Abstract: An improved nozzle and iodine injector system for use in a COIL are disclosed. The improved nozzle is a two-dimensional, minimum length nozzle with a curved sonic line. The iodine injection system utilizes a series of slender struts for iodine injection into the oxygen stream through a series of small orifices that are located along the base of each strut. The struts are located within the nozzle such that the need for a diluent gas for the iodine is reduced. The use of the nozzle and iodine injection system, particularly when combined with the SOG disclosed in U.S. patent application Ser. No. 10/453,148, have the potential for yielding a highly efficient, high power, optically superior COIL device that is compact, scalable, can operate in space, and has good pressure recovery potential.
Abstract: A modular base is provided. A plurality of motor support members are secured to one another by a first linking member. Each motor support member has a mounting surface that is adapted to be secured to a motor, and the first linking member has a central axis and is dimensioned to support the motor. A plurality of extruder support members are secured to one another by a second linking member. Each extruder support member has a carriage that is adapted to be secured to an extruder, wherein the second linking member has a central axis and is dimensioned to support the extruder. An intermediate member having a mounting surface that is adapted to be secured to a transmission is provided.
Abstract: During shipping, it is not uncommon to have loads shift in transit. To help alleviate this problem, a portable bulkhead or spacing system is provided. The system is nestable for easy storage, lightweight, durable, and cost effective. The combination of these factors, thus, allows for shipping efficiencies to drastically increase so that products can be effectively shipped resulting in an overall lower cost to the consumer and generating an advantage over competition.
Type:
Grant
Filed:
August 17, 2006
Date of Patent:
March 13, 2012
Assignee:
Anheuser-Busch Companies, Inc.
Inventors:
Richard H. Lee, Terry Staed, Paul W. Baker, Thomas M. Quinn
Abstract: An interferometer includes a cavity including a pair of mirrors defining a cavity length. An input beam and a counter-propagating reference beam are directed into the cavity. The interferometer generates a feedback control signal and an ultrasound signal for optimal performance and measurement of a target, respectively.
Abstract: A vertical-current-flow device includes a trench which includes an insulated gate and which extends down into first-conductivity-type semiconductor material. A phosphosilicate glass layer is positioned above the insulated gate and a polysilicon layer is positioned above the polysilicate glass layer. Source and body diffusions of opposite conductivity types are positioned adjacent to a sidewall of the trench. A drift region is positioned to receive majority carriers which have been injected by the source, and which have passed through the body diffusion. A drain region is positioned to receive majority carriers which have passed through the drift region. The gate is capacitively coupled to control inversion of a portion of the body region. As an alternative, a dielectric layer may be used in place of the doped glass where permanent charge is positioned in the dielectric layer.
Abstract: A system for automatically expanding the zoom capability of a wide-angle video camera using images from multiple camera locations. One preferred embodiment achieves this using images from the wide-angle video camera that are analyzed to identify regions of interest (RoI). Pan-Tilt-Zoom (PTZ) controls are then sent to aim slave cameras toward the RoI. Processing circuitry is then used to replace the RoI from the wide-angle images with the higher-resolution images from one of the slave cameras. In addition, motion-detecting software can be utilized to automatically detect, track, and/or zoom in on moving objects.
Type:
Grant
Filed:
July 19, 2005
Date of Patent:
August 2, 2011
Assignee:
Grandeye, Ltd.
Inventors:
Bartu Ahiska, Mark Kenneth Davey, Ahmet Enis Cetin
Abstract: An apparatus for transferring and securing a substrate is shown. A pressure source is provided that is adapted to provide positive and negative pressure. A vacuum chuck is provided having a top side with a plurality of vacuum chuck portals formed therein. Each vacuum chuck portal is in fluid communication with the pressure source. The substrate is secured to the top side of the vacuum chuck when the pressure source provides negative pressure to the vacuum chuck portals. An intermediate member that selectively cooperates with the vacuum chuck to support and transfer the substrate between the vacuum chuck and the intermediate member is provided. The intermediate member has a plurality of receiving spaces and a plurality of transfer members. The receiving spaces and transfer members are adjacent to one another in an alternating pattern, and each transfer member has a top side with a plurality of transfer member portals formed therein.
Abstract: A semiconductor device includes a semiconductor layer of a first conductivity type and a semiconductor layer of a second conductivity type formed thereon. The semiconductor layer of the second conductivity type is characterized by a first thickness. The semiconductor device includes a set of trenches having a predetermined depth and extending into the semiconductor layer of the second conductivity type, thereby defining interfacial regions disposed between the semiconductor layer of the second conductivity type and each of the trenches. The trenches comprises a distal portion consisting essentially of a dielectric material disposed therein and a proximal portion comprising the dielectric material and a gate material disposed interior to the dielectric material in the proximal portion of the trench. The semiconductor device further includes a source region coupled to the semiconductor layer of the second conductivity type.
Abstract: An edge termination structure includes a final dielectric trench containing permanent charge. The final dielectric trench is surrounded by first conductivity type semiconductor material (doped by lateral outdiffusion from the trenches), which in turn is laterally surrounded by second conductivity type semiconductor material.
Abstract: In the wireless communication base station sharing apparatus, a first signal combiner/distributor is connected to a main system duplexer through a first port, distributes a signal received through the first port to second and third ports, combines the signals received through the second and third ports according to the phases of the signals, and provides the combined signal through the first port or a fourth port. A second signal combiner/distributor is connected to a subsystem duplexer through a fifth port and the antenna through an eighth port, distributes a signal received through the fifth port to sixth and seventh ports, combines the signals received through the sixth and seventh ports according to the phases of the signals, and provides the combined signal through the fifth or eighth port. Variable filters are provided in signal paths between the first and second signal combiner/distributors.
Type:
Grant
Filed:
March 16, 2006
Date of Patent:
May 10, 2011
Assignee:
KMW Inc.
Inventors:
Duk-Yong Kim, Sang-Sig Park, Myoung-Hoon Yang
Abstract: A switchable combiner/divider with multiple inputs/outputs is provided. The switchable combiner/divider with multiple inputs/outputs includes multiple input ports for receiving multiple incoming signals, multiple output ports, a switching part for alternately connecting the multiple input ports to output ports as a circulating configuration, and a controller for providing switching control signals to the switching part.
Type:
Grant
Filed:
December 7, 2006
Date of Patent:
May 3, 2011
Assignee:
KMW Inc.
Inventors:
Taek-Dong Kim, Duk-Yong Kim, Jung-Pil Lee, Sang-Sig Park, Jin-Chul Hwang, Nam-Shin Park
Abstract: Single substrate device is formed to have an image acquisition device and a controller. The controller on the substrate controls the system operation.
Abstract: A single chip camera which includes an intergrated integrated image acquisition portion and control portion and which has double sampling/noise reduction capabilities thereon. Part of the intergrated integrated structure reduces the noise that is picked up during imaging.