Feger
Axel Feger, Lorrach DE
Patent application number | Description | Published |
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20080231045 | Quick-Action Coupling for Pipes - A coupling has a locating part ( | 09-25-2008 |
20080246274 | Coupling - The invention relates to a coupling comprising a receiving part ( | 10-09-2008 |
20080258460 | Coupling for a Fluid Line Arrangement - The invention relates to a coupling for a fluid line arrangement, said coupling being characterised in that a plane outer side ( | 10-23-2008 |
20100019483 | COUPLING PART FOR A FLUID LINE COUPLING - A coupling part ( | 01-28-2010 |
Claudius Feger, Armonk, NY US
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20130062757 | No Flow Underfill or Wafer Level Underfill and Solder Columns - A preassembly semiconductor device comprises substrate soldering structures extending toward chip soldering structures for forming solder connections with the chip soldering structures, i.e., the chip and the substrate are in preassembly positions relative to one another. The height of the substrate soldering structures is greater than the height of the chip soldering structures. A pre-applied underfill is contiguous with the substrate and is sufficiently thick so as to extend substantially no further than the full height of the substrate soldering structures. In another embodiment the height of the chip soldering structures is greater than the height of the substrate soldering structures and the pre-applied underfill is contiguous with the semiconductor chip and sufficiently thick so as to extend substantially no further than the full height of the chip soldering structures. A process comprises manufacturing semiconductor assemblies from these devices by soldering the semiconductor chip and the substrate to one another. | 03-14-2013 |
20150147846 | NO FLOW UNDERFILL OR WAFER LEVEL UNDERFILL AND SOLDER COLUMNS - A preassembly semiconductor device comprises chip soldering structures on a semiconductor chip and substrate soldering structures on a substrate corresponding to the chip soldering structures. The substrate soldering structures extend toward the chip soldering structures for forming solder connections with the chip soldering structures. The chip and the substrate are in preassembly positions relative to one another. The height of the substrate soldering structures is greater than the height of the chip soldering structures. A pre-applied underfill is contiguous with the substrate and is sufficiently thick so as to extend substantially no further than the full height of the substrate soldering structures. In another embodiment the height of the chip soldering structures is greater than the height of the substrate soldering structures and the pre-applied underfill is contiguous with the semiconductor chip and sufficiently thick so as to extend substantially no further than the full height of the chip soldering structures. A process comprises manufacturing semiconductor assemblies from these devices by soldering the chip and the substrate to one another | 05-28-2015 |
20150147851 | NO FLOW UNDERFILL OR WAFER LEVEL UNDERFILL AND SOLDER COLUMNS - A preassembly semiconductor device comprises chip soldering structures on a semiconductor chip and substrate soldering structures on a substrate corresponding to the chip soldering structures. The substrate soldering structures extend toward the chip soldering structures for forming solder connections with the chip soldering structures. The chip and the substrate are in preassembly positions relative to one another. The height of the substrate soldering structures is greater than the height of the chip soldering structures. A pre-applied underfill is contiguous with the substrate and is sufficiently thick so as to extend substantially no further than the full height of the substrate soldering structures. In another embodiment the height of the chip soldering structures is greater than the height of the substrate soldering structures and the pre-applied underfill is contiguous with the semiconductor chip and sufficiently thick so as to extend substantially no further than the full height of the chip soldering structures. A process comprises manufacturing semiconductor assemblies from these devices by soldering the chip and the substrate to one another | 05-28-2015 |
Claudius Feger, Rio De Janeiro BR
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20160098498 | TUNABLE MINIATURIZED PHYSICAL SUBSURFACE MODEL FOR SIMULATION AND INVERSION - Conventional computational simulation and inversion of subsurface flow is expensive, which is wasteful in terms of time and energy consumption. The present invention discloses a process for implementation of mathematical techniques such as forward simulation, sensitivity analysis, and inversion to physical microstructure models for subsurface fluid simulation. This process not only offers accurate and reliable results, but also is cost effective. | 04-07-2016 |
Damien Feger, Vernon FR
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20100218710 | Device and Method of Connecting an Electric Power Line Between a Ship and a Terminal - The invention relates to a ship that is to be coupled electrically to a terminal, and also to a method and a method and a device for connecting an electrical power line ( | 09-02-2010 |
20120060515 | INSULATION, IN AN ARGON ATMOSPHERE, OF A DOUBLE-WALLED LIQUEFIED GAS TANK - A double-walled liquefied gas tank characterized in that one or more insulation spaces about the vat containing the liquid are filled with a mixture, consisting mainly of argon trapped by gravity, between the outer walls of the vat and: a) for the insulating space ( | 03-15-2012 |
20120111681 | DEVICE AND METHOD FOR SUPPLYING A MOVING BODY, IN PARTICULAR A SHIP, WITH ON-SHORE POWER - A device and a method for powering a berthed ship. The powering device includes an onboard connector, a shuttle ( | 05-10-2012 |
20130292222 | DEVICE FOR ELECTRICALLY CONNECTING PARTICULARLY A SHIP IN A PORT - Connection device ( | 11-07-2013 |
Dieter Feger, Wien AT
Patent application number | Description | Published |
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20100259816 | Illumination device - An illumination device for an object to be examined through the objective of a microscope, comprises an illumination housing to be releasably connectable to a microscope. The housing extends along an axis and has two open front sides for the path of rays of the microscope's objective. For illumination, there is at least one light source which exhibits a plurality of light exits arranged in the illumination housing; wherein the light exits are inclined with respect to the axis of the housing. A translucent plate is connected to and removable from the illumination housing in a tool-free releasable manner so as to cover one of the open front sides as well as the light exits and to serve as a support surface for the object in the cases of dark-field illumination and back lighting bright field illumination. | 10-14-2010 |
20110080638 | Microscope - A microscope includes a microscope basis for placing the microscope onto a surface, e.g. of a working table, a microscope pillar, which stands on the basis and extends substantially in upright direction, a support arm on the pillar, which projects from it and can be adjusted in height from the basis and supports an optical or opto-electrical observing system. The support arm has substantially light-tight walls, which surround at least one cavity. This cavity is located between the optical system and a region that is at least near the microscope pillar. In at least one embodiment, the at least one component is located within the cavity and includes an internal light source. There is a plug-in and holding system for the energy guide, which is either light energy and/or electrical energy. | 04-07-2011 |
20110085234 | Microscope stand - A microscope stand for holding an optical and/or opto-electronical (e.g. video) observation system is mechanically connected to a microscope base, such as a basis plate, feet or rack or the like. In at least one embodiment, the microscope stand is made in two parts, the first part being provided for holding the observation system, and the second part is substantially positively connected to the first part. This second part includes at least one, preferably shaft-like, cavity, in which at least one electric or electronic component, which is preferably either an electric illumination system for the object to be examined by way of the observation system (in this respect the illumination system forms part of the observation system) and/or of an electronic camera system. | 04-14-2011 |
Felix Feger, Muenchen CH
Patent application number | Description | Published |
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20080255815 | Automatic insertion point identification in model merging operations - Methods and systems are provided for automatic identification of an insertion point. Comparison defining the correspondence between elements of models is done. The sequence order of elements in the second model is analyzed to identify predecessor and successor elements of the element t. The comparison is used to identify a set of transferred predecessors (P | 10-16-2008 |
Felix Feger, Dusseldorf DE
Patent application number | Description | Published |
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20090187881 | DIFFERENCE LOG PRODUCTION FOR MODEL MERGING - Methods and apparatus are provided for production of a difference log in a data processing system The difference log defines differences between process models defined in system memory. For each of the process models, model structure data provided in memory defines a hierarchy of SESE regions representing the structure of that model. Also provided in memory are model comparison data defining correspondences between elements of the models, and region comparison data defining correspondences between regions of the SESE region hierarchies for the models. The model comparison and region comparison data are analyzed to identify differences between the SESE region hierarchies, and a difference log defining said differences is produced. In preferred systems, the model structure data and the region comparison data is computed for the models, and the difference log has a hierarchical structure corresponding to the structure of the process models. | 07-23-2009 |
Felix Feger, Rueschlikon CH
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20130096894 | AUTOMATIC INSERTION POINT IDENTIFICATION IN MODEL MERGING OPERATIONS - Automatic identification of an insertion point is done by comparisons defining the correspondence between elements of models. The sequence order of elements in the second model is analyzed to identify predecessor and successor elements of the element t. The comparison is used to identify a set of transferred predecessors (P | 04-18-2013 |
Georg Feger, Thoiry FR
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20080213234 | USE OF OSTEOPONTIN FOR THE TREATMENT AND/OR PREVENTION OF NEUROLOGIC DISEASES - The invention relates to the use of osteopontin, or of an agonist of osteopontin activity, for treatment or prevention of a neurologic diseases. | 09-04-2008 |
James Feger, Dardenne Prairie, MO US
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20120106566 | SYSTEM AND METHOD FOR STITCHING ETHERNET NETWORKS - A system and method for stitching Ethernet networks. Communications are sent from a number of communications networks in one of two or more standards. The communications are converted from the two or more standards to a core standard. The communications are sent across a core network in communication with the number of communications networks utilizing the core standard. The communications are converted from the core standard to one of the two or more standards utilized by each of the number of communications networks receiving the communications in response to the communications reaching the number of communications networks. | 05-03-2012 |
Reinhard Feger, Scheffau AT
Patent application number | Description | Published |
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20090201194 | DUAL MODE RADAR METHODS AND SYSTEMS - One embodiment relates to a dual mode radar transceiver. The dual mode transceiver includes a plurality of transmit channels. Each of the plurality of transmit channels is adapted to switch between a first mode and a second mode. The first mode includes a first combination of the plurality of transmit channels adapted to concurrently transmit outgoing signals. The second mode includes a plurality of different combinations of the plurality of transmit channels. Each of the plurality of different combinations has fewer transmit channels than the first combination. Other methods and systems are also disclosed. | 08-13-2009 |
20110181459 | SYSTEMS AND METHODS FOR INCIDENT ANGLE MEASUREMENT OF WAVES IMPINGING ON A RECEIVER - Embodiments relate to radar systems and methods. In an embodiment, a system includes a radio frequency (RF) sensor array comprising a plurality of spaced apart sensors; and a reflector element positioned proximate the RF sensor array to reflect waves toward the RF sensor array. In an embodiment, a system includes an antenna array comprising a transceive antenna and a plurality of receive antennas; a mirror arranged proximate the antenna array; a voltage controlled oscillator (VCO) configured to generate a signal to be transmitted by the transceive antenna; and a controller configured to resolve signals received by the plurality of receive antennas to determine an angular position of a target, wherein the signals received include a first portion of the signal reflected by the target and a second portion of the signal reflected by the target and the mirror. | 07-28-2011 |
20140218227 | Method and Device for Detecting a Rotating Wheel - A method is described for detecting a rotating wheel of a vehicle that is travelling on a roadway in a travel direction, the wheels of which are at least partially exposed laterally, the method comprising: emitting an electromagnetic measurement beam having a known temporal progression of its frequency onto a first section above the roadway in a direction in a slant with respect to the vertical and normally or at a slant with respect to the travel direction; receiving a reflected measurement beam and recording the temporal progression of its frequencies, relative to the known progression, as a reception frequency mixture progression; and detecting a frequency band, which is continuously inclining or declining over a period of time, in the reception frequency mixture progression as a wheel. A device for conducting the method is also described. | 08-07-2014 |