Patent application number | Description | Published |
20120320305 | PROTECTIVE FILM PATTERNING - The patterning of objects (e.g., protective poly-films, heat-spreaders, and other components placed proximate to the backlight of an LCD) with multiple beads or raised protrusions is disclosed. The beads or protrusions can have a uniform or non-uniform size and can be arranged such that they have a uniform or non-uniform pattern density. The beads or protrusions can be patterned on a surface of the object to provide separation between a non-raised surface of the object and a surface of an adjacent item, such as a reflector film. | 12-20-2012 |
20120320327 | VARIABLE WIDTH SEAL - Forming a seal between plates (e.g., glass plates within an LCD or electrodes within an OLED display) using a non-uniform pattern of adhesive applied between the plates is disclosed. The pattern of adhesive can include more adhesive material in portions of the plate that are expected to experience higher levels of stress. The pattern of adhesive can be determined based at least in part on the width of the surface of the plates that contact each other, where wider and narrower portions of the surface can have different adhesive patterns. The amount of adhesive applied to the plates can be varied by adjusting the speed at which a dispensing nozzle traverses the contact surface of the plate, the flow rate at which adhesive is dispensed from the nozzle, or both. | 12-20-2012 |
20120326990 | FLEXIBLE CIRCUIT ROUTING - Flexible circuits for routing signals of a device, such as a touch sensor panel of a touch sensitive device, are provided. The flexible circuit can include a first set of traces for routing a first set of lines and a second set of traces for routing a second set of lines. The first set of traces can couple together the ends of at least a portion of the first set of lines. Additionally, the first set of traces can be non-intersecting or non-overlapping with the second set of traces. The flexible circuit can have a T-shape configuration and can be incorporated within a touch sensitive device, display device, printed circuit board, or the like. The flexible circuit can be placed over another flexible circuit, and can extend onto the device. | 12-27-2012 |
20120327324 | COATED CHASSIS FOR LIQUID CRYSTAL DISPLAY - A coated chassis is disclosed. The chassis can be made from a non-conductive material and can be operable to support a display. A conductive material can be applied to at least a portion of the chassis to form a continuous strip on the chassis frame. The conductive material can further form a closed-loop around the chassis frame. The chassis frame can be included within a device, such as a mobile phone, touchpad, portable computer, portable media player, and the like. The conductive material on the chassis can be coupled to the system ground of the device. Processes for making a coated chassis are also disclosed. | 12-27-2012 |
20130063286 | FUSION KEYBOARD - Touch sensitive mechanical keyboards for detecting touch events and key depressions on the keyboard are provided. The keyboard can include a set of individually depressible mechanical keys having a touch sensitive area located on their surface. A touch sensor can be included to detect touch events on the surface of the keys. A keypad can also be included to detect a depression of the mechanical keys. One or more of the depressible mechanical keys can be multi-purpose keys capable of being depressed to multiple levels. The touch sensitive mechanical keyboard can receive key depression input, touch event input, or combinations thereof at the same time. The touch sensitive mechanical keyboard can further include a processor for distinguishing detected touch events from detected key depressions. The processor can generate a key depression command or a touch event command in response to the detected touch events and key depressions. | 03-14-2013 |
20130063356 | ACTUATION LOCK FOR A TOUCH SENSITIVE MECHANICAL KEYBOARD - Touch sensitive mechanical keyboards and methods of configuring the depressibility of one or more keys of a keyboard are provided. A touch sensitive mechanical keyboard can accept touch events performed on the surface of the keys. Additionally, the keyboard can accept key depressions as textual input. The keyboard can be placed in a gesture operation mode, which can lock the keys to prevent a user from inadvertently depressing a key while attempting to perform a touch event on the surface of the keys. The keyboard can also be placed in a key press mode, which can allow depression of the keys by a user. | 03-14-2013 |
20130063891 | REDUCING THE BORDER AREA OF A DEVICE - A circuit panel of an electronic device is disclosed. The circuit panel includes a substantially flat surface including an active area of the electronic device; a bent border area contiguous with and extending from the active area of the substantially flat surface; and a plurality of traces coupled to the active area and routed in the bent border area. | 03-14-2013 |
20140008196 | PATTERNED CONDUCTIVE TRACES IN MOLDED ELASTOMERE SUBSTRATE - Touch sensitive mechanical keyboards and processes for routing the drive and sense lines of the touch sensitive keyboard using patterned dome-switches are provided. The keyboard can include one or more mechanical keys having a touch sensor located within or beneath a keycap. The keyboard can further include a dome-switch beneath each keycap to detect a depression of the corresponding key. The dome-switch can be formed from an elastic (or malleable) material and can include patterned conductive traces within the elastic material. The patterned conductive traces can be used to route stimulation signals and sense signals to and from the touch sensor. In some examples, a first end of the patterned conductive traces can be coupled to the drive and sense lines of the touch sensor and a second end of the patterned conductive traces can be coupled to a flexible circuit or PCB. | 01-09-2014 |
20140192276 | FLEXIBLE CIRCUIT ROUTING - Flexible circuits for routing signals of a device, such as a touch sensor panel of a touch sensitive device, are provided. The flexible circuit can include a first set of traces for routing a first set of lines and a second set of traces for routing a second set of lines. The first set of traces can couple together the ends of at least a portion of the first set of lines. Additionally, the first set of traces can be non-intersecting or non-overlapping with the second set of traces. The flexible circuit can have a T-shape configuration and can be incorporated within a touch sensitive device, display device, printed circuit board, or the like. The flexible circuit can be placed over another flexible circuit, and can extend onto the device. | 07-10-2014 |
20140262466 | Lowering the Sheet Resistance of a Conductive Layer - An electronic device can include a substrate and a conductive layer. The conductive layer can be disposed over at least a portion of the substrate and a patterned conductive material can be disposed over at least a portion of the conductive layer. Alternatively, the patterned conductive layer can be disposed over at least a portion of a surface of the substrate and the conductive layer can be disposed over a portion of the surface of the substrate and in between the patterned conductive material. The conductive layer can be disposed over at least a portion of the patterned conductive material. The patterned conductive material can have a resistivity that is lower than a resistivity of the conductive layer. | 09-18-2014 |
20140333858 | REDUCING THE BORDER AREA OF A DEVICE - A circuit panel of an electronic device is disclosed. The circuit panel includes a substantially flat surface including an active area of the electronic device; a bent border area contiguous with and extending from the active area of the substantially flat surface; and a plurality of traces coupled to the active area and routed in the bent border area. | 11-13-2014 |
20150077909 | Electronic Device With Reworkable Midplate Attachment Structures - An electronic device may be provided with a display mounted in a display frame assembly that includes a plastic structure overmolded over a display frame. A housing midplate may be used to provide the electronic device with mechanical rigidity and strength, and may also be used as a sensor plane. For sensor plane applications, accurate placement and assembly of the midplate in the housing can be critical. The housing midplate may be accurately assembled to the display frame using connections formed using welded tabs, welded and screwed nuts, overmolded plastic heat stake structures, or overmolded plastic structures and adhesive. Rework and repair operations may be performed by disconnecting connections such as welds using cutting equipment, by using solvent to dissolve adhesive, by unscrewing welded nuts, or by removing heat stake structures. Following rework or repair, a fresh midplate and associated components may be attached to the display frame. | 03-19-2015 |