Patent application number | Description | Published |
20110068419 | MICROMECHANICAL SYSTEM - A micromechanical system includes a substrate, a first conductive layer situated above the substrate and a second conductive layer situated above the first conductive layer. The first conductive layer and the second conductive layer are conductively interconnected by a connecting element. The connecting element has a conductive edge surrounding a nonconductive region. | 03-24-2011 |
20110079863 | Micromechanical structure, method for manufacturing a micromechanical structure, and use of a micromechanical structure - A micromechanical structure which includes a substrate having a main plane of extension, and a seismic mass which is movable relative to the substrate. The micromechanical structure includes a fixed electrode which is connected to the substrate, and a counterelectrode which is connected to the seismic mass. The fixed electrode has a first fixed electrode region and a second fixed electrode region which is connected in an electrically conductive manner to the first fixed electrode region. The counterelectrode is partially situated between the first and the second fixed electrode region, perpendicular to the main plane of extension. | 04-07-2011 |
20110083506 | Micromechanical structure and method for manufacturing a micromechanical structure - A micromechanical structure includes: a substrate; a seismic mass movable relative to the substrate along a first direction parallel to a main plane of extension of the substrate; a first electrode structure is connected to the substrate; and a second electrode structure connected to the substrate. The seismic mass includes a counterelectrode structure having finger electrodes situated between first finger electrodes of the first electrode structure and second finger electrodes of the second electrode structure, along the first direction. The first electrode structure is fastened to the substrate by a first anchoring element in a central region of the micromechanical structure, and the second electrode structure is anchored to the substrate by a second anchoring element situated in the central region. | 04-14-2011 |
20120251799 | Micromechanical system and corresponding manufacturing method - A micromechanical system is described having a substrate; a first micromechanical functional area, which is situated above the substrate; a second micromechanical functional area, which is situated above the first micromechanical functional area and is connected via a first weblike anchoring structure to the first micromechanical functional area; a third micromechanical functional area, which is situated above the second micromechanical functional area, and which has a first subarea and a second subarea; the first subarea being connected via a second weblike anchoring structure to the second micromechanical functional area; and the second subarea being mounted floating over the substrate by the first subarea. The invention also provides a method for manufacturing such a micromechanical system. | 10-04-2012 |
20120313638 | MAGNETIC FIELD SENSOR - A magnetic field sensor includes a magnetizable core having a curved surface at least sectionally, a magnetization device for magnetizing the core, and a determination device for determining a magnetic field in the core. | 12-13-2012 |
Patent application number | Description | Published |
20100171037 | COMPACT SCANNING ELECTRON MICROSCOPE - A compact electron microscope uses a removable sample holder having walls that form a part of the vacuum region in which the sample resides. By using the removable sample holder to contain the vacuum, the volume of air requiring evacuation before imaging is greatly reduced and the microscope can be evacuated rapidly. In a preferred embodiment, a sliding vacuum seal allows the sample holder to be positioned under the electron column, and the sample holder is first passed under a vacuum buffer to remove air in the sample holder. | 07-08-2010 |
20100194874 | User Interface for an Electron Microscope - A user interface for operation of a scanning electron microscope device that combines lower magnification reference images and higher magnification images on the same screen to make it easier for a user who is not used to the high magnification of electron microscopes to readily determine where on the sample an image is being obtained and to understand the relationship between that image and the rest of the sample. Additionally, other screens, such as, for example, an archive screen and a settings screen allow the user to compare saved images and adjust the settings of the system, respectively. | 08-05-2010 |
20100230590 | Compact Scanning Electron Microscope - A compact electron microscope is robust, simple to operate, and preferably requires no special utilities. Imaging can begin shortly after a sample is inserted. A preferred simplified design includes permanent magnets for focusing, lack a vacuum controller and vacuum gauge, and uses a backscattered electron detector and no secondary electron detector. | 09-16-2010 |
20110133083 | COMPACT SCANNING ELECTRON MICROSCOPE - A compact electron microscope uses a removable sample holder having walls that form a part of the vacuum region in which the sample resides. By using the removable sample holder to contain the vacuum, the volume of air requiring evacuation before imaging is greatly reduced and the microscope can be evacuated rapidly. In a preferred embodiment, a sliding vacuum seal allows the sample holder to be positioned under the electron column, and the sample holder is first passed under a vacuum buffer to remove air in the sample holder. | 06-09-2011 |
Patent application number | Description | Published |
20140117256 | APPRATUS FOR OPTICAL ANALYSIS OF AN ASSOCIATED TISSUE SAMPLE - In order to improve fluorescence measurements, there is provided an apparatus and, a method and a computer program for optical analysis of an associated tissue sample, the apparatus comprising a spectrometer comprising an optical detector, a light source, a first light emitter | 05-01-2014 |
20140121538 | NEEDLE WITH AN OPTICAL FIBER INTEGRATED IN AN ELONGATED INSERT - A needle is proposed including a cannula or hollow shaft with a multilumen insert inside. The insert comprises at least two lumen. Both the insert as well as the cannula have bevelled ends. In the insert substantially straight cleaved fibers are present that may be connected at the proximal end to a console. At least one of the distal fiber ends in the insert may protrude more than half the fiber diameter out of the insert. Furthermore, the bevel angle of the insert is different from the bevel angle of the cannula such that combination cannula and insert is such that the fiber ends do not protrude the bevel surface of the cannula. | 05-01-2014 |
20140142563 | ENERGY APPLICATION PLANNING APPARATUS - The invention relates to an energy application planning apparatus for planning an application of energy to an object ( | 05-22-2014 |
20140236024 | MEDICAL PROBE WITH MULTI-FIBER LUMEN - The present invention relates to a medical probe which consists of a cannula with a multilumen stylet inside. The multilumen contains at least two lumen. Both the multilumen as well as the cannula may have beveled ends. In the lumen straight optical fibers (i.e.no angle end face) are present that can be connected at the proximal end to a console. The cannula, multilumen, fiber system forming the medical probe comprises at least in one of the lumen of the multilumen more than one optical fiber. Preferably the source and detector fibers for the fluorescence detection are contained in one single lumen of the multilumen. | 08-21-2014 |
20140363063 | IMAGING APPARATUS - The invention relates to an imaging apparatus ( | 12-11-2014 |
20150057530 | MEDICAL NEEDLE - The present invention relates to a medical needle which comprises a needle ( | 02-26-2015 |