Abstract: This disclosure provides devices and methods for efficiently converting a solar panel DC output to a desired AC or DC output. In one aspect, zero current switching is enabled via a resonant circuit load. In another aspect, switching losses are reduced via an inductor in series with a switch. In another aspect, a more reliable energy storage device may be used.

Abstract: This disclosure provides systems, methods and apparatus for manufacturing display devices having electronic components mounted within a display device package. In one aspect, the electronic component connects to the exterior of the display device through pads that run below a seal that holds a substrate and a backplate of the display device together. In another aspect the electronic components also connect to an electromechanical device within the display device, as well as connecting to pads that are external to the display device.

Abstract: This disclosure provides systems, methods and apparatus for energy efficient voltage transitions when driving EMS or MEMS systems. In one aspect, a MEMS display array may have segment electrodes driven by a source of approximately constant current. The substantially constant current may be generated by a buck regulator including an inductor.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for sensing touch and/or gestures in the near-field area overlying a light-guiding layer within a device or other optical sensing system. In one aspect, modulated infrared light is emitted into the overlying area, and the light reflected by objects within the overlying area is redirected through the light-guiding layer to infrared sensors. In one aspect, a masking structure can be located between the light-guiding layer and the infrared sensors. In some aspects, probability mapping or backtracing can be used to estimate the locations of objects within the overlying area.

Abstract: This disclosure provides systems, methods and apparatus for imaging. In one aspect, the imaging system can include a light sensor, a light guide, an optical pattern generator, and a processor. The light guide can include light turning features configured to receive ambient light and to direct the ambient light out through an output surface of the light guide to the light sensor. The optical pattern generator can be configured to generate a light intensity pattern upon the passage of the ambient light through the optical pattern generator and project the light intensity pattern onto the light sensor. The processor can be configured to construct an image based on the light intensity pattern.

Abstract: This disclosure provides systems, methods and apparatus for combined optical touch and gesture sensing systems. In one aspect, a bezel surrounding a display surface includes multiple output surfaces which can be configured to direct infrared light both across a device surface to detect touch input and into the area overlying the device surface to detect gesture input. In one aspect, a light-guiding layer having light-turning features can be used to redirect light reflected from an overlying object to photodiodes at the periphery of the device surface. In one aspect, the touch and gesture sensing may be performed in an alternating fashion rather than simultaneously, allowing some components of the combined touch and gesture sensing system to be used in the detection of both touch and gesture.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for reducing artifacts in an image generated by a display device. In one aspect, data is written to a display and a position of display elements is maintained based on the application of a bias voltage pattern. The bias voltage pattern includes alternating polarities along one dimension in a pattern having a first frequency spectrum, and alternating polarities along a second dimension in a pattern having a second frequency spectrum that is different than the first frequency spectrum. At least one of the first and second frequency spectrums may include a plurality of frequency components.

Abstract: This disclosure provides systems, methods and apparatus related to displaying 3D images. In one aspect, an apparatus includes an array of display elements and a plurality of parallax barrier shutters. Each parallax barrier shutter corresponds to one of the display elements and is configured to be driven into a first state in which an angular distribution of light passing the parallax barrier shutter from the corresponding display element is weighted towards a first side of the apparatus or a second state in which the angular distribution of light passing the parallax barrier shutter from the corresponding display element is weighted towards a second side of the apparatus opposite the first side.

Abstract: Techniques described herein enable a computing device to detect a user hand gesture in near field using less expensive hardware by capturing enough information in coarse resolution. Furthermore, techniques described herein detect an object, such as a hand by characterizing the object without fully reconstructing the object. In one embodiment, embodiments of the invention performed by the computing device detect the number of unfurled fingers passing through the detectable region of the field of view of the detection surface of a computing device and the direction of the movement of the user's hand. The computing device may determine a user command in response to detecting the user gesture and provide feedback to the user.

Abstract: This disclosure provides photovoltaic energy collecting systems, and methods of making such systems. In one implementation, an apparatus includes transmissive light collection panels, each panel having at least one photovoltaic cell on an edge of the panel. The panel is configured to pass through a first portion of incident light and use a second portion of incident light to generate photovoltaic energy. The apparatus also includes a first and second electrical output terminal, a first and second electrical bus, and a metallic frame assembly having multiple openings, each light collection panel being disposed in one of the openings. The frame assembly includes a cavity that houses the first and second electrical bus, the first electrical bus connected to each photovoltaic cell and to the first electrical output terminal, and the second electrical bus is connected to each photovoltaic cell and to the second electrical output terminal.

Abstract: Disclosed are methods and apparatus for rending colors in displays, such as adjustable interferometric modulation displays that can produce many colors with different sub-sets of primary colors. Received colors to be rendered are analyzed to determine when the colors to be rendered are within a predefined neutral region of a color space. Temporal primary colors may be generated to be used for rendering the received colors in a color space that are generated by temporal modulation using at least two temporal subframes to mix first and second primary colors of a display, such as white and black primaries. The temporal primary colors are used when rendering colors that lie within the predefined neutral region of the color space. When white and black primaries are used for temporal modulation, the produced grayscale temporal primaries are more robust than using two complementary colors, affording more robust neutral and near neutral colors.

Abstract: Methods of fabricating an electromechanical systems (EMS) device with spacers between plates and EMS devices formed by the same are disclosed. In one embodiment, a EMS device is fabricated by laminating a front substrate and a carrier, each of which has components preformed thereon. The front substrate is provided with stationary electrodes formed thereover. A carrier including movable electrodes formed thereover is attached to the front substrate. The carrier may be released after transferring the movable electrodes to the front substrate. In other embodiments, the carrier stays over the front substrate, and serves as a backplate for the EMS device. Features are formed by deposition and patterning, by embossing, or by patterning and etching. Spacers are provided between the front substrate and the backplate to maintain a gap therebetween. The resulting EMS devices can trap smaller volumes between laminated substrates and are less susceptible to pressure variations and moisture leakage.

Abstract: This disclosure provides systems, methods and apparatus for three-dimensional (3-D) through-glass via inductors. In one aspect, the through-glass via inductor includes a glass substrate with a first cavity, a second cavity, and at least two through-glass vias. The through-glass vias include metal bars that are connected by a metal trace. The metal bars and the metal trace define the inductor, and each cavity is at least partially filled with magnetic material. The magnetic material can include a plurality of particles having an average diameter of less than about 20 nm. The first cavity can be inside the inductor and the second cavity can be outside inductor. In some implementations, the first and the second cavity can be vias that extend only partially through the glass substrate.

Abstract: This disclosure provides systems, methods and apparatus for glass-encapsulated microphones. In one aspect, a glass-encapsulated microphone may include a glass substrate, an electromechanical microphone device, an integrated circuit device, and a cover glass. The cover glass may be bonded to the glass substrate with an adhesive, such as epoxy, or a metal bond ring. The cover glass may have any of a number of configurations. In some configurations, the cover glass may define an aperture for the electromechanical microphone device at an edge of the glass-encapsulated microphone. In some configurations, the cover glass may define a cavity to accommodate the integrated circuit device that is separate from a cavity that accommodates the electromechanical microphone device.

Abstract: This disclosure provides systems, methods and apparatus for enhancing the brightness and/or contrast ratio of display devices. In one aspect, the display devices can include an annular diffuser that is configured to scatter light into a ring shaped region. The annular diffuser can include a plurality of axicon lenses or holographic features. The reflective display can include an annular diffuser to shift the direction along which most of the modulated light is scattered away from the direction along which light is specularly reflected by the display devices to reduce specular glare and enhance brightness and/or contrast ratio.

Abstract: This disclosure provides implementations of electromechanical systems resonator structures, devices, apparatus, systems, and related processes. In one aspect, a resonator structure includes a first conductive layer of electrodes and a second conductive layer of electrodes. A piezoelectric layer including a piezoelectric material is disposed between the first conductive layer and the second conductive layer. One or more trenches can be formed in the piezoelectric layer on one or both sides in space regions between the electrodes. In some implementations, a process for forming the resonator structure includes removing an exposed portion of the piezoelectric layer to define a trench, for instance, by partial etching or performing an isotropic release etch using a XeF2 gas or SF6 plasma. In some other implementations, a portion of a sacrificial layer is removed to define a trench in the piezoelectric layer.

Abstract: This disclosure provides mechanical layers and methods of forming the same. In one aspect, an electromechanical systems device includes a substrate and a mechanical layer having an actuated position and a relaxed position. The mechanical layer is spaced from the substrate to define a collapsible gap. The gap is in a collapsed condition when the mechanical layer is in the actuated position and in a non-collapsed condition when the mechanical layer is in the relaxed position. The mechanical layer includes a reflective layer, a conductive layer, and a supporting layer. The supporting layer is positioned between the reflective layer and the conductive layer and is configured to support the mechanical layer.

Abstract: This disclosure provides systems, methods and apparatus for a thin film stack with surface-conditioning buffer layers. In one aspect, the thin film stack includes a plurality of thin film layers each having a thickness greater than about 10 nm and a plurality of surface-conditioning buffer layers each having a thickness between about 1 nm and about 10 nm. The surface-conditioning buffer layers are alternatingly disposed between the thin film layers. Each of the surface-conditioning buffer layers are formed with the same or substantially the same thickness and composition. In some implementations, the surface-conditioning buffer layers are formed by atomic layer deposition.

Abstract: This disclosure provides systems, methods and apparatus for microspeaker devices. In one aspect, a microspeaker element may include a deformable dielectric membrane that spans a speaker cavity. The deformable dielectric membrane can include a piezoactuator and a dielectric layer. Upon application of a driving signal to the piezoactuator, the dielectric layer can deflect, producing sound. In some implementations, an array of microspeaker elements can be encapsulated between a glass substrate and a cover glass. Sound generated by the microspeaker elements can be emitted through a speaker grill formed in the cover glass.

Abstract: This disclosure provides systems, methods and apparatus for a front illumination device with metalized light-turning features. In one aspect, an illumination device with integrated touch sensor capability includes a light guide having a metalized light-turning feature and an electrode system for sensing changes to the capacitance between electrodes in the electrode system induced by the proximity of an electrically conductive body, such as a human finger. The metalized light-turning features may be electrically connected to and/or part of the electrode system.