Patent application number | Description | Published |
20080217288 | METHOD OF MANUFACTURING A MAGNETIC SENSOR WITH TILTED MAGNETORESISTIVE STRUCTURES - A method of manufacturing a magnetic field sensor device in one embodiment includes applying a mask on a substrate, performing a wet etching procedure on the substrate for generating at least a first groove having tilted side walls, and depositing at least one layer of magnetoresistive material onto a section of the surface of at least a first tilted side wall of the groove. A method of manufacturing a magnetic field sensor device on a substrate having a plurality of tilted planar sections, each of the tilted planar sections having a surface normal angled with respect to a surface normal of the substrate is also provided. The method includes depositing a magnetoresistive layered structure positioned at each of the tilted planar sections of the substrate, wherein the tilted planar sections are oriented such that a direction of an applied magnetic field in at least one of an x-, y- and z-direction relative to the substrate is detectable based on field-induced resistance changes of the magnetoresistive layered structures. | 09-11-2008 |
20100050428 | Method for Manufacturing a Solar Module - A method for manufacturing a solar concentrator cell module assembly within an integrated circuit process, which solar concentrator cell module assembly includes at least one solar device and which solar device includes one printed circuit board and one Fresnel lens. A printed circuit board is assembled according to a pre-defined circuit board base design layout that allows pick and place of a single solar concentrator cell chip onto a circuit board base. Connections are provided for the solar concentrator cell chip in a serialized or a parallelized arrangement on the circuit board base, and a plurality of openings are formed in the circuit board base below a backside of the solar concentrator chip to enable attachment of cooling fingers. A solar device based on a solar device layout is assembled using the assembled circuit board base and one Fresnel lens, the solar device having a solar concentration ratio by modifying the solar device surface versus the solar cell surface and covering a full extension of the circuit board base, which circuit board base provides means for interconnecting a plurality of the solar devices to one another to form the solar concentrator cell module assembly. | 03-04-2010 |
20100070890 | Method for Providing a Manufacturing Execution System (MES) Service to Third Parties - A computer-implemented method for providing on-demand manufacturing execution systems for clients in which a response to a questionnaire from a client with information relative to identification of a business and production process, a determination of process steps, and an identification of process step requirements is evaluated by the service provider according to GUI requirements for each one of a number of individual process steps. Based on the evaluation, a GUI is defined for each of the individual process steps by the service provider and provided to the client for installation on client computing devices in a manufacturing line of the client. Data is collected for each of the individual process steps via each GUI and sent to the service provider for storage and evaluation. | 03-18-2010 |
20100132760 | BACKSIDE CONTACTING ON THIN LAYER PHOTOVOLTAIC CELLS - A method of backside contacting of thin layer photovoltaic cells having Si elements as well as thin film cells, like CIGS, is provided, including the following steps:
| 06-03-2010 |
20110100451 | Silicon solar cell manufacture - A silicon solar cell is manufactured by providing a carrier plate, and by applying a first contact pattern to the carrier plate. The first contact pattern includes a set of first laminar contacts. The silicon solar cell is further manufactured by applying a multitude of silicon slices to the first contact pattern, and by applying a second contact pattern to the multitude of silicon slices. Each first laminar contact of the set of first laminar contacts is in spatial laminar contact with maximally two silicon slices. The second contact pattern includes a set of second laminar contacts. Each second laminar contact of the set of second laminar contacts is in spatial laminar contact with maximally two silicon slices. | 05-05-2011 |
20120116699 | ANALYZING AND CONTROLLING PERFORMANCE IN A COMPOSITE BATTERY MODULE - A method for performance analysis and use management of a battery module is disclosed, wherein the battery module includes a multitude of interconnected battery cells and a battery management system with a plurality of dedicated analysis/control units (ACUs) that analyze performance of the battery module, the ACUs being assigned to individual battery cells and/or battery blocks of battery module. The method includes measuring current and voltage of one or more of an individual battery cell and a battery block; calculating a charge removal from the one or more of the individual battery cell and the battery block; calculating a loading charge of the one or more of the individual battery cell and the battery block; determining the remaining charge of the one or more of the individual battery cell and the battery block; and failure monitoring of the one or more of the individual battery cell and the battery block. | 05-10-2012 |
20140202529 | SILICON SOLAR CELL MANUFACTURE - A silicon solar cell is manufactured by providing a carrier plate, and by applying a first contact pattern to the carrier plate. The first contact pattern includes a set of first laminar contacts. The silicon solar cell is further manufactured by applying a multitude of silicon slices to the first contact pattern, and by applying a second contact pattern to the multitude of silicon slices. Each first laminar contact of the set of first laminar contacts is in spatial laminar contact with maximally two silicon slices. The second contact pattern includes a set of second laminar contacts. Each second laminar contact of the set of second laminar contacts is in spatial laminar contact with maximally two silicon slices. | 07-24-2014 |
20150074450 | HARD DISK DRIVE (HDD) EARLY FAILURE DETECTION IN STORAGE SYSTEMS BASED ON STATISTICAL ANALYSIS - In one embodiment, a system includes a processor and logic integrated with and/or executable by the processor, the logic being configured to detect a failure event indicating possible failure of a storage device, initiate a rebuild for the storage device which experienced the failure event, receive information about the storage device which experienced the failure event, and apply a set of statistical process control rules to the information to determine whether the failure event is statistically abnormal. Other systems, methods, and computer program products for providing early warning of storage device failure are also described in additional embodiments. | 03-12-2015 |