| Patent application number | Description | Published |
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| 20090183675 | REACTOR TO FORM SOLAR CELL ABSORBERS - A roll-to-roll or reel-to-reel RTP tool including a reactor having a continuous insert placed in a primary gap of the reactor is provided. The primary gap of the reactor is defined by peripheral reactor walls including a top reactor wall, a bottom reactor wall and side reactor walls. The continuous insert includes a continuous process gap through which a continuous workpiece travels between an entry opening and an exit opening of the insert. An inner space exists between at least one of the insert walls and at least a portion of the peripheral reactor walls that make up the primary gap. At least one gas inlet is connected to the inner space, and at least one exhaust opening connects the process gap as well as the inner space to outside the reactor and carries any gaseous products to outside the process gap and the primary gap of the reactor. Sealable doors or web valves seal the entrance and the exit of the process gap when needed before or after the process, especially when the continuous workpiece stops moving. | 07-23-2009 |
| 20090246908 | ROLL-TO-ROLL PROCESSING METHOD AND TOOLS FOR ELECTROLESS DEPOSITION OF THIN LAYERS - A deposition method and a system are provided to deposit a CdS buffer layer on a surface of a solar cell absorber layer of a flexible workpiece from a process solution including all chemical components of the CdS buffer layer material. CdS is deposited from the deposition solution while the flexible workpiece is heated and elastically shaped by a heated shaping plate to retain the process solution on the solar cell absorber layer. The flexible workpiece is elastically shaped by pulling a back surface of the flexible workpiece into a cavity area in the heated shaping plate using an attractive force. | 10-01-2009 |
| 20100200170 | METHOD AND APPARATUS FOR STRINGING THIN FILM SOLAR CELLS - The present inventions generally relate to thin film solar cell fabrication, and more particularly, to techniques for interconnecting solar cells based on Group IBIIIAVIA thin film semiconductors. In a particular embodiment, a system is described that positions solar cells and conductive leads with respect to each other so that application of a conductive adhesive and formation of an assembled solar cell string, followed by curing and cooling of the conductive adhesive, can occur in a repeatable manner. | 08-12-2010 |
| 20100291727 | ROLL-TO-ROLL PROCESSING METHOD AND TOOLS FOR ELECTROLESS DEPOSITION OF THIN LAYERS - A deposition method and a system are provided to deposit a CdS buffer layer on a surface of a solar cell absorber layer of a flexible workpiece from a process solution including all chemical components of the CdS buffer layer material. CdS is deposited from the deposition solution while the flexible workpiece is elastically shaped by a series of shaping rollers to retain the process solution on the solar cell absorber layer and while the flexible workpiece is heated by contacting to a heated liquid that the shaping rollers are fully or partially immersed. The flexible workpiece is elastically shaped by pulling a back surface of the flexible workpiece into surface cavity of the shaping rollers using magnetic force. | 11-18-2010 |
| 20110239450 | ROLL-TO-ROLL MANUFACTURING OF FLEXIBLE THIN FILM PHOTOVOLTAIC MODULES - Described in one embodiment is a system that has a multiple number of different stations for forming solar cell modules. Described in another embodiment is a system that includes a cutting station, a setting station, and an interconnection station to create different series-connected flexible solar cell modules. Described in still another embodiment is a monolithically integrated multi-module power supply. | 10-06-2011 |
| Patent application number | Description | Published |
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| 20090189804 | SATELLITE DIFFERENTIAL POSITIONING RECEIVER USING MULTIPLE BASE-ROVER ANTENNAS - A rover processor determines position of a rover based upon the interaction between multiple antennas located at the rover and multiple antennas located at a base. The rover antennas may include a rover master antenna having a phase center located at the centroid of the antennas patterns of at least two auxiliary rover antennas. The rover processor may determine the position of the rover master antenna based upon the relative positions of at least two rover antennas (e.g., the rover master antenna and at least one rover auxiliary antenna, or at least two rover auxiliary antennas) with respect to at least two antennas of a base transceiver. | 07-30-2009 |
| 20090195475 | PORTABLE NAVIGATIONAL ANTENNA SYSTEM - A portable navigation apparatus is provided. The apparatus includes a multi-antenna assembly configured for including an expanded configuration and a collapsed configuration. The antenna assembly includes a master antenna, and at least two auxiliary antennas. The at least two auxiliary antennas are radially distributed about the master antenna. Furthermore, the master antenna and auxiliary antennas are substantially coplanar when the antenna assembly is in the expanded configuration. | 08-06-2009 |
| 20100164798 | INTER-CHANNEL BIAS CALIBRATION FOR NAVIGATION SATELLITE SYSTEMS - Dynamic inter-channel bias calibration of a navigational receiver is provided. A reference signal is propagated through front end circuitry of the receiver. A delay caused by the propagation of the reference signal through the front end circuitry is measured. The inter-channel bias of the navigational receiver is reduced using the measured delay associated with the front end circuitry of the receiver. | 07-01-2010 |
| 20110075886 | GRAPHICS-AIDED REMOTE POSITION MEASUREMENT WITH HANDHELD GEODESIC DEVICE - A graphics-aided geodesic device is provided. The device may include a display, camera, distance meter, GNSS (Global Navigation Satellite System, including GPS, GLONASS, and Galileo) receiver and antenna, and horizon sensors. Data from the camera and horizon sensors may be displayed to assist the user in positioning the device over a point of interest. In one example, the distance meter may be used to determine the position of the point of interest. In another example, images of the point of interest taken from multiple locations may be used to determine the position of the point of interest. | 03-31-2011 |
| 20110231057 | METHOD FOR GENERATING OFFSET PATHS FOR GROUND VEHICLES - A computer-implemented method for generating at least one segment of an offset path for a vehicle based on at least one segment of a base path is provided. The at least one segment of the base path is represented by a stored set of data points. The computer-implemented method includes comparing the at least one segment of the base path to a curvature constraint to determine if the at least one segment of the base path violates the curvature constraint. The curvature constraint is based on a characteristic of the vehicle and a desired offset distance from the at least one segment of the base path. The characteristic reflects the vehicle's ability to traverse at least one segment of a path. The method further includes modifying the at least one segment of the base path to satisfy the curvature constraint, if the at least one segment of the base path violates the curvature constraint. At least one segment of an offset path for the vehicle to follow is generated based upon the desired offset distance from the modified at least one segment of the base path. | 09-22-2011 |
