Marienfeld
Daniel Marienfeld, Potsdam DE
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20100070811 | CIRCUIT ARRANGEMENT - The invention relates to a circuit arrangement, comprising: a functional circuit with m (m=1, 2, . . . ) data inputs and n (n=1, 2, . . . ) data outputs for processing at least one m-dimensional binary data input (x | 03-18-2010 |
Gerd Marienfeld, Lauda-Konigshofen DE
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20140329917 | APPARATUS, SYSTEM AND METHOD FOR IDENTIFYING CIRCULATING TUMOR CELLS - Apparatus, systems and methods are provided for the identification of various objects, particularly circulating tumor cells. In one aspect the system includes, but is not limited to, a scanning system, an image storage system, and an analysis system. The analysis system preferably identifies desired objects, such as complete cells, based on various criteria, which may include cell nuclear area or volume, CD-45 negative status, and cytokeratine positive status. Preferably included is a slide for containing the cells during the imaging step, the well including a planar bottom surface, a border at the periphery of the well defining sides for the well, the border being adjacent the bottom surface of the well and providing a fluidic seal there between. The invention herein provides for a single imaging well, providing for substantially a monolayer of objects, e.g., cells. | 11-06-2014 |
Peter Marienfeld, Marklohe DE
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20120274009 | Adaptive Motor Mount - A hydraulic mount includes a closable bypass and a decoupling membrane. When the bypass is opened, however, the main effect that can be achieved by opening the bypass, namely the decrease in the spring rate at higher frequencies, is worsened. It is thus desirable to render the decoupling membrane ineffective when the bypass is open. The aim is achieved in that the closure device of the bypass includes blocking elements for blocking the decoupling membrane in the first switching position of the closure device when the bypass is open and can be released in the second position of the closure device when the bypass is closed. | 11-01-2012 |
20130161885 | Motor Mount for a Motor Vehicle - A switchable, hydraulic damping mount includes a work chamber filled with hydraulic fluid and a compensation chamber connected to the work chamber via a channel. A partition wall mutually separates the chambers. A ferromagnetic diaphragm is arranged in the partition wall and is deflectable. An electromagnetic switching actuator has a deenergized state and an energized state and controls the diaphragm. The switching actuator applies a magnetic holding force to the diaphragm and fixes the diaphragm in a rest position when the switching actuator is in the deenergized state and reduces the magnetic holding force to such an extent that the diaphragm is enabled for movement in the longitudinal direction of the mount when the switching actuator is in the energized state. | 06-27-2013 |
20130234539 | ACTUATOR - An actuator includes an electrically conductive coil defining a longitudinal axis (L) and having a plurality of winding turns. A magnet is spaced from the winding turns in radial direction. A first conductive element has a mid region covering the coil on a side thereof facing away from the magnet. A second conductive element has a mid region covering the magnet on a side thereof facing away from the winding turns of the coil. The first conductive element projects beyond the coil in axial direction and the second conductive element projects beyond the magnet also in axial direction. The first and second conductive elements have respective collar-shaped projections whereat the first and second conductive elements project beyond the coil and the magnet, respectively. At least one of the first and second conductive elements is made of soft-magnetic powder composite material. | 09-12-2013 |
20130256960 | ENGINE MOUNT FOR A MOTOR VEHICLE - A switchable mount includes a partition wall which partitions a working chamber from a compensating chamber. A first diaphragm is arranged in the partition wall so as to be deflectable in the longitudinal direction of the mount. A switching actuator controls the diaphragm and, in a first state thereof, the diaphragm is fixed in a rest position and, in a second state thereof, the diaphragm is released to move in the longitudinal direction of the mount. A second diaphragm is arranged in the partition wall and is deflected in the longitudinal direction of the mount to influence the volume of the working chamber. An air chamber is arranged between the first diaphragm and the second diaphragm. In the first state of the actuator, the air chamber is closed off air-tight to the atmosphere and, in the second current-conducting state of the actuator, is connected to the atmosphere. | 10-03-2013 |
20150015091 | ACTUATOR FOR DAMPING LOW-FREQUENCY OSCILLATIONS - An actuator has an electrically conductive coil which has a longitudinal axis and windings through which a current can flow. The coil is surrounded by a highly permeable first ferromagnetic body so that the first body has projections of highly permeable ferromagnetic material above and below the coil in the longitudinal direction. The actuator has a magnet spaced apart from the coil so that a gap forms therebetween. The magnet is surrounded by a highly permeable second ferromagnetic body so that the second body has projections of highly permeable ferromagnetic material above and below the magnet in the longitudinal direction. The magnet is statically mounted with the second body and the coil is spring mounted with the first body so that the coil and first body oscillate in the longitudinal direction when an alternating current flows through the coil. The coil is outside the magnet perpendicular to the longitudinal axis. | 01-15-2015 |
Peter-Michael Marienfeld, Marklohe DE
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20140184369 | ACTUATOR - An actuator has an electrically conductive coil which has a longitudinal axis and a plurality of turns and a magnet arranged at a distance from the turns in radial direction relative to the longitudinal axis. The coil is partially covered by a central region of a first conducting element on a side which faces away from the magnet and the magnet is partially covered by a mid region of a second conducting element on a side facing away from the turns of the coil. The first conducting element projects beyond the coil and the second conducting element projects beyond the magnet in the direction of the longitudinal axis and there each have collar-like projections. The coil has a first winding turns region and a second winding turns region. | 07-03-2014 |