Patent application number | Description | Published |
20110138964 | SYSTEM AND PROCESS FOR RECOVERY OF CADMIUM TELLURIDE (CdTe) FROM SYSTEM COMPONENTS USED IN THE MANUFACTURE OF PHOTOVOLTAIC (PV) MODULES - A system and associated process are provided for recovering cadmium telluride (CdTe) that has plated onto components, such as components used in the manufacture of photovoltaic (PV) modules. The system includes a vacuum oven configured for maintaining a vacuum and being heated to a temperature effective for sublimating CdTe off of components placed within the oven. A collection member is disposed so that sublimated CdTe generated in the oven diffuses to the collection member. The collection member is maintained at a temperature effective for causing the sublimated CdTe to plate thereon. The collection member is subsequently processed to collect the plated CdTe. | 06-16-2011 |
20110142746 | SYSTEM AND PROCESS FOR CADMIUM TELLURIDE (CdTe) RECLAMATION IN A VAPOR DEPOSITION CONVEYOR ASSEMBLY - A conveyor assembly for use in a vapor deposition apparatus wherein a sublimed source material is deposited as a thin film on a photovoltaic (PV) module substrate. The assembly includes a conveyor movable in an endless loop path that includes an upper leg that moves in a conveyance direction to carry a substrate through a deposition area of the vapor deposition apparatus. A heat source is disposed relative to the endless loop path so as to heat the conveyor at a location generally after the point where substrates leave the conveyor. The heat source heats the conveyor to a temperature effective for sublimating source material from the conveyor. A cold trap is disposed relative to the endless loop path downstream of the heat source in a direction of movement of the conveyor and is maintained at a temperature effective for causing sublimated source material generated from heating the conveyor to plate out onto a collection member configured with the cold trap. An associated process for reclamation of source material from conveyor components is also provided. | 06-16-2011 |
20110143478 | MODULAR SYSTEM AND PROCESS FOR CONTINUOUS DEPOSITION OF A THIN FILM LAYER ON A SUBSTRATE - A process and associated system for vapor deposition of a thin film layer on a photovoltaic (PV) module substrate is includes establishing a vacuum chamber and introducing the substrates individually into the vacuum chamber. The substrates are pre-heated as they are conveyed through the vacuum chamber, and are then conveyed in serial arrangement through a vapor deposition apparatus in the vacuum chamber wherein a thin film of a sublimed source material is deposited onto an upper surface of the substrates. The substrates are conveyed through the vapor deposition apparatus at a controlled constant linear speed such that leading and trailing sections of the substrate in a conveyance direction are exposed to the same vapor deposition conditions within the vapor deposition apparatus. The vapor deposition apparatus may be supplied with source material in a manner so as not to interrupt the vapor deposition process or non-stop conveyance of the substrates through the vapor deposition apparatus. | 06-16-2011 |
20110143479 | VAPOR DEPOSITION APPARATUS AND PROCESS FOR CONTINUOUS DEPOSITION OF A THIN FILM LAYER ON A SUBSTRATE - An apparatus and related process are provided for vapor deposition of a sublimated source material as a thin film on a photovoltaic (PV) module substrate. A receptacle is disposed within a vacuum head chamber and is configured for receipt of a source material. A heated distribution manifold is disposed below the receptacle and includes a plurality of passages defined therethrough. The receptacle is indirectly heated by the distribution manifold to a degree sufficient to sublimate source material within the receptacle. A molybdenum distribution plate is disposed below the distribution manifold and at a defined distance above a horizontal plane of a substrate conveyed through the apparatus. The molybdenum distribution plate includes a pattern of holes therethrough that further distribute the sublimated source material passing through the distribution manifold onto the upper surface of the underlying substrate. The molybdenum distribution plate includes greater than about 75% by weight molybdenum. | 06-16-2011 |
20110143481 | MODULAR SYSTEM AND PROCESS FOR CONTINUOUS DEPOSITION OF A THIN FILM LAYER ON A SUBSTRATE - A system and associated process for vapor deposition of a thin film layer on a photovoltaic (PV) module substrate is includes establishing a vacuum chamber and introducing the substrates individually into the vacuum chamber. A conveyor system is operably disposed within the vacuum chamber and is configured for conveying the substrates in a serial arrangement through a vapor deposition apparatus within the vacuum chamber at a controlled constant linear speed. A post-heat section is disposed within the vacuum chamber immediately downstream of the vapor deposition apparatus in the conveyance direction of the substrates. The post-heat section is configured to maintain the substrates conveyed from the vapor deposition apparatus in a desired heated temperature profile until the entire substrate has exited the vapor deposition apparatus. | 06-16-2011 |
20110155063 | Conveyor Assembly with Removable Rollers for a Vapor Deposition System - A conveyor assembly for conveying substrates through a vapor deposition system includes a first carriage rail and a second carriage rail disposed at an opposite side of the conveyor assembly. The first and second carriage rails include a plurality of roller positions spaced longitudinally therealong. The carriage rails further include a pair of wheels at each of the roller positions, with the wheels spaced apart so as to define a cradle at the respective roller position. At least one of the wheels at each roller position on is drive wheel. A plurality of rollers extend between the first and second carriage rails. The rollers have ends that drop into the cradles at the roller positions such that the rollers are removable from the carriage rails by being lifted out of the cradles at the roller positions. | 06-30-2011 |
20110165326 | AUTOMATIC FEED SYSTEM AND RELATED PROCESS FOR INTRODUCING SOURCE MATERIAL TO A THIN FILM VAPOR DEPOSITION SYSTEM - A feed system and related process are configured to continuously feed measured doses of source material to a vapor deposition apparatus wherein the source material is sublimated and deposited as a thin film on a substrate. The system includes a bulk material hopper, and an upper dose cup disposed to receive source material from the hopper. A lower dose cup is disposed in a vacuum lock chamber to receive a measured dose of source material from the upper dose cup. A transfer mechanism is disposed below the vacuum lock chamber to receive the measured dose of source material from the lower dose cup and to transfer the source material to a downstream deposition head while isolating the deposition conditions and sublimated source material within the deposition head. | 07-07-2011 |
20120027921 | VAPOR DEPOSITION APPARATUS AND PROCESS FOR CONTINUOUS DEPOSITION OF A THIN FILM LAYER ON A SUBSTRATE - An apparatus and process for vapor deposition of a sublimated source material as a thin film on a photovoltaic module substrate are provided. The apparatus includes at least one receptacle disposed in a deposition head. Each receptacle is configured for receipt of a granular source material. A heating system is configured to heat the receptacle(s) to sublimate the source material. A substantially vertical distribution plate is disposed between the receptacle(s) and a substrate conveyed through the apparatus. The distribution plate is positioned at a defined distance from a vertical conveyance plane of a deposition surface of the substrate. The distribution plate comprises a pattern of passages therethrough that distribute the sublimated source material for deposition onto the deposition surface of the substrate. | 02-02-2012 |
20120045374 | SYSTEM FOR RECOVERY OF CADMIUM TELLURIDE (CdTe) FROM SYSTEM COMPONENTS USED IN THE MANUFACTURE OF PHOTOVOLTAIC (PV) MODULES - A system and associated process are provided for recovering cadmium telluride (CdTe) that has plated onto components, such as components used in the manufacture of photovoltaic (PV) modules. The system includes a vacuum oven configured for maintaining a vacuum and being heated to a temperature effective for sublimating CdTe off of components placed within the oven. A collection member is disposed so that sublimated CdTe generated in the oven diffuses to the collection member. The collection member is maintained at a temperature effective for causing the sublimated CdTe to plate thereon. The collection member is subsequently processed to collect the plated CdTe. | 02-23-2012 |
20120060758 | DYNAMIC SYSTEM FOR VARIABLE HEATING OR COOLING OF LINEARLY CONVEYED SUBSTRATES - A system is provided for heating or cooling discrete, linearly conveyed substrates having a gap between a trailing edge of a first substrate and a leading edge of a following substrate in a conveyance direction. The system includes a chamber, and a conveyor operably configured within the chamber to move the substrates through at a conveyance rate. A plurality of individually controlled temperature control units, for example heating or cooling units, are disposed linearly within the chamber along the conveyance direction. A controller is in communication with each of the temperature control units to sequentially cycle output of the units from a steady-state temperature output along the conveyance direction as a function of position of the leading and trailing edges of the substrates within the chamber relative to the temperature control units so as to reduce edge-induced temperature variances in the substrates. | 03-15-2012 |
20120064658 | Entrance and Exit Roll Seal Configuration for a Vapor Deposition System - An apparatus is provided for vapor deposition of a sublimated source material as a thin film on discrete photovoltaic (PV) module substrates conveyed in a continuous non-stop manner through said apparatus. The apparatus includes a vapor deposition head configured for receipt and sublimation of a source material, and for distributing the sublimated source material onto an upper surface of substrates conveyed through a deposition area. A roll seal configuration is provided at each of an entry slot and an exit slot for the substrates conveyed through the apparatus. The roll seal configuration further includes a cylinder rotatably supported at a defined gap height above a conveyance plane of the substrates such that the cylinder is not in continuous rolling contact with the substrates within the window of finished active semiconductor material. The cylinder is floatable in a vertical direction relative to the conveyance plane of the substrates such that the cylinder rolls up and over surface variations in the substrates that exceed the gap height as the substrates are conveyed under the cylinder. | 03-15-2012 |
20120164776 | Non-Wear Shutter Apparatus for a Vapor Deposition Apparatus - An apparatus and associated method for vapor deposition of a sublimated source material as a thin film on a photovoltaic (PV) module substrate includes a deposition head wherein a source material is sublimated. A distribution manifold is provided with a plurality of passages defined therethrough for passage of the sublimated source material to the substrate. A shutter plate is disposed above the distribution manifold and includes a plurality of passages therethrough that align with the passages in the distribution manifold in a first position of the shutter plate. The shutter plate is movable to a second position wherein the shutter plate blocks the passages in the distribution manifold to flow of sublimated material therethrough. A lifting mechanism is configured between the shutter plate and the distribution manifold to lift and move the shutter plate between the first and second positions without sliding the shutter plate on the distribution manifold. | 06-28-2012 |
20130000555 | MODULAR SYSTEM AND PROCESS FOR CONTINUOUS DEPOSITION OF A THIN FILM LAYER ON A SUBSTRATE - A system for vapor deposition of a thin film layer on a photovoltaic module substrate is provided. The system includes a vacuum chamber having a pre-heat section, a vapor deposition apparatus, and a cool-down section; and a conveyor system operably disposed within said vacuum chamber and configured for conveying the substrates in a serial arrangement from said pre-heat section and through said vapor deposition apparatus at a controlled constant linear speed. The vapor deposition apparatus is configured for depositing a thin film of a sublimed source material onto an upper surface of the substrates as the substrates are continuously conveyed by said conveyor system through said vapor deposition apparatus. | 01-03-2013 |
20130115372 | HIGH EMISSIVITY DISTRIBUTION PLATE IN VAPOR DEPOSITION APPARATUS AND PROCESSES - Apparatus and processes for vapor deposition of a sublimated source material as a thin film on a substrate are provided. The apparatus can include a deposition head; a receptacle disposed in the deposition head and configured for receipt of a source material; a heated distribution manifold disposed below the receptacle and configured to heat the receptacle to a degree sufficient to sublimate the source material within the receptacle; and, a deposition plate disposed below the distribution manifold and at a defined distance above a horizontal conveyance plane of an upper surface of a substrate conveyed through the apparatus. The distribution plate can define a pattern of passages therethrough that further distribute the sublimated source material passing through the distribution manifold. The distribution plate can have an emissivity in a range of about 0.7 to a theoretical maximum of 1.0 at a plate temperature during deposition. | 05-09-2013 |
20130249580 | APPARATUS AND METHOD FOR EVALUATING CHARACTERISTICS OF A PHOTOVOLTAIC DEVICE - An apparatus is provided for evaluating characteristics of a photovoltaic device with an exposed back contact layer having a plurality of electrically discrete areas arranged in a grid. The apparatus may include, for example, a light source for illuminating the photovoltaic device and a probe head assembly having a plurality of probes arranged in a grid corresponding to the grid on the photovoltaic device so that a given pair of the probes corresponds to a respective one of the electrically discrete areas within the grid. The probes and photovoltaic device may be positionable so that the probes contact the back contact layer. Related methods for evaluating characteristics are also provided. | 09-26-2013 |
20130284094 | Modular System for Continuous Deposition of a Thin Film Layer on a Substrate - A system and associated process for vapor deposition of a thin film layer on a photovoltaic (PV) module substrate is includes establishing a vacuum chamber and introducing the substrates individually into the vacuum chamber. A conveyor system is operably disposed within the vacuum chamber and is configured for conveying the substrates in a serial arrangement through a vapor deposition apparatus within the vacuum chamber at a controlled constant linear speed. A post-heat section is disposed within the vacuum chamber immediately downstream of the vapor deposition apparatus in the conveyance direction of the substrates. The post-heat section is configured to maintain the substrates conveyed from the vapor deposition apparatus in a desired heated temperature profile until the entire substrate has exited the vapor deposition apparatus. | 10-31-2013 |
20140110225 | CONVEYOR ASSEMBLY WITH GEARED, REMOVABLE ROLLERS FOR A VAPOR DEPOSITION SYSTEM - A conveyor assembly for conveying substrates through a vapor deposition system is disclosed. The conveyor assembly may generally include a first carriage rail disposed on a drive side of the conveyor assembly and a second carriage rail disposed on an opposite side of the conveyor assembly. Each of the carriage rails may define a plurality of roller positions, with a plurality of the roller positions on the first carriage rail being configured as drive positions. The conveyor assembly may also include a drive pulley positioned at each drive position. Each drive pulley may be configured to rotationally drive a drive device. In addition, the conveyor assembly may include a plurality of rollers extending between the carriage rails at the roller positions. The rollers disposed at the drive positions may be configured to engage the drive devices. | 04-24-2014 |