Abstract: A content-preserving screen saver (CPSS) method for controlling a display apparatus is disclosed. When a CPSS method is implemented, the screen content may be displayed at a relatively lower resolution, such as half resolution or some other fraction of full resolution, by deactivating some of the display pixels or subpixels. The CPSS may be activated, for example, if no user input is received (and/or if another event does not occur) for a predetermined period of time. In one half-resolution example, every other pixel of the display is turned off when the CPSS is activated. After another predetermined period of time, all pixels are “flipped”: pixels that were on are turned off, and pixels that were off are turned on. In alternative implementations, more or fewer than half of the pixels may be switched off to achieve other partial resolution states, such as 75% resolution, ? resolution, ? resolution, etc.

Abstract: A display apparatus may include a multi-state IMOD, such as an analog IMOD (AIMOD), a 3-state IMOD (such as having a white state, a black state and one colored state) or a 5-state IMOD (such as having a white state, a black state and three colored states). The multi-state IMOD may include a movable reflective layer and an absorber stack. The absorber stack may include a first absorber layer having a first absorption coefficient and a first absorption peak at a first wavelength, a second absorber layer having a second absorption coefficient and a second absorption peak at a second wavelength, and a third absorber layer having a third absorption coefficient and a third absorption peak at a third wavelength. The first, second and third absorption layers may have absorption levels that drop to nearly zero at the center of each neighboring absorber layer's absorption peak.

Abstract: This disclosure provides systems, processes, and apparatus implementing and using techniques for fabricating flexible integrated circuit (IC) device layers. In one implementation, a sacrificial layer is deposited on a substrate. The sacrificial layer can include amorphous silicon or molybdenum, by way of example. One or more electronic components are formed on the sacrificial layer. A polymer coating is provided on the one or more electronic components to define a coated device layer. The sacrificial layer is removed to release the coated device layer from the substrate. The sacrificial layer can be removed using a xenon difluoride gas or by etching, for example. Coated device layers made in accordance with this process can be stacked. The substrate can be formed of glass, silicon, a plastic, a ceramic, a compound semiconductor, and/or a metal, depending on the desired implementation. The electronic component(s) can include a passive component such as a resistor, an inductor, or a capacitor.

Abstract: This disclosure provides systems, methods, and apparatuses for illumination using illumination systems having a light guide. A light source is configured to inject light into a light input edge of the light guide. The light guide is configured to recirculate the injected light therein such that the light passes back and forth across the light guide one or more times. The light guide includes light-turning features that extract light out of the light guide. To promote light recirculation, the light-turning features have a per-pass light extraction efficiency of about 50% or less and one or more edges of the light guide may be reflective. The light extracted out of the light guide by the light-turning features may be used to illuminate a display.

Abstract: A method of shaping a mechanical layer is disclosed. In one embodiment, the method comprises depositing a support layer, a sacrificial layer and a mechanical layer over a substrate, and forming a support post from the support layer. A kink is formed adjacent to the support post in the mechanical layer. The kink comprises a rising edge and a falling edge, and the kink can be configured to control the shaping and curvature of the mechanical layer upon removal of the sacrificial layer.

Abstract: A photovoltaic solar panel includes a front glass, a back glass, and a photovoltaic (PV) power generating layer encapsulated between the front glass and the back glass. The PV power generating layer is configured to convert ambient electromagnetic energy, received through the front glass, to a direct current (DC) power output. The PV solar panel also includes at least one component, disposed behind the PV power generating layer, selected from the group consisting of: a direct current to alternating current (DC-AC) inverter configured to convert the DC power output from the PV power generator to an alternating current (AC) power output, a battery, and an antenna.

Abstract: Displays, and methods of displaying images with the displays, which have quantized display characteristics for each of the pixels are disclosed. The displays and methods relate to both spatially and temporally dithering images so that the effective resolution of the display is higher than the result of the native spatial and intensity resolutions of the display, defined by pixel size, pitch, and number of quantization levels of each of the pixels.

Abstract: The invention comprises systems and methods for controller and driver features for displays, and in particular, controller and driver features that relate to displays. In one embodiment, such a display includes at least one driving circuit and an array comprising a plurality of display elements, where the array is configured to be driven by the driving circuit, and where the driving circuit is programmed to receive video data and provide a subset of the received video data to the array based on a frame skip count. In some embodiments, the frame skip count is programmable or dynamically determined. In another embodiment, a method of displaying data on an array having a plurality of display elements comprises receiving video data comprising a plurality of frames, displaying selected frames based upon a frame skip count, measuring the change between each selected frame and a frame previous to the selected frame, and displaying non-selected frames if the measured change is greater than or equal to a threshold.

Abstract: This disclosure provides systems, methods and apparatus for electromechanical systems devices that can be switched between a transmissive state and a reflective state. In one aspect, the electromechanical systems devices is a display device including a movable layer disposed over an optical stack having a partially transmissive and a partially reflective layer that has a high refractive index and a low absorption coefficient. The movable layer is configured to be actuated between a first position and a second position such that the display device displays a color when the movable layer is in the first position and displays black when the movable layer is in the second position. Alternately, the display device displays white when the movable layer is in the first position and displays a color when the movable layer is in the second position.

Abstract: This disclosure provides systems, methods, and apparatus for high capacitance density metal-insulator-metal capacitors. In one aspect, an apparatus may include a first base metal layer on a first side of a substrate. A first polymer layer may be disposed on the first base metal layer and on the first side of the substrate. The first polymer layer may define a first plurality of vias though the first polymer layer, the first plurality of vias exposing portions of the first base metal layer. A first electrode layer may be disposed on the first polymer layer. The first electrode layer may contact the portions of the first base metal layer. A first dielectric layer may be disposed on the first electrode layer. A second electrode layer may be disposed on the first dielectric layer. The first dielectric layer may electrically isolate the first electrode layer from the second electrode layer.

Abstract: This disclosure provides systems, methods and apparatus for electromechanical systems devices that can be switched between a transmissive state and a reflective state. In one aspect, the electromechanical systems devices can include a partially transmissive and a partially reflective layer that has a high refractive index and a low absorption coefficient. The electromechanical systems devices can be used in a variety of way including as a smart window, as an optical shutter, as a privacy screen and as a display device.

Abstract: This disclosure provides systems, methods and apparatus for interposers in compact three-dimensional (3-D) device packages. In one aspect, one or more methods of fabricating an interposer using an additive process are provided. The additive process can involve depositing flowable dielectric material around a plurality of metal interconnect posts after forming the plurality of metal interconnect posts on a carrier substrate. In another aspect, an interposer including through-glass vias and one or more passive devices is provided.

Abstract: Etching equipment and methods are disclosed herein for more efficient etching of sacrificial material from between permanent MEMS structures. An etching head includes an elongate etchant inlet structure, which may be slot-shaped or an elongate distribution of inlet holes. A substrate is supported in proximity to the etching head in a manner that defines a flow path substantially parallel to the substrate face, and permits relative motion for the etching head to scan across the substrate.

Abstract: This disclosure provides implementations of electromechanical systems (EMS) piezoelectric resonator structures, transformers, devices, apparatus, systems, and related processes. In one aspect, a piezoelectric resonator structure includes a first conductive electrode layer, a second conductive electrode layer, and a piezoelectric layer arranged between the first and second conductive layers. In some implementations, the surface of the piezoelectric layer adjacent to the first conductive layer is separated from the first conductive layer by a first gap, and the surface of the piezoelectric layer adjacent to the second conductive layer is separated from the second conductive layer by a second gap. In some implementations, the resonator structure further includes an encapsulation layer arranged over the second conductive layer and providing physical support to the second conductive layer.

Abstract: Power efficient power supply regulator circuits are disclosed. The circuits are configured to modify their overhead current according to current load. This is particularly advantageous for use in display devices with widely varying current loads. Such displays include bi-stable displays, such as interferometric modulation displays, LCD displays, and DMD displays.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for performing color mapping in a display device. The display device can include a plurality of stored color mappings that are used to convert input digital color images into the display device's color space. Each of the stored color mappings can correspond to a distinct lighting environment. The display device can detect its lighting environment and then combine two or more of the stored color mappings based on the detected lighting environment. For example, the display device may calculate an interpolated color mapping from two or more of the stored color mappings using interpolation weights that are based on the detected lighting conditions. The display device can then convert the input image using the composite color mapping, and display the image.

Abstract: This disclosure provides systems, methods and apparatus for EMS devices. In one aspect, an EMS device includes an array of display elements and a plurality of driver lines with at least a portion of the plurality of driver lines routed above or below the array between one or more driver circuits and the array. In some implementations, at least a portion of the plurality of driver lines is disposed above a non-active area of the array. In one aspect, an EMS device can form a portion of at least one of the plurality of driver lines. In some implementations, movable layers of the array can be disposed between at least a portion of the plurality of driver lines and stationary electrodes of the display.

Abstract: This disclosure provides systems, methods and apparatus including a hybrid wedge shaped/microstructured light collector that is optically coupled to one or more photovoltaic cells. In one aspect, the hybrid wedge shaped/microstructured light collector includes a wedge shaped light guide having an inclined light receiving surface that can collect light incident at angles in the range from about 60 degrees to about 90 degrees with respect to a normal to the inclined light receiving surface. Additionally, the hybrid wedge shaped/microstructured light collector includes a microstructured light collector that can collect light incident at angles in the range from about 0 degrees to about 60 degrees with respect to a normal to the inclined light receiving surface.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for making and using gyroscopes. Such gyroscopes may include a central anchor, a sense frame disposed around the central anchor, a plurality of sense beams configured for connecting the sense frame to the central anchor and a drive frame disposed around and coupled to the sense frame. The gyroscope may include pairs of drive beams disposed on opposing sides of the sense frame. The gyroscope may include a drive frame suspension for substantially restricting a drive motion of the drive frame to that of a substantially linear displacement along the first axis. The sense frame may be substantially decoupled from drive motions of the drive frame. Such devices may be included in a mobile device, such as a mobile display device.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for making and using gyroscopes. Such gyroscopes may include a sense frame, a proof mass disposed outside the sense frame, a pair of anchors and a plurality of drive beams. The plurality of drive beams may be disposed on opposing sides of the sense frame and between the pair of anchors. The drive beams may connect the sense frame to the proof mass. The drive beams may be configured to cause torsional oscillations of the proof mass substantially in a first plane of the drive beams. The sense frame may be substantially decoupled from the drive motions of the proof mass. Such devices may be included in a mobile device, such as a mobile display device.