Patent application number | Description | Published |
20090032086 | TERRESTRIAL SOLAR ARRAY INCLUDING A RIGID SUPPORT FRAME - A concentrator photovoltaic solar cell array system includes a central support mountable on a surface and a solar cell array including triple junction III-V semiconductor compound solar cell receivers and a support frame coupled to the solar cell array and carried by, and rotatable with respect to, the central support about an axis orthogonal to the central longitudinal axis. The support frame can include (i) a first frame assembly coupled to the solar cell array and (ii) a second frame assembly coupled to the first frame assembly arranged to increase the rigidity thereof. The system also has an actuator for rotating the central support and the support frame as well as pivoting the support frame so as to adjust its angle with respect to the earth's surface, so that the solar cell array is maintained substantially orthogonal to the rays from the sun as the sun traverses the sky. | 02-05-2009 |
20090032090 | METHOD FOR ASSEMBLING A TERRESTRIAL SOLAR ARRAY INCLUDING A RIGID SUPPORT FRAME - A method for assembling a concentrator photovoltaic solar cell array system for producing energy from the sun includes installing a foundation on a surface and coupling a central support to the foundation. A cross member is coupled to the central support and one or more inclined arms are coupled to the cross member and the central support. A support frame, which includes a first frame assembly arranged to couple to one or more solar cell subarrays, is coupled to the cross member. One or more solar cell subarrays are coupled to the first frame assembly thereby forming a solar cell array, wherein each solar cell subarray includes a plurality of triple junction III-V semiconductor compound solar cell receivers. To enable rotation of at least a portion of the central support coupled to the support frame, an actuator is installed. | 02-05-2009 |
20090199890 | Solar cell receiver for concentrated photovoltaic system for III-V semiconductor solar cell - A solar cell module comprises an array of lenses, corresponding secondary optical elements and corresponding solar cell receivers. The solar cell receiver includes a solar cell having one or more III-V compound semiconductor layers, a diode coupled in parallel with the solar cell and connector for coupling to other solar cell receivers. The module includes a housing that supports the lenses such that each lens concentrates solar energy onto its respective solar cell. | 08-13-2009 |
20090199891 | SOLAR CELL RECEIVER FOR CONCENTRATED PHOTOVOLTAIC SYSTEM FOR III-V SEMICONDUCTOR SOLAR CELL - A solar cell module comprises an array of lenses, corresponding secondary optical elements and corresponding solar cell receivers. The solar cell receiver includes a solar cell having one or more III-V compound semiconductor layers, a diode coupled in parallel with the solar cell and connector for coupling to other solar cell receivers. The module includes a housing that supports the lenses such that each lens concentrates solar energy onto its respective solar cell. | 08-13-2009 |
20100011565 | METHODS OF FORMING A LENS SHEET FOR A PHOTOVOLTAIC SOLAR CELL SYSTEM - The present application is directed to methods of forming an integral lens sheet for use with a photovoltaic solar cell subassembly. The integral lens sheet is constructed from a parquet member and one or more individual lenses. One embodiment of a method may include positioning an individual lens over each of the apertures in the parquet member. The size of the lenses may provide for peripheral sections of the lenses to overlap the parquet member. Each of the lenses may be welded to the parquet member by directing a laser beam through the peripheral sections and onto the parquet member. The laser beam may form a laser weld between the parquet member and an underside of the individual lenses. | 01-21-2010 |
20100037935 | Concentrated Photovoltaic System Modules Using III-V Semiconductor Solar Cells - A solar cell module to convert light to electricity. The module may include a housing with a first side and an opposing spaced-apart second side. A plurality of lenses may be positioned on the first side of the housing, and a plurality of solar cell receivers may be positioned on the second side of the housing. Each of the plurality of solar cell receivers may include a III-V compound semiconductor multifunction solar cell. Each may also include a bypass diode coupled with the solar cell. At least one optical element may be positioned above the solar cell to guide the light from one of the lenses onto the solar cell. Each of said solar cell receivers may be disposed in an optical path of one of the lenses. The lens and the at least one optical element may concentrate the light onto the respective solar cell by a factor of 1000 or more to generate in excess of 25 watts of peak power. | 02-18-2010 |
20100101625 | Terrestrial Solar Tracking Photovoltaic Array - The terrestrial solar tracking photovoltaic array includes a longitudinal support that may be constructed of discrete sections. The overall length of the array may be adjusted depending upon the necessary size of the array. A drive may be configured to rotate the longitudinal support in first and second directions about a first axis. Solar cell modules are positioned along the longitudinal support and may each include a rectangular case with a plurality of lenses that are positioned over corresponding receivers. Linkages may be connected to the solar cell modules and are axially movable along the longitudinal support to rotate the solar cell modules within second planes that each orthogonal to the first plane to further track the sun during the course of the day. The array may be configured to facilitate rotation about the first axis. The array may be constructed with a center of gravity of the array to extending through the longitudinal support. | 04-29-2010 |
20100101630 | Terrestrial Solar Tracking Photovoltaic Array with Slew Speed Reducer - A terrestrial solar tracking photovoltaic array with a longitudinal support that may be constructed of discrete sections. The overall length of the array may be adjusted depending upon the necessary size of the array. A drive may be configured to rotate the longitudinal support about a first axis. The drive may include a slew speed reducer. Solar cell modules are positioned along the longitudinal support and may each include a rectangular case with a plurality of lenses that are positioned over corresponding receivers. Linkages may be connected to frames and are axially movable along the longitudinal support to rotate the solar cell modules within second planes that are each orthogonal to the first plane to further track the sun during the course of the day. | 04-29-2010 |
20100101632 | Terrestrial Solar Tracking Photovoltaic Array With Offset Solar Cell Modules - Terrestrial solar tracking photovoltaic arrays that may include a modular design that is sized and weighted to facilitate installation with a small amount of manpower. The array may further be adapted to be adjusted during or after installation to accommodate the necessary power requirements. The terrestrial solar tracking photovoltaic array may include a torque tube that may be constructed of discrete sections. A drive may be connected to the torque tube to rotate the torque tube. A number of solar cell modules may be connected to the torque tube. The modules may be positioned at offsetting angular orientations depending upon their distance away from the drive. This offset positioning compensates for twisting distortion of the torque tube caused by the drive rotating the torque tube. At one point of rotation, each of the solar cell modules may be substantially aligned in a common plane. | 04-29-2010 |
20100102200 | Terrestrial Solar Tracking Photovoltaic Array - A terrestrial solar tracking photovoltaic array that may include an elongated frame configured to mount solar cell modules in a longitudinally-extending and spaced-apart arrangement. The frame is able to rotate each of the solar cell modules along a first axis to simultaneously track the elevation of the sun during the course of a day. The frame is also able to rotate each solar cell array module along second axes that are substantially perpendicular to the first axis to track the azimuthal position of the sun during the course of the day. | 04-29-2010 |
20100300359 | MULTI-GAS DISTRIBUTION INJECTOR FOR CHEMICAL VAPOR DEPOSITION REACTORS - A gas distribution injector for chemical vapor deposition reactors has precursor gas inlets disposed at spaced-apart locations on an inner surface facing downstream toward a substrate carrier, and has carrier openings disposed between the precursor gas inlets. One or more precursor gases are introduced through the precursor gas inlets, and a carrier gas substantially nonreactive with the precursor gases is introduced through the carrier gas openings. The carrier gas minimizes deposit formation on the injector. The carrier gas openings may be provided by a porous plate defining the surface or via carrier inlets interspersed between precursor inlets. The gas inlets may removable or coaxial. | 12-02-2010 |
20110155217 | Concentrated Photovoltaic System Modules Using III-V Semiconductor Solar Cells - A solar cell receiver for use in a concentrating solar system which concentrates the solar energy onto a solar cell for converting solar energy to electricity. The solar cell receiver may include a solar cell mounted on a support and with one or more III-V compound semiconductor layers. An optical element may be positioned over the solar cell and have an optical channel with an inlet that faces away from the solar cell and an outlet that faces towards the solar cell. A frame may be positioned over the support and extend around the solar cell with the frame having an inner side that extends above the support and faces towards the optical element. An encapsulant may be positioned over the support and contained between the optical element and the frame. The encapsulant may have enlarged heights at contact points with the optical element and the frame and a reduced height between the contact points away from the optical element and the frame. The solar cell receiver may be used in a solar cell module. | 06-30-2011 |
20110263067 | Methods of Forming a Concentrating Photovoltaic Module - Solar cell modules for converting solar energy into electrical energy. The modules includes a housing formed from three separate members that are attached together to form an interior space. A top member extends across an open side of the housing and includes one or more lenses. One or more solar cell receivers are positioned within the interior space of the house and are aligned with one or more of the lenses to receive and convert the solar energy into electrical energy. | 10-27-2011 |
20110289750 | Methods and Devices for Assembling a Terrestrial Solar Tracking Photovoltaic Array - Methods and devices for assembling a terrestrial solar tracking photovoltaic array. The methods may include securing a torque tube to an alignment fixture by positioning a flange at an end of the torque tube over a shelf on the alignment fixture and positioning a section of the torque tube inward from the flange into a receptacle on the shelf of the alignment fixture. The method may include aligning and mounting a mount to the torque tube at a point along the torque tube inward from the end of the torque tube. The method may include aligning and mounting a solar cell module to the mount with the solar cell module including an array of lenses positioned over a set of corresponding receivers that include one or more III-V compound semiconductor solar cells. The method may include removing the torque tube from the alignment fixture after the solar cell module is mounted to the mount. The method may include aligning and mounting the torque tube to an end of a longitudinal support with the torque tube being coaxial with the longitudinal support and the solar cell module being able to rotate with the torque tube about a first axis that extends through the torque tube and the longitudinal support and a second axis perpendicular to the first axis. | 12-01-2011 |
20120160991 | TERRESTRIAL SOLAR TRACKING PHOTOVOLTAIC ARRAY WITH CHAIN DRIVE - The terrestrial solar tracking photovoltaic array includes a longitudinal support that may be constructed of discrete sections. The overall length of the array may be adjusted depending upon the necessary size of the array. A drive may be configured to rotate the longitudinal support in first and second directions about a first axis. Solar cell modules are positioned along the longitudinal support and may each include a rectangular case with a plurality of lenses that are positioned over corresponding receivers. Linkages may be connected to the solar cell modules and are axially movable along the longitudinal support to rotate the solar cell modules within second planes that each orthogonal to the first plane to further track the sun during the course of the day. The array may be configured to facilitate rotation about the first axis. The array may be constructed with a center of gravity of the array to extending through the longitudinal support. | 06-28-2012 |
20130167905 | Terrestrial Solar Tracking Photovoltaic Array with Offset Solar Cell Modules - Terrestrial solar tracking photovoltaic arrays that may include a modular design that is sized and weighted to facilitate installation with a small amount of manpower. The array may further be adapted to be adjusted during or after installation to accommodate the necessary power requirements. The terrestrial solar tracking photovoltaic array may include a torque tube that may be constructed of discrete sections. A drive may be connected to the torque tube to rotate the torque tube. A number of solar cell modules may be connected to the torque tube. The modules may be positioned at offsetting angular orientations depending upon their distance away from the drive. This offset positioning compensates for twisting distortion of the torque tube caused by the drive rotating the torque tube. At one point of rotation, each of the solar cell modules may be substantially aligned in a common plane | 07-04-2013 |
20150013608 | CERAMIC HEATER - An electrically conductive ceramic heating element for use in a reactor for depositing a film of material onto a semiconductor wafer, said reactor comprising a reactor chamber, a radiative heating device disposed within the reactor chamber including the heating element and operative for heating said wafer to a temperature of greater than 1100 degrees C., a wafer carrier disposed within the reactor chamber and adjacent to the radiative heating device, the wafer carrier having at least one wafer cavity for supporting a semiconductor wafer for having a film of material be deposited thereon. | 01-15-2015 |