Patent application number | Description | Published |
20100129945 | METAL SUBSTRATE HAVING ELECTRONIC DEVICES FORMED THEREON - A method of forming an electronic device on a metal substrate deposits a first seed layer of a first metal on at least one master surface with a roughness less than 400 nm. A supporting metal layer is bonded to the first seed layer to form the metal substrate | 05-27-2010 |
20100129965 | METAL SUBSTRATE HAVING ELECTRONIC DEVICES FORMED THEREON - A method of forming an electronic device on a metal substrate deposits a first seed layer of a first metal on at least one master surface with a roughness less than 400 nm. A supporting metal layer is bonded to the first seed layer to form the metal substrate | 05-27-2010 |
20100277698 | DIGITAL PROJECTOR USING ARRAYED LIGHT SOURCES - A beam alignment chamber extending in a length direction comprising a base having a front edge, and two side edges, first and second opposed side walls connected to the base, and extending along the length of the base, a front wall located at the front edge of the base having an output opening. The beam alignment chamber further comprises a plurality of arrays of light sources disposed to direct light beams through the first or second side walls, and a plurality of reflectors mounted on the base, each having independent yaw and pitch adjustments, each reflector being paired with a corresponding array of light sources, the base-mounted reflectors being disposed to direct the light beams along the length of the beam alignment chamber through the output opening forming an aligned two-dimensional array of parallel light beams. | 11-04-2010 |
20100277699 | BEAM ALIGNMENT CHAMBER PROVIDING DIVERGENCE CORRECTION - A beam alignment chamber comprising: a base, first and second side walls connected to the base, and a front wall located at the front edge of the base having an output opening. The beam alignment chamber further including a plurality of light sources disposed to direct light beams through the first or second side walls, a plurality of reflectors mounted on the base, each having independent yaw and pitch adjustments, each being disposed to direct the light beams from a corresponding light sources along the length of the beam alignment chamber through the output opening forming an aligned array of parallel light beams, and one or more optical elements positioned in the optical path of the aligned array of light beams disposed to correct the beam divergence with respect to at least one axis. | 11-04-2010 |
20100296188 | KINEMATIC MIRROR MOUNT ADJUSTABLE FROM TWO DIRECTIONS - A kinematic optical mount comprising a frame supporting an optical element; a base member having first and second surfaces and providing magnetic attraction to seat the frame against first, second, and third point contacts. The kinematic optical mount further includes threaded yaw and pitch adjustment cavities extending through the base member from the first surface to the second surface, together with threaded yaw and pitch adjustment inserts that can be inserted into the yaw and pitch adjustment cavities from either the first or second surfaces of the base member enabling adjustment of two of the point contacts from the direction of the either the first or second surfaces. | 11-25-2010 |
20100302514 | BEAM ALIGNMENT SYSTEM USING ARRAYED LIGHT SOURCES - A beam alignment system for generating an aligned two-dimensional array of parallel light beams, comprising a beam alignment chamber including a base extending in a length direction and a plurality of reflectors mounted on the base, each having independent yaw and pitch adjustments. The beam alignment system further includes a plurality of arrays of light sources, each generating an array of light beams and being paired with a corresponding reflector, the reflectors being disposed to direct the light beams along the length of the beam alignment chamber forming an aligned two-dimensional array of parallel light beams. | 12-02-2010 |
20100328619 | COOLING CELL FOR LIGHT MODULATOR - A cooling cell for drawing heat from a light modulator has an enclosure for conducting a fluid coolant. The enclosure has a fluid coolant inlet disposed to receive fluid coolant under pressure and a fluid conduit to provide fluid communication from the fluid coolant inlet to a nozzle. A well cavity surrounds the nozzle and has a number of fins that extend radially upward from a bottom of the well cavity and outward from the well cavity along a shallow cavity that is peripheral to the well cavity and is shallower than the well cavity. The well cavity is formed within a protruding element that protrudes outward from a portion of an external surface of the enclosure. The protruding element provides a component mounting surface that lies behind the bottom of the well cavity. There is at least one fluid coolant discharge outlet for discharging fluid coolant from the enclosure. | 12-30-2010 |