Patent application number | Description | Published |
20080226178 | Method and system for image evaluation data analysis - A method is provided for operating a computer to analyze image evaluation data from electronic survey respondents to evaluate preferences related to two dimensional and three dimensional images. Data files, which include designated area data, image attributes, and survey respondent opinions for one or more images in an electronic survey, are received. A graphical user interface permits an operator to reformat the designated area data and set analysis parameters. Cluster analysis is performed on the data files to reduce the dimensionality of the designated area data and to classify areas of the survey images that generate positive and negative responses. The analysis produces coordinate data to map cluster classifications and for construction of a heat map. In association with descriptive statistical analysis, cluster score evaluation is performed to identify the clusters of interest. Respondent comments and results from the statistical analysis are linked to clusters of interest. | 09-18-2008 |
20080228555 | Graphical user interface for presenting image evaluation information - A method is disclosed for operating a computer to transform and present data gathered from respondents to electronic surveys and to evaluate preferences related to digital two dimensional and three dimensional images. The method includes receiving computational results for an electronic survey in the form of data files, which include one or more cluster scores for clusters identified in an image presented in the electronic survey. The computational results are transformed for presentation on a graphical user interface. The method provides a summary of the computational results for all images viewed in the survey and detailed survey results for selected images from the survey. The method further provides formatting options for presentation of the computational results, with the formatting options including mode selection, cluster selection, and data display adjustment. The final formatted computational results are presented on the graphical user interface for review by an operator. | 09-18-2008 |
20080229221 | Graphical user interface for gathering image evaluation information - A method is disclosed for operating a computer to gather input from respondents to electronic surveys and to evaluate preferences related to digital two dimensional and three dimensional images. The method includes providing a drawing tool for enabling survey respondent(s) to designate areas of interest on digital two dimensional and three dimensional images within an electronic survey. A graphical user interface enables the survey respondent(s) to utilize the drawing tool to create data files, which may include designated area data, attributes, and survey respondent opinions for designated area(s) of interest within an image. The data files are saved in a machine-readable file for analysis. | 09-18-2008 |
Patent application number | Description | Published |
20100133093 | Method for alkali doping of thin film photovoltaic materials - A method of manufacturing a solar cell includes providing a substrate, depositing a first electrode comprising an alkali-containing transition metal layer over the substrate, depositing at least one p-type semiconductor absorber layer over the first electrode, wherein the p-type semiconductor absorber layer includes a copper indium selenide (CIS) based alloy material, depositing an n-type semiconductor layer over the p-type semiconductor absorber layer, and depositing a second electrode over the n-type semiconductor layer. The step of depositing the alkali-containing transition metal layer includes sputtering from a first target comprising the transition metal and a second target comprising the alkali metal, where a composition of the first target is different from a composition of the second target. | 06-03-2010 |
20100258173 | POLISHING A THIN METALLIC SUBSTRATE FOR A SOLAR CELL - A method for fabricating a solar cell. The method includes providing a thin metallic substrate in roll form. The method also includes applying an abrasive grit to a surface of the thin metallic substrate. The method includes mechanical-polishing the surface with the abrasive grit such that the surface is polished to remove at least one defect from the surface. Mechanical-polishing the surface of the thin metallic substrate is by a roll-to-roll polishing process of the surface of the thin metallic substrate. Moreover, the method includes depositing an absorber layer of the solar cell on the thin metallic substrate. | 10-14-2010 |
20100307915 | Barrier for doped molybdenum targets - A sputtering target, including a sputtering layer and a support structure. The sputtering layer includes an alkali-containing transition metal. The support structure includes a second material that does not negatively impact the performance of a copper indium selenide (CIS) based semiconductor absorber layer of a solar cell. The sputtering layer directly contacts the second material. | 12-09-2010 |
20100310783 | Barrier for doped molybdenum targets - A sputtering target, including a sputtering layer and a support structure. The sputtering layer includes an alkali-containing transition metal. The support structure includes a second material that does not negatively impact the performance of a copper indium selenide (CIS) based semiconductor absorber layer of a solar cell. The sputtering layer directly contacts the second material. | 12-09-2010 |
20110024285 | Method for alkali doping of thin film photovoltaic materials - An alkali-containing transition metal sputtering target, the method of making the same, and the method of manufacturing a solar cell using the same. | 02-03-2011 |
20110089030 | CIG sputtering target and methods of making and using thereof - A sputtering target includes a copper indium gallium sputtering target material on a backing structure. The sputtering target material has a density of at least 100% or more as defined by the rule of mixtures applied to densities of component elements of the sputtering target material. The sputtering target material has an overall uniform composition. | 04-21-2011 |
20110162696 | Photovoltaic materials with controllable zinc and sodium content and method of making thereof - A solar cell includes a substrate, a first electrode located over the substrate, a sodium doped p-type copper indium selenide (CIS) based alloy semiconductor absorber layer located over the first electrode, a zinc and sodium doped n-type copper indium selenide (CIS) based alloy semiconductor layer located on the p-type semiconductor absorber layer, and a second electrode located over the n-type semiconductor layer. | 07-07-2011 |
20110171395 | METHOD OF FORMING A SPUTTERING TARGET - A sputtering target, including a sputtering layer and a support structure. The sputtering layer includes an alkali-containing transition metal. The support structure includes a second material that does not negatively impact the performance of a copper indium selenide (CIS) based semiconductor absorber layer of a solar cell. The sputtering layer directly contacts the second material. | 07-14-2011 |
20120094429 | Sodium Salt Containing CIG Targets, Methods of Making and Methods of Use Thereof - A sputtering target includes at least one metal selected from copper, indium and gallium and a sodium containing compound. | 04-19-2012 |
20140209704 | Method of Making a CIG Target by Cold Spraying - A method of making a sputtering target includes providing a backing structure, and forming a copper indium gallium sputtering target material on the backing structure by cold spraying. The step of cold spraying includes spraying a powder comprising copper, indium and gallium in a process gas stream, and at least one of an average particle size of the powder is at least 35 μm, a velocity of the process gas stream is at least 150 m/s, or a process gas pressure is 20 bar or less. | 07-31-2014 |
Patent application number | Description | Published |
20130068754 | VARIABLE WATT DENSITY LAYERED HEATER - A layered heater is provided that includes at least one resistive layer having a resistive circuit pattern, the resistive circuit pattern defining a length, a width, and a thickness, wherein the thickness varies along the length of the resistive circuit pattern and/or the width of the resistive circuit pattern for a variable watt density. The present disclosure also provides layered heaters having a resistive circuit pattern with a variable thickness along with a variable width and/or spacing of the resistive circuit pattern in order to produce a variable watt density. | 03-21-2013 |
20130313246 | VARIABLE PITCH RESISTANCE COIL HEATER - A heater is provided that includes a resistance coil assembly defining a first end portion having a first conducting pin and a second end portion having a second conducting pin, and a resistance coil disposed between the first end portion and the second end portion, the resistance coil defining a plurality of different pitches between the first end portion and the second end portion. An insulating material surrounds the resistance coil assembly, and a sheath surrounds the insulating material. The plurality of different pitches provide a variable watt density such that a predetermined temperature profile is provided along the sheath. | 11-28-2013 |
20150289320 | VARIABLE PITCH RESISTANCE COIL HEATER - A heater is provided that includes a resistance coil assembly defining a first end portion having a first conducting pin and a second end portion having a second conducting pin, and a resistance coil disposed between the first end portion and the second end portion, and a first zone adjacent the first end portion with a constant pitch. The resistance coil further defines a continuously variable pitch extending along a length of the resistance coil from the first zone to the second end portion. The continuously variable pitch provides a variable watt density such that a predetermined temperature profile is provided along the sheath. | 10-08-2015 |