Patent application number | Description | Published |
20130285984 | MOVABLE TRACK PAD WITH ADDED FUNCTIONALITY - An input device is disclosed. The input device includes a movable touch-sensitive track pad capable of detecting an object in close proximity thereto so as to generate a tracking control signal. The input device also includes a movement indicator capable of detecting the movements of the movable track pad so as to generate one or more other control signals (e.g., button signals). The control signals can be used to perform actions in an electronic device operatively coupled to the input device. | 10-31-2013 |
20130327507 | OPTIMIZED VENT WALLS IN ELECTRONIC DEVICES - The disclosed embodiments related to a component for use in a portable electronic device. The component includes a wall of the portable electronic device, containing an intake zone that includes a set of intake vents directed at a first angle toward one or more heat-generating components of the portable electronic device. The wall also includes an exhaust zone containing a set of exhaust vents directed at a second angle out of the portable electronic device. | 12-12-2013 |
20130328521 | EXTERNAL BATTERY-MANAGEMENT MODULE - A power supply for use in a portable electronic device is described. This power supply includes battery cells in separate locations that are electrically coupled by a power bus to a battery-management circuit board, which includes an integrated circuit with control logic that monitors the battery cells and that regulates charging and discharging of the battery cells. The battery cells are not enclosed in a common battery-pack housing so that the battery cells are mechanically separate from each other. Moreover, the battery-management circuit board is external to the battery cells and is not enclosed in the battery-pack housing. By excluding the battery-pack housing from the power supply, there may be more space available to expand the sizes, and thus the total capacities, of the battery cells. | 12-12-2013 |
20130328741 | INTERNAL COMPONENTS OF A PORTABLE COMPUTING DEVICE - The present application describes various embodiments of systems and methods for providing internal components for portable computing devices having a thin profile. More particularly, the present application describes internal components configured to fit within a relatively thin outer enclosure. | 12-12-2013 |
20130328785 | KEYBOARD BACKLIGHT FEATURES FOR A PORTABLE COMPUTER - The present application describes various embodiments of systems and methods for internal components for portable computing devices relating to keyboard components and keyboard backlighting. In one embodiment, a keyboard module can include a rectangular light guide panel and a driver board including discrete light sources mounted on the driver board where the driver board is disposed along one edge of the light guide panel and light emitted for the discrete light sources is captured by the light guide panel and distributed to predetermined locations. | 12-12-2013 |
20130329349 | BATTERY STRUCTURE AND INTEGRATION - A portable electronic device is described. This portable electronic device includes an external housing with a cavity defined by an edge. A keyboard, having a front surface and a back surface, is disposed in the cavity with the front surface facing the external housing. Moreover, a tray is disposed over the back surface of the keyboard, and is mechanically coupled to the external housing adjacent to the edge. Furthermore, battery cells are mechanically coupled to an opposite side of the tray from the back surface of the keyboard. The tray may allow the battery cells to be removed from the portable electronic device without damaging the keyboard. In addition, the tray may increase the compression strength and/or the bending strength of the portable electronic device. | 12-12-2013 |
20130329354 | MASS STORAGE DEVICE WITH ELASTOMERIC MATERIAL AND RELATED PORTABLE COMPUTING DEVICE AND METHOD - Absorbers for a mass storage device are provided. The absorbers may be configured to protect the mass storage device from drop events and reduce the transmission of vibrations from and/or to the mass storage device. Additionally, the absorbers may occupy a smaller amount of space than traditional snubber mounting arrangements. The absorbers may include major surface absorbers formed from a first elastomeric material that engage major surfaces of the mass storage device. Corner absorbers formed from a second elastomeric material may engage the corners of the mass storage device and the side walls of a compartment in a case. The major surface absorbers and the corner absorbers may distribute and absorb load applied during a drop event. A related portable computing device and a related method are also provided. | 12-12-2013 |
20130329359 | PORTABLE COMPUTING DEVICE WITH A HOUSING SECURED BY A MAGNETIC ELEMENT AND RELATED METHOD - Magnetic elements and attractors may be employed to secure a top case and a bottom case of a housing of a personal computing device. The magnetic elements may include a magnet that produces a magnetic field and a shunt. The shunt may direct the magnetic field through an opening to a pocket in which the magnet is received. Accordingly, flux leakage may be reduced and the bottom case may be secured to the top case. Magnetic elements and attractors may also be employed to secure a lid portion of the portable computing device to the housing thereof. These magnetic elements and attractors may be centered with respect to proximal and distal edges thereof. | 12-12-2013 |
20130329450 | PORTABLE COMPUTING DEVICE - The present application describes various embodiments regarding systems and methods for providing a lightweight and durable portable computing device having a thin profile. The portable computing device can take the form of a laptop computer. The laptop computer can include a uni-body top case having an integrated support system formed therein, the integrated support system providing structural support that distributes applied loads through the top case preventing warping and bowing. | 12-12-2013 |
20130329934 | SPEAKER FEATURES OF A PORTABLE COMPUTING DEVICE - A portable computing device can include one or more speakers integrated with internal components. In one embodiment, the speakers can be configured to produce audio output signals and direct at least a portion of the audio signals through vents disposed on a base portion of the portable computing device. In one embodiment, the vents can also direct cooling air into the base portion. In one embodiment, the speakers can also be configured to direct a portion of the audio signal through a speaker grille disposed on the base portion. One embodiment of a speaker enclosure can include a resonant cavity for a first audio transducer formed by the speaker enclosure in cooperation with the base portion of the portable computing device and a second audio transducer configured to direct an audio signal beneath a keyboard. | 12-12-2013 |
20140063433 | METHOD TO DESIGN THE INTEGRATED FULL COVERAGE LCD MODULE COVER GLASS - The described embodiments relate generally to liquid crystal displays (LCDs), and more particularly to methods for extending a glass portion of a display to an edge of a display housing. In one embodiment, a thin cover glass layer is provided between a color filter glass layer and an upper polarizer. The thin cover glass layer is supported along an edge of the display by a filler material that can include a foam dam and a glass spacer or adhesive filler. The filler material allows the cover glass layer to be supported without damaging any drivers or circuits located on an underlying thin film transistor glass layer. In another embodiment, a glass spacer circuit with integrated drivers and circuitry on its lower surface can support the cover glass along the edge of the display. | 03-06-2014 |
20140077670 | PORTABLE COMPUTING DEVICE - The present application describes various embodiments regarding systems and methods for providing a lightweight and durable portable computing device having a thin profile. The portable computing device can take the form of a laptop computer. The laptop computer can include a uni-body top case having an integrated support system formed therein, the integrated support system providing structural support that distributes applied loads through the top case preventing warping and bowing. | 03-20-2014 |
20140085556 | Display with inverted thin-film-transistor layer - An electronic device may be provided with a display that has a layer of liquid crystal material interposed between a color filter layer and a thin-film-transistor layer. The thin-film-transistor layer may have a substrate with an upper surface and a lower surface. A circular polarizer may be formed on the upper surface. Thin-film transistor circuitry such as gate driver circuitry may be formed on the lower surface. A display driver circuit may be mounted on an inactive border region of the lower surface of the thin-film transistor substrate. Display pixels may form an array in a central active region of the display. A grid of metal gate and data lines may distribute signals from the display driver circuit and gate driver circuitry to the display pixels. A grid of non-reflecting lines may be interposed between the grid of metal lines and the lower surface. | 03-27-2014 |
20140096889 | INTERNAL COMPONENT ADHESIVE SECURING SYSTEMS FOR PORTABLE COMPUTING DEVICES - Methods and systems for adhering internal components in a portable computing device are described. In some embodiments, an internal component adhesive removal system can include a conforming wrapper. In one embodiment, the conforming wrapper can wrap around a portion of an outer surface of the internal component. The conforming wrapper can secure and at least partially enclose the internal component such that the internal component is sufficiently constrained to protect the internal component from damage during movement of the portable computing device during normal use. In some embodiments, the wrapper comprises one or more shock absorbing features. In some embodiments, the wrapper comprises a feature configured to tear to facilitate removal of the internal component from the portable computing device. | 04-10-2014 |
20140293188 | Displays with Local Dimming Elements - An electronic device is provided with a display such as a liquid crystal display. The display includes a liquid crystal display module an array of display pixels. A backlight unit is used to provide backlight illumination to the display module. A shutter module having local dimming elements is used to locally control the amount of light that is transmitted through the display. The local dimming elements can be formed from liquid crystal display structures, polymer-dispersed liquid crystal display structures, photovoltaic material, electrowetting display structures, and/or other suitable light controlling elements. Each local dimming element controls the amount of light that is transmitted through an overlapping region of the array of display pixels. The local dimming elements may be arranged in a uniform array having rows and columns or may be shaped and sized differently and located in specific regions of the display. | 10-02-2014 |
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 |