Patent application number | Description | Published |
20140051301 | INJECTION MOLDED PARTS - A method of forming a part includes uni-directionally injecting a mold with material to form a molded part, removing the molded part from the mold, and forming at least one cavity in the molded part, the at least one cavity being defined by a machining process separate from a molding process. | 02-20-2014 |
20140073183 | PLUG CONNECTOR MODULES - A plug connector module that includes a metal frame having a base portion, an insertion end and a cavity that extends from the base portion into the insertion end. The insertion end is configured to be inserted into a cavity of a corresponding receptacle connector. A substrate extends through the base portion of the frame and into the insertion end. A first plurality of external contacts is positioned in a first opening and a second plurality of contacts positioned within a second opening. One or more electronic components is coupled to the substrate, and a first encapsulant that covers and environmentally seals the one or more electronic components. A second encapsulant covers and environmentally seals a metal shield and at least a portion of a leg that extends from the shield. | 03-13-2014 |
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 |
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 |
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 |
20140206209 | REVERSIBLE USB CONNECTOR - Embodiments can provide reversible or dual orientation USB plug connectors for mating with standard USB receptacle connectors, e.g., a standard Type A USB receptacle connector. Accordingly, the present invention may be compatible with any current or future electronic device that includes a standard USB receptacle connector. USB plug connectors according to the present invention can have a 180 degree symmetrical, double orientation design, which enables the plug connector to be inserted into a corresponding receptacle connector in either of two intuitive orientations. Some embodiments of the present invention may be used with or require a non-standard USB receptacle connector. Thus, embodiments of the present invention may reduce the potential for USB connector damage and user frustration during the incorrect insertion of a USB plug connector into a corresponding USB receptacle connector of an electronic device. | 07-24-2014 |
20140235095 | REVERSIBLE USB CONNECTOR WITH COMPLIANT MEMBER TO SPREAD STRESS AND INCREASE CONTACT NORMAL FORCE - Embodiments can provide reversible or dual orientation USB plug connectors for mating with standard USB receptacle connectors, e.g., a standard Type A USB receptacle connector. Accordingly, the present invention may be compatible with any current or future electronic device that includes a standard USB receptacle connector. USB plug connectors according to the present invention can have a 180 degree symmetrical, double orientation design, which enables the plug connector to be inserted into a corresponding receptacle connector in either of two intuitive orientations. Thus, embodiments of the present invention may reduce the potential for USB connector damage and user frustration during the incorrect insertion of a USB plug connector into a corresponding USB receptacle connector of an electronic device. Reversible USB plug connectors according to the present invention may include a compliant member or structural support for distributing stress and increasing contact normal force at the tongue of the reversible USB plug connector. | 08-21-2014 |
20140242848 | ELECTRICAL CONNECTOR HAVING A DESIGNED BREAKING STRENGTH - An improved method is employed to produce a plug connector having a defined breaking strength. The plug connector is receivable in a receptacle connector disposed in an electronic device. The plug connector has an inner enclosure bonded to a tab of the connector. The bonds are designed to break at a torque that is less than the breaking strength of the tab of the connector and/or the receptacle connector. The designed breaking strength protects the receptacle connector and/or the electronic device from damage when a force is applied to the plug connector. | 08-28-2014 |
20140293145 | Electronic Device With Touch Sensitive Display - An electronic device may be provided with a touch screen display. The touch screen display may have an array of display pixels that are used to display images for a user. Touch input to the touch screen display may be provided by a user's finger or other external object. A touch sensor in the display may have vertical and horizontal position sensors that are based on distinct touch sensor technologies. The position sensors may be based on strain gauge sensors or other force sensors, capacitive sensors having multiple elongated transparent capacitive electrodes that span the display, acoustic sensors, light-based sensors, and other types of sensors. An opaque masking layer in an inactive area of the display may hide some of the position sensor structures from view such as vertical position sensor structures. The horizontal position sensor structures may have minimal inactive regions along their edges. | 10-02-2014 |
20150072565 | PLUG CONNECTOR HAVING LOW PROFILE AND FLEXIBLE INTERCONNECT - A dual orientation connector having a connector tab with first and second major opposing surfaces and a plurality of electrical contacts carried by the connector tab. A retainer is positioned at an entrance end of the tab and is overmolded on a portion of a carrier. The carrier has a first portion positioned within the tab, a second portion extending through the retainer and a third portion extending out of the retainer at an angle with respect to the longitudinal plane of the tab. The carrier has a plurality of conductors formed thereon and extending from the first portion to the third portion. | 03-12-2015 |