Patent application number | Description | Published |
20120276951 | LOW RISE CAMERA MODULE - A printed circuit carrier has an opening therein against which a back plate is attached to thereby form a cavity. An image sensor device is attached to the back plate inside the cavity. The height of the image sensor device is about equal to or less than the height of the cavity. Electrical signal connections are formed between the image sensor device and the printed circuit carrier. A cap is attached directly to the carrier by a flowable adhesive layer, to seal off the cavity. Other embodiments are also described and claimed. | 11-01-2012 |
20130063629 | DIGITAL CAMERA WITH LIGHT SPLITTER - A digital camera component is described that has a light splitter cube having an entrance face to receive incident light from a camera scene. The cube splits the incident light into first, second, and third color components that emerge from the cube through a first face, a second face, and a third face of the cube, respectively. First, second, and third image sensors are provided, each being positioned to receive a respective one of the color components that emerge from the first, second, and third faces of the cube. Other embodiments are also described and claimed. | 03-14-2013 |
20130329126 | LENS BARREL MECHANICAL INTERFERENC PREVENTION MEASURES FOR CAMERA MODULE VOICE COIL MOTOR DESIGN - A camera module has an image sensor and a lens assembly that includes a lens barrel having a first cylindrical portion that includes an externally threaded portion and a second cylindrical portion that has a larger diameter than the externally threaded portion. A lens moving mechanism includes a movable sleeve having internal threads that receive the externally threaded portion of the lens assembly. The lens moving mechanism is coupled to the image sensor such that the second cylindrical portion of the lens assembly is closest to the image sensor. The camera module is assembled by inserting the lens assembly into the lens moving mechanism from the side closest to the image sensor. An installation tool may engage the second cylindrical portion to rotate the lens assembly and engage the threaded portions. Features may be provided to retain the lens assembly in the lens moving mechanism before joining the threaded portions. | 12-12-2013 |
20140063302 | Electronic Device with Compact Camera Module - A compact electronic device may include a camera module having an image sensor. The image sensor may be controlled by storage and processing circuitry to capture image data from received light. The camera module may include a substrate having front and rear surfaces. The image sensor may be mounted to the rear surface of the substrate. The substrate may include optical focusing structures on the front surface of the substrate that focus light through an opening in the substrate to the image sensor. A flex circuit may be used to convey signals between the camera module and other electronic device components. The flex circuit may be mounted to the front surface of the camera module substrate to help reduce total height of the camera module. The flex circuit may be mounted to an extended portion of the substrate or may be mounted to surround the periphery of the image sensor. | 03-06-2014 |
20150042870 | MIRROR TILT ACTUATION - Some embodiments include an image sensor and a zoom lens assembly including a plurality of movable lens elements arranged to be moved independent of one another. In some embodiments, the plurality of movable lens elements share an optical axis. Some embodiments include a lens and mirror assembly for admitting light to the miniature camera. The lens and mirror assembly includes a folded optics arrangement such that light enters the lens and mirror assembly through a first lens with an optical axis of the first lens orthogonal to the plurality of moveable lens elements. The lens and mirror assembly includes a mirror for folding the path of light from the optical axis of the first lens to the optical axis of the plurality of movable lens elements, and the lens and mirror assembly further includes an actuator for tilting the mirror. | 02-12-2015 |
20150177524 | DIGITAL CAMERA WITH LIGHT SPLITTER - A digital camera component is described that has a light splitter cube having an entrance face to receive incident light from a camera scene. The cube splits the incident light into first, second, and third color components that emerge from the cube through a first face, a second face, and a third face of the cube, respectively. First, second, and third image sensors are provided, each being positioned to receive a respective one of the color components that emerge from the first, second, and third faces of the cube. Other embodiments are also described and claimed. | 06-25-2015 |
20150228517 | UNIVERSAL PROCESS CARRIER FOR SUBSTRATES - A carrier apparatus and method of assembling a carrier apparatus for processing a substrate. The carrier including a first carrier plate having a first plurality of cavities, each of the first plurality of cavities dimensioned to receive a first side of a substrate. The carrier further including a second carrier plate having a second plurality of cavities, each of the second plurality of cavities dimensioned to receive a second side of the substrate when the first carrier plate and the second carrier plate are placed in contact with one another. A magnet assembly is further provided which is configured to hold the first carrier plate and the second carrier plate together, the magnet assembly having at least one magnet positioned within a recess formed along one side of the first carrier plate or the second carrier plate. | 08-13-2015 |
20150350497 | METHOD AND SYSTEM FOR A SINGLE FRAME CAMERA MODULE ACTIVE ALIGNMENT TILT CORRECTION - Some embodiments include methods for correcting optical alignment of components in a camera module for a multifunction device. In some embodiments, components of a camera module for use in a multifunction device are assembled on a test station. Some embodiments include a method that includes capturing a single test image, calculating from the spatial frequency response data an optical tilt between the optical axis of a lens and an optical axis of the image sensor of the camera module, and mechanically adjusting an alignment of the lens and the optical axis of the image sensor of the camera module to reduce the optical tilt. In some embodiments, the capturing is performed using the components of the camera module, and the single test image contains visually encoded spatial frequency response data for characterizing the components of the camera module. | 12-03-2015 |