaped bend. The flexible printed circuit may be coupled to a printed circuit board in the device using hot bar solder connections. | 08-28-2014 |
20140353028 | ALTERNATIVE MANUFACTURING PROCESSES FOR ALUMINUM ENCLOSURES - Methods for forming aluminum enclosures for consumer products are described. Included are methods for forming features, such as brackets or supports for supporting one or more internal components of the consumer product. In some embodiments, methods involve shaping integral features into the aluminum enclosures. In some embodiments, methods involve molding resinous or plastic features onto the aluminum enclosures. Some methods involve one or more of an extrusion, rolling, stamping, bending, forging and other shaping techniques. Some methods involve a metal softening technique such as an annealing process. Some methods involve post-shaping treatments including one or more of an impurity removal process, hardening process and surface finishing process. Some embodiments involve forming nano-pores in aluminum enclosures and inserts to enhance bonding of plastic features to the aluminum enclosures and inserts. | 12-04-2014 |
20150049275 | Hinged Portable Electronic Device With Display Circuitry Located in Base - An electronic device may have a housing with a lid that rotates relative to a base. A display in the lid may have a thin-film transistor layer. Display driver circuitry may be mounted to the thin-film transistor layer. A display timing controller integrated circuit may be mounted in the base. A rigid flex printed circuit may have a rigid portion in the base to which the display timing controller integrated circuit is mounted and may have a rigid portion in the lid. A flexible printed circuit portion of the rigid flex printed circuit may be used to couple the rigid printed circuit portion in the lid to the thin-film transistor layer. A flexible printed circuit portion of the rigid flex printed circuit that extends between the lid and the base may be formed from a double-shield-layer single-signal-line-layer flexible printed circuit. | 02-19-2015 |