Abstract: A method and system for reducing power consumption in a display includes driving a display comprising a plurality of display elements characterized by a display state. In a first mode of operation, the display state of substantially all the display elements is periodically re-set so as to display a first series of image frames. Upon changing to a second mode of operation, a second mode of operations comprises re-setting the display state of only a portion of the display elements so as to display a second series of image frames at a display element resolution which is less than said display element resolution used to display said first series of image frames.

Abstract: Devices and methods for determining an operational state of a selected display device in an array of display devices. One method includes determining the operational state of a particular display device in the array by measuring an electrical characteristic of a plurality of the display devices, and determining the operational state based at least in part on the three measurements. In some embodiments, the electrical characteristic is capacitance, in other embodiments impedance can be the measured electrical characteristic. Such methods can be applied to interferometric modulator displays and other displays, including liquid crystal display displays.

Abstract: A light guide device includes a light guide body and two or more pluralities of spaced-apart slits. The slits are formed by undercuts in the light guide body. Sidewalls of the slits form facets that redirect light impinging on the facets. In some embodiments, the light guide body is attached to a light source. The light source emits light that is injected into the light guide body and the slits redirect the light out of the light guide body and towards a desired target. In some embodiments, the target is a display and a first plurality of slits directs light from the light source across the light guide body and over the face of the display. A second plurality of slits then directs light out of the light guide body and towards the display.

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 calibrating and controlling the actuation of an analog interferometric modulator. In one aspect, an electrode of a movable layer of the analog interferometric modulator may include a part for receiving a drive voltage, and an electrically isolated part. A voltage may be sensed from the electrically isolated part, and used to determine the position of the movable layer and/or provide feedback to the drive voltage.

Abstract: This disclosure provides systems, methods and apparatus related to an electromechanical display device. In one aspect, an analog interferometric modulator includes a reflective display pixel having a reflector, and a movable first absorbing layer positionable at a distance d1 from the reflector, the first absorbing layer and the reflector defining a first gap therebetween. The apparatus also includes a second absorbing layer disposed at a distance d2 from the first absorbing layer, the first absorbing layer disposed between the second absorbing layer and the reflector, the second absorbing layer and the first absorbing layer defining a second gap therebetween. In addition, at least two of the reflector, the first absorbing layer and second absorbing layer are movable to synchronously either increase or decrease the thickness dimension of the first gap and the second gap.

Abstract: This disclosure provides systems, methods and apparatus for writing a display image to a display having an array of pixels according to a selected driving sequence. In one aspect, display elements in a row are driven using a tall and narrow voltage pulse. This allows display elements of a row to be driven in a shorter line time.

Abstract: This disclosure provides systems, methods and apparatus for a display device having a front light to provide front illumination to the display element included in the display device and an optical touch screen to provide a touch input to the display device. In one aspect, the display device includes a light source disposed to inject light into a backplate of the display device rearward of the display elements and a light redirector disposed to receive light from the backplate and redirect the received light forward of the display elements for optical touch purpose.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for providing a gesture-responsive user interface for an electronic device. In one aspect, an apparatus or electronic device has an interactive display that provides an input/output (I/O) interface to a user of the apparatus. The apparatus includes a processor, a light emitting source and at least two light sensors. A secondary optical lens structures emitted light from the light emitting source into at least one lobe. Each light sensor outputs, to the processor, a signal representative of a characteristic of received light, where the received light results from scattering of the structured emitted light by an object. The processor effectuates the I/O interface by recognizing, from the output of the light sensors, an instance of a user gesture, and to control the interactive display and/or the apparatus in response to the user gesture.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for two dimensional position determination of an object. In one aspect, a first electromagnetic (EM) radiation and a second EM radiation is emitted, along a plane, toward a position-sensing region, the first and second EM radiation each having a respective, different, wavelength. Scattered radiation, resulting from interaction of the emitted first and second EM radiation with an object located in the position-sensing region, is detected. Characteristics of the detected scattered radiation have a correlation with a position of the object in the position-sensing region. A two dimensional position of the object is determined, from the correlation. The position-sensing region may be co-planar with, and/or disposed proximate and parallel to an external surface of a display screen.

Abstract: This disclosure provides methods, apparatus, and computer programs encoded on computer storage media for converting drive instructions for a plurality of display devices to drive instructions for a first display device. In one aspect, a method includes processing the drive instructions for the plurality of display devices to produce a first color in a set of potential colors for the plurality of display devices, selecting a color for the first display device that approximates the produced first color, displaying the selected color with the first display device, determining an error between the selected color and the produced first color, and diffusing the error by displaying at least another color on at least a portion of the plurality of display devices.

Abstract: This disclosure provides systems, methods and apparatus for providing packaged microelectromechanical systems (MEMS) devices. In one aspect, package can include a cover glass joined to a device substrate, the cover glass including integrated electrical connectivity and configured to encapsulate one or more MEMS devices on the device substrate. The cover glass can include one or more spin-on glass layers and electrically conductive routing and interconnects. The package can include a narrow seal surrounding the one or more encapsulated MEMS devices.

Abstract: Systems, devices, and methods for calibrating and controlling the actuation of an analog interferometric modulator are described herein. An electrode of a movable layer of the analog interferometric modulator may include a part for receiving a drive voltage, and an electrically isolated part. A charge may be sensed from the electrically isolated part, and used to determine the position of the movable layer or provide feedback to the drive voltage.

Abstract: This disclosure provides implementations of electromechanical systems piezoelectric resonator transformers, devices, apparatus, systems, and related processes. In one aspect, a transformer includes a piezoelectric layer; a first conductive layer arranged over a first surface of the piezoelectric layer including a first set of electrodes and a second set of electrodes interdigitated with the first set. The transformer includes a second conductive layer arranged over a second surface including at least a third set of electrodes. In some implementations, the transformer includes a first port capable of receiving an input signal and to which the first set of electrodes are coupled, and a second port capable of being coupled to a load and of outputting an output signal, the second set of electrodes being coupled to the second port. Generally, a ratio of the number of electrodes of the second set to the first set characterizes a transformation ratio.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for three dimensional position determination of an object. In one aspect, a first electromagnetic (EM) radiation and a second EM radiation is emitted, toward a position-sensing volume, the first and second EM radiation each having a respective, different, wavelength. Scattered radiation, resulting from interaction of the emitted first and second EM radiation with an object located in the position-sensing volume, is detected. Characteristics of the detected scattered radiation have a correlation with a position of the object in the position-sensing volume. A three dimensional position of the object is determined, from the correlation. The position-sensing volume may be proximate to, and extend above, an external surface of a display screen.

Abstract: This disclosure provides systems, methods and apparatus for batch fabrication of a rechargeable lithium-ion battery using a silicon substrate as an anode. In one aspect, a pre-formed silicon substrate is provided. A plurality of first openings can be formed on one side of the substrate, which can have a high height to width aspect ratio. A plurality of second openings can be formed alternatingly, or in interdigitated fashion, with the first openings on another side of the substrate that is opposite the first side. A solid electrolyte layer can be deposited on the second side of the substrate in the second openings, and a cathode material can be formed into the second openings and over the electrolyte layer on the second side of the substrate.

Abstract: An ornamental display device having at least one interferometric modulator, a signal receiver configured to receive an external signal and a processor configured to control the display based on the external signal is disclosed. In one aspect, the external signal is emitted from a controller. In another aspect, the external signal is emitted from a computer.

Abstract: The present disclosure provides systems, methods and apparatus to produce a plurality of virtual light sources and at least partially collimate light. In one aspect, a manifold to collimate light can produce a plurality of virtual light sources used to inject light into a light guide for illuminating a display. The manifold can be formed of optically transmissive material and can have a backside for receiving light from a light source and a front wall, opposite the backside, for outputting light. The front wall can include first and second output portions separated by a non-light emitting area, each of the output portions providing a separate virtual light source. The upper, bottom, and side walls of the manifold can extend along a curve from the backside to the front wall and can be configured to collimate light propagating in directions extending out of the plane of the light guide.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for driving electromechanical display devices that suffer from adhesion forces. In one aspect, a method for driving a display element is provided that includes applying a first series of voltages to a first electrode and applying a second series of voltages from a set of voltage levels to a second electrode to selectively place a movable layer into an actuated state or un-actuated state based on a voltage difference between the first and second electrodes. The method further includes applying a third series of voltages levels from the set of voltage levels to a third electrode. The third series of voltage levels are applied to the third electrode such that a non-zero voltage exists between the third and second electrodes during a release time period where a desired state is the un-actuated state.

Abstract: This disclosure provides systems, methods and apparatus, including computer programs encoded on computer storage media, for accurately positioning a movable conductive layer of a reflective display element. In one aspect, an initial position of the movable conductive layer with respect to at least one or more fixed conductive layers is sensed. A charging voltage may be determined based at least in part on the initial position. The charging voltage may be applied to the movable conductive layer.