Patent application number | Description | Published |
20080268896 | Data storage device and data storage device tracing system - A data storage device tracing system includes at least one container configured to maintain at least one electronic data storage device, a two-way radio coupled to each of the container(s), and a network including a network coordinator configured to transmit to and receive data from the two-way radio. In this regard, the two-way radio communicates real-time container location data to the network coordinator to enable real-time tracing of the container(s) and the electronic data storage device(s). | 10-30-2008 |
20090073604 | Distributed servo patterns for data storage media - The invention is directed to a data storage medium that includes a plurality of servo bands distributed across the data storage medium and a plurality of data tracks positioned between each of the plurality of distributed servo bands. The data storage medium comprises a servo band pitch of less than 200 micrometers. The large number of servo bands distributed across the data storage medium with a relatively small servo band pitch reduces the influence of media dimensional instability. In this way, the invention may substantially increase data read head positioning accuracy, especially in the case of narrow track widths. A read head array arranged in a two-dimensional matrix that includes a first servo read head, a second servo read head, and a plurality of data read heads positioned between the first and second servo read heads may be applied to a data storage medium as described herein. | 03-19-2009 |
20100037001 | Flash memory based storage devices utilizing magnetoresistive random access memory (MRAM) - A flash memory based storage device may utilize magnetoresistive random access memory (MRAM) as at least one of a device memory, a buffer, or high write volume storage. In some embodiments, a processor of the storage device may compare a logical block address of a data file to a plurality of logical block addresses stored in a write frequency file buffer table and causes the data file to be written to the high write volume MRAM when the logical block address of the data file matches at least one of the plurality of logical block addresses stored in the write frequency file buffer table. In other embodiments, upon cessation of power to the storage device, the MRAM buffer stores the data until power is restored, after which the processor causes the buffered data to be written to the flash memory under control of the flash memory controller. | 02-11-2010 |
20120144102 | FLASH MEMORY BASED STORAGE DEVICES UTILIZING MAGNETORESISTIVE RANDOM ACCESS MEMORY (MRAM) - A flash memory based storage device may utilize magnetoresistive random access memory (MRAM) as at least one of a device memory, a buffer, or high write volume storage. In some embodiments, a processor of the storage device may compare a logical block address of a data file to a plurality of logical block addresses stored in a write frequency file buffer table and causes the data file to be written to the high write volume MRAM when the logical block address of the data file matches at least one of the plurality of logical block addresses stored in the write frequency file buffer table. In other embodiments, upon cessation of power to the storage device, the MRAM buffer stores the data until power is restored, after which the processor causes the buffered data to be written to the flash memory under control of the flash memory controller. | 06-07-2012 |
20130117488 | REMOVABLE MEMORY CARTRIDGE AND DOCKING STATION COMPATIBLE WITH MEDIA DRIVE EXPANSION SLOTS - A system for data storage including a removable memory element having a data storage device, and a docking station in communication with a host device and configured for receiving the removable memory cartridge so as to put the host system in communication with the data storage device. | 05-09-2013 |
Patent application number | Description | Published |
20080270404 | Using Network Traffic Logs for Search Enhancement - A method and apparatus for using network traffic logs for search enhancement is disclosed. According to one embodiment, network usage is tracked by generating log files. These log files among other things indicate the frequency web pages are referenced and modified. These log files or information from these log files can then be used to improve document ranking, improve web crawling, determine tiers in a multi-tiered index, determine where to insert a document in a multi-tiered index, determine link weights, and update a search engine index. | 10-30-2008 |
20080270484 | Using Network Traffic Logs for Search Enhancement - A method and apparatus for using network traffic logs for search enhancement is disclosed. According to one embodiment, network usage is tracked by generating log files. These log files among other things indicate the frequency web pages are referenced and modified. These log files or information from these log files can then be used to improve document ranking, improve web crawling, determine tiers in a multi-tiered index, determine where to insert a document in a multi-tiered index, determine link weights, and update a search engine index. | 10-30-2008 |
20110202522 | AUTOMATED USER BEHAVIOR FEEDBACK SYSTEM FOR WHOLE PAGE SEARCH SUCCESS OPTIMIZATION - Various users' navigational behaviors relative to search results presented by a search engine are monitored. URLs that are visited and revised queries that are submitted after the submission of an original query are placed within a trail that begins with the original query. These trails are grouped based on the original queries with which they begin. For each trail group, a set of URLs that frequently occur in that group's trails, and a set of revised queries that frequently occur in that group's trails, are determined. These frequently occurring elements are mapped to the original queries with which all the trails in the corresponding trail group begin. In response to subsequent submissions of the same original query, the search engine ensures that URLs and revised queries that are mapped to the original query are prominently displayed on the search results pages that are initially returned in response to those submissions. | 08-18-2011 |
20120254144 | USING NETWORK TRAFFIC LOGS FOR SEARCH ENGINE INDEX UPDATES - A method and apparatus for using network traffic logs for search enhancement is disclosed. According to one embodiment, network usage is tracked by generating log files. These log files among other things indicate the frequency web pages are referenced and modified. These log files or information from these log files can then be used to improve document ranking, improve web crawling, determine tiers in a multi-tiered index, determine where to insert a document in a multi-tiered index, determine link weights, and update a search engine index. | 10-04-2012 |
Patent application number | Description | Published |
20120040233 | BARRIER FOR THIN FILM LITHIUM BATTERIES MADE ON FLEXIBLE SUBSTRATES AND RELATED METHODS - A thin film solid state battery configured with barrier regions formed on a flexible substrate member and method. The method includes forming a bottom thin film barrier material overlying and directly contacting a surface region of a substrate. A first current collector region can be formed overlying the bottom barrier material and forming a first cathode material overlying the first current collector region. A first electrolyte can be formed overlying the first cathode material, and a second current collector region can be formed overlying the first anode material. The method also includes forming an intermediary thin film barrier material overlying the second current collector region and forming a top thin film barrier material overlying the second electrochemical cell. The solid state battery can comprise the elements described in the method of fabrication. | 02-16-2012 |
20120055633 | HIGH THROUGHPUT PHYSICAL VAPOR DEPOSITION APPARATUS AND METHOD FOR MANUFACTURE OF SOLID STATE BATTERIES - An apparatus for formation of element(s) of an electrochemical cell using a complete process. The apparatus includes a first work piece configured to a transfer device, a source of material in fluid form, a reaction region operably coupled to the source of material and a second work piece configured within a vicinity of the reaction region. The apparatus also has an energy source configured to the reaction region to subject a portion of the material to energy to substantially evaporate the portion of the material within a time period and cause deposition of a gaseous species derived from the evaporated material onto a surface region of the second work piece to form a thickness of material for a component of the solid state electrochemical device and a vacuum chamber to maintain at least the first and second work pieces, the reaction region, and the material within a vacuum environment. | 03-08-2012 |
20120058280 | THERMAL EVAPORATION PROCESS FOR MANUFACTURE OF SOLID STATE BATTERY DEVICES - A method for manufacturing a solid-state battery device. The method can include providing a substrate within a process region of an apparatus. A cathode source and an anode source can be subjected to one or more energy sources to transfer thermal energy into a portion of the source materials to evaporate into a vapor phase. An ionic species from an ion source can be introduced and a thickness of solid-state battery materials can be formed overlying the surface region by interacting the gaseous species derived from the plurality of electrons and the ionic species. During formation of the thickness of the solid-state battery materials, the surface region can be maintained in a vacuum environment from about 10-6 to 10-4 Torr. Active materials comprising cathode, electrolyte, and anode with non-reactive species can be deposited for the formation of modified modulus layers, such a void or voided porous like materials. | 03-08-2012 |
20120058380 | MONOLITHICALLY INTEGRATED THIN-FILM SOLID STATE LITHIUM BATTERY DEVICE HAVING MULTIPLE LAYERS OF LITHIUM ELECTROCHEMICAL CELLS - A monolithically integrated thin-film solid-state lithium battery device to supply energy to a mobile communication device. The battery device comprises multiple layers ranging from greater than 100 layers to less than 20,000 layers of lithium electrochemical cells. The lithium electrochemical cells are connected in parallel or in series to conform to a spatial volume. The device is substantially free from a substrate member. The overlying multiple layers are free from any intermediary substrate member. The multiple layers are configured to form a plurality of electrochemical cells configured in a parallel arrangement or a serial arrangement using either a self terminated or post terminated connector configuration. | 03-08-2012 |
20120130522 | METHODOLOGY FOR DESIGN OF A MANUFACTURING FACILITY FOR FABRICATION OF SOLID STATE HYBRID THIN FILM ENERGY STORAGE AND CONVERSION DEVICES - A method and system for designing a manufacturing facility for solid state thin film battery devices. The method can include providing a plurality of processing tools for arrangement within a predetermined spatial region of one or more manufacturing facilities. A plurality of variables can be assigned for the plurality of processing tools. A target financial variable can be defined to evaluate different manufacturing processing tool configurations. The plurality of variables in the tensor relationship can be processed to reduce a magnitude of the target variable. An optimized set of the plurality of processing tools and respective configuration with the plurality of tools associated with the reduced magnitude of the target variable can be determined through processing. The optimized set of the plurality of processing tools in the respective configuration can be used in the one or more manufacturing facilities for the manufacture of a solid state thin film battery device. | 05-24-2012 |
20120135292 | CONFORMAL SOLID STATE PACKAGE METHOD AND DEVICE FOR A BATTERY DEVICE - A monolithically integrated thin-film solid-state lithium battery device to supply energy to a mobile communication device. The device includes a plurality of layers ranging from greater than 100 layers to less than 20,000 layers of lithium electrochemical cells, which may be connected in parallel or in series to conform to a spatial volume. The device also includes a polymer based coating characterized by a thickness to house the plurality of layers and configured as an exterior region for the battery device, the polymer based coating having a resistivity of 10 | 05-31-2012 |
20130220546 | HIGH THROUGHPUT PHYSICAL VAPOR DEPOSITION APPARATUS AND METHOD FOR MANUFACTURE OF SOLID STATE BATTERIES - An apparatus for formation of element(s) of an electrochemical cell using a complete process. The apparatus includes a first work piece configured to a transfer device, a source of material in fluid form, a reaction region operably coupled to the source of material and a second work piece configured within a distance of the reaction region. The apparatus also has an energy source configured to the reaction region to subject a portion of the material to energy to substantially evaporate the portion of the material within a time period and cause deposition of a gaseous species derived from the evaporated material onto a surface region of the second work piece to form a thickness of material for a component of the solid state electrochemical device and a vacuum chamber to maintain at least the first and second work pieces, the reaction region, and the material within a vacuum environment. | 08-29-2013 |
20150072215 | BARRIER FOR THIN FILM LITHIUM BATTERIES MADE ON FLEXIBLE SUBSTRATES AND RELATED METHODS - A thin film solid state battery configured with barrier regions formed on a flexible substrate member and method. The method includes forming a bottom thin film barrier material overlying and directly contacting a surface region of a substrate. A first current collector region can be formed overlying the bottom barrier material and forming a first cathode material overlying the first current collector region. A first electrolyte can be formed overlying the first cathode material, and a second current collector region can be formed overlying the first anode material. The method also includes forming an intermediary thin film barrier material overlying the second current collector region and forming a top thin film barrier material overlying the second electrochemical cell. The solid state battery can comprise the elements described in the method of fabrication. | 03-12-2015 |
20150100146 | METHODOLOGY FOR DESIGN OF A MANUFACTURING FACILITY FOR FABRICATION OF SOLID STATE HYBRID THIN FILM ENERGY STORAGE AND CONVERSION DEVICES - A method and system for designing a manufacturing facility for solid state thin film battery devices. The method can include providing a plurality of processing tools for arrangement within a predetermined spatial region of one or more manufacturing facilities. A plurality of variables can be assigned for the plurality of processing tools. A target financial variable can be defined to evaluate different manufacturing processing tool configurations. The plurality of variables in the tensor relationship can be processed to reduce a magnitude of the target variable. An optimized set of the plurality of processing tools and respective configuration with the plurality of tools associated with the reduced magnitude of the target variable can be determined through processing. The optimized set of the plurality of processing tools in the respective configuration can be used in the one or more manufacturing facilities for the manufacture of a solid state thin film battery device. | 04-09-2015 |
20150349324 | THERMAL EVAPORATION PROCESS FOR MANUFACTURE OF SOLID STATE BATTERY DEVICES - A method for manufacturing a solid-state battery device. The method can include providing a substrate within a process region of an apparatus. A cathode source and an anode source can be subjected to one or more energy sources to transfer thermal energy into a portion of the source materials to evaporate into a vapor phase. An ionic species from an ion source can be introduced and a thickness of solid-state battery materials can be formed overlying the surface region by interacting the gaseous species derived from the plurality of electrons and the ionic species. During formation of the thickness of the solid-state battery materials, the surface region can be maintained in a vacuum environment from about 10−6 to 10−4 Torr. Active materials comprising cathode, electrolyte, and anode with non-reactive species can be deposited for the formation of modified modulus layers, such a void or voided porous like materials. | 12-03-2015 |
Patent application number | Description | Published |
20110226336 | CHALCOGENIDE-BASED MATERIALS AND IMPROVED METHODS OF MAKING SUCH MATERIALS - The present invention provides strategies for making high quality CIGS photoabsorbing materials from precursor films that incorporate a sub-stoichiometric amount of chalcogen(s). Chalcogen(s) are incorporated into the CIGS precursor film via co-sputtering with one or more other constituents of the precursor. Optional annealing also may be practiced to convert precursor into more desirable chalcopyrite crystalline form in event all or a portion of the precursor has another constitution. The resultant precursors generally are sub-stoichiometric with respect to chalcogen and have very poor electronic characteristics. The conversion of these precursors into CMS photoabsorbing material via chalcogenizing treatment occurs with dramatically reduced interfacial void content. The resultant CIGS material displays excellent adhesion to other layers in the resultant photovoltaic devices. Ga migration also is dramatically reduced, and the resultant films have optimized Ga profiles in the top or bottom portion of the film that improve the quality of photovoltaic devices made using the films. | 09-22-2011 |
20110284134 | CHALCOGENIDE-BASED MATERIALS AND METHODS OF MAKING SUCH MATERIALS UNDER VACUUM USING POST-CHALCOGENIZATION TECHNIQUES - The present invention provides strategies for making high quality CIGS photoabsorbing compositions from sputtered precursor film(s). The precursors are converted into CIGS photoabsorbing material via a chalcogenizing treatment (also referred to as “post-chalcogenization,” including, e.g., “post-selenization” when Se is used and/or “post-sulfurization” when S is used) using techniques that allow the post-chalcogenizing treatment to occur under atypically low pressure conditions. Consequently, the strategies of the invention are readily incorporated into batch processes or continuous processes such as roll-to-roll process occurring under vacuum. The present invention is useful at lab, pilot plant, and industrial scales. | 11-24-2011 |
20150179860 | CHALCOGENIDE-BASED MATERIALS AND IMPROVED METHODS OF MAKING SUCH MATERIALS - The present invention provides strategies for making high quality CIGS photoabsorbing materials from precursor films that incorporate a sub-stoichiometric amount of chalcogen(s). Chalcogen(s) are incorporated into the CIGS precursor film via co-sputtering with one or more other constituents of the precursor. Optional annealing also may be practiced to convert precursor into more desirable chalcopyrite crystalline form in event all or a portion of the precursor has another constitution. The resultant precursors generally are sub-stoichiometric with respect to chalcogen and have very poor electronic characteristics. The conversion of these precursors into CIGS photoabsorbing material via chalcogenizing treatment occurs with dramatically reduced interfacial void content. The resultant CIGS material displays excellent adhesion to other layers in the resultant photovoltaic devices. Ga migration also is dramatically reduced, and the resultant films have optimized Ga profiles in the top or bottom portion of the film that improve the quality of photovoltaic devices made using the films. | 06-25-2015 |