Patent application number | Description | Published |
20110017975 | ORGANIC OPTOELECTRONIC DEVICE ELECTRODES WITH NANOTUBES - An electrode for use in an organic optoelectronic device is provided. The electrode includes a thin film of single-wall carbon nanotubes. The film may be deposited on a substrate of the device by using an elastomeric stamp. The film may be enhanced by spin-coating a smoothing layer on the film and/or doping the film to enhance conductivity. Electrodes according to the present invention may have conductivities, transparencies, and other features comparable to other materials typically used as electrodes in optoelectronic devices. | 01-27-2011 |
20110255182 | PLANAR FLEXURE SYSTEM WITH HIGH PITCH STIFFNESS - A flexure system for miniature camera and the like is disclosed. The flexure system can include a frame and a stage that is configured to move with respect to the frame. One or more flexures can interconnect the frame and the stage. Each flexure can have one or more film hinges formed thereon. The film hinges can be widely spaced and/or extended in length so as to substantially mitigate undesirable pitching of the stage. | 10-20-2011 |
20120081598 | MEMS ACTUATOR DEVICE DEPLOYMENT - A method for making an actuator device includes forming a substantially planar structure having a stage resiliently supported for movement within a plane of the structure, an actuator coupled to an outer periphery of the stage and operable to apply a force acting in the plane and tangentially to the stage when actuated, the actuator comprising a fixed frame and a moving frame resiliently supported for reciprocal movement relative to the fixed frame by a motion control flexure, and an outer frame surrounding and supporting the stage and the actuator. The moving frame is moved to a deployed position that is coplanar with, parallel to and spaced apart from the fixed frame at a selected distance, and the moving frame is then fixed at the deployed position for substantially rectilinear, perpendicular movement relative to the fixed frame. | 04-05-2012 |
20120119324 | MEMS ISOLATION STRUCTURES - A device may comprise a substrate formed of a first semiconductor material and a trench formed in the substrate. A second semiconductor material may be formed in the trench. The second semiconductor material may have first and second portions that are isolated with respect to one another and that are isolated with respect to the first semiconductor material. | 05-17-2012 |
20120119425 | ACTUATOR MOTION CONTROL FEATURES - A method for making a motion control feature for an actuator device of a type that has a moveable component coupled to an opposing fixed component for out-of-plane rotational movement relative thereto includes forming first and second flaps respectively extending from the moveable and fixed components and toward the opposing component and operable to effect one or more of damping movement of the moveable component relative to the fixed component and/or restraining movement of the moveable component relative to the fixed component in a direction substantially perpendicular to the actuator device. | 05-17-2012 |
20120119612 | MOTION CONTROLLED ACTUATOR - A device can have an outer frame and an actuator. The actuator can have a movable frame and a fixed frame. At least one torsional flexure and at least one hinge flexure can cooperate to provide comparatively high lateral stiffness between the outer frame and the movable frame and can cooperate to provide comparatively low rotational stiffness between the outer frame and the movable frame. | 05-17-2012 |
20120120262 | ROTATIONALLY DEPLOYED ACTUATORS - A method for making an actuator includes forming, e.g., using photolithography techniques, a substantially planar actuator device of an electrically conductive material, e.g., a semiconductor, to include an outer frame, a fixed frame coupled to the outer frame for rotational movement relative thereto, a moveable frame coupled to the outer frame for rotational movement relative thereto, and an actuator incorporating a plurality of interdigitated teeth, a fixed portion of which is attached to the fixed frame and a moving portion of which is attached to the moveable frame. The fixed frame is then rotated to a deployed position relative to the outer frame such that the fixed portion of the actuator teeth is disposed at a selected angle relative to the moving portion of the actuator teeth, and the position of the fixed frame relative to the outer frame is then fixed at the deployed position. | 05-17-2012 |
20120120308 | CAPILLARY ACTUATOR DEPLOYMENT - A method for making an actuator includes forming a substantially planar actuator device of an electrically conductive material, the device incorporating an outer frame, a fixed frame attached to the outer frame, a moveable frame disposed parallel to the fixed frame, a motion control flexure coupling the moveable frame to the outer frame for coplanar, rectilinear movement relative to the outer frame and the fixed frame, an actuator incorporating a plurality of interdigitated teeth, a fixed portion of which is attached to the fixed frame and a moving portion of which is attached to the moveable frame, moving the moveable frame to a deployed position that is coplanar with, parallel to and spaced a selected distance apart from the fixed frame, and fixing the moveable frame at the deployed position for substantially rectilinear, perpendicular movement relative to the fixed frame. | 05-17-2012 |
20130059406 | ORGANIC OPTOELECTRONIC DEVICE ELECTRODES WITH NANOTUBES - An electrode for use in an organic optoelectronic device is provided. The electrode includes a thin film of single-wall carbon nanotubes. The film may be deposited on a substrate of the device by using an elastomeric stamp. The film may be enhanced by spin-coating a smoothing layer on the film and/or doping the film to enhance conductivity. Electrodes according to the present invention may have conductivities, transparencies, and other features comparable to other materials typically used as electrodes in optoelectronic devices. | 03-07-2013 |
20130077945 | MEMS-BASED OPTICAL IMAGE STABILIZATION - In one example, a camera is provided that includes: a plurality of MEMS electrostatic comb actuators, each actuator operable to exert a force on at least one lens; and an optical image stabilization (OIS) algorithm module operable to command the plurality of actuators to actuate the at least one lens responsive to motion of the camera. | 03-28-2013 |
20140104764 | CAPILLARY ACTUATOR DEPLOYMENT - A method for making an actuator includes forming a substantially planar actuator device of an electrically conductive material, the device incorporating an outer frame, a fixed frame attached to the outer frame, a moveable frame disposed parallel to the fixed frame, a motion control flexure coupling the moveable frame to the outer frame for coplanar, rectilinear movement relative to the outer frame and the fixed frame, an actuator incorporating a plurality of interdigitated teeth, a fixed portion of which is attached to the fixed frame and a moving portion of which is attached to the moveable frame, moving the moveable frame to a deployed position that is coplanar with, parallel to and spaced a selected distance apart from the fixed frame, and fixing the moveable frame at the deployed position for substantially rectilinear, perpendicular movement relative to the fixed frame. | 04-17-2014 |
20140116163 | MOTION CONTROLLED ACTUATOR - A device can have an outer frame and an actuator. The actuator can have a movable frame and a fixed frame. At least one torsional flexure and at least one hinge flexure can cooperate to provide comparatively high lateral stiffness between the outer frame and the movable frame and can cooperate to provide comparatively low rotational stiffness between the outer frame and the movable frame. | 05-01-2014 |
20150085363 | MEMS-BASED OPTICAL IMAGE STABILIZATION - In one example, a camera is provided that includes: a plurality of MEMS electrostatic comb actuators, each actuator operable to exert a force on at least one lens; and an optical image stabilization (OIS) algorithm module operable to command the plurality of actuators to actuate the at least one lens responsive to motion of the camera. | 03-26-2015 |