GÜnther
Andreas GÜnther, Bargteheide DE
Patent application number | Description | Published |
---|---|---|
20120019364 | RFID READING APPARATUS - An RFID reading apparatus ( | 01-26-2012 |
20120098643 | RFID READING APPARATUS AND A READING AND ASSOCIATION METHOD - The invention relates to an RFID reading apparatus arranged stationary at a conveyor device. The RFID information is read in that during a reading procedure a transponder signal is generated for which purpose an RFID information of a frequency in a base band is modulated by back-scatter modulation onto a carrier signal. In accordance with the invention the transmitter unit has two transmitting antennae spaced apart in the conveying direction with the transmitter signal of one transmission antenna representing the in-phase component of the quadrature amplitude modulated transmission signal and the transmitter signal of the other transmission antenna representing the quadrature component of the quadrature amplitude modulated transmission signal so that on transmission of the in-phase and quadrature components these are superimposed in a plane extending transverse to the conveyor device additively to the full quadrature amplitude modulated transmitter signal. | 04-26-2012 |
Detlef Günther, Zurich CH
Patent application number | Description | Published |
---|---|---|
20130207000 | Laser-Ablation Ion Source with Ion Funnel - A laser-ablation ion source for generating a low energy ion beam having low longitudinal and transverse emittance, including a supersonic nozzle, followed by an RF ion funnel. A laser source generates a laser beam which is focused by a lens to an ablation site. The ablation site is located upstream of the nozzle, at a distance of less than 10 mm from the nozzle aperture. The laser irradiates the ablation site through the nozzle aperture to generate the ions. | 08-15-2013 |
Ewald K. M. Günther, Regenstauf DE
Patent application number | Description | Published |
---|---|---|
20130069086 | METHOD FOR PRODUCING A PLURALITY OF OPTOELECTRONIC SEMICONDUCTOR CHIPS - A method for producing a plurality of optoelectronic semiconductor chips includes providing a carrier wafer having a first surface and a second surface opposite the first surface. wherein a plurality of individual component layer sequences spaced apart from one another in a lateral direction are applied on the first surface, the component layer sequences being separated from one another by separation trenches; introducing at least one crystal imperfection in at least one region of the carrier wafer which at least partly overlaps a separation trench in a vertical direction; singulating the carrier wafer along the at least one crystal imperfection into individual semiconductor. | 03-21-2013 |
Jörg Günther, Ludenscheid DE
Patent application number | Description | Published |
---|---|---|
20130016525 | FLAT ILLUMINATING DISPLAY DEVICE AND LIGHT-EMITTING MEANS THEREFOR - Flat illuminating display device with light emitting means to illuminate a film for display of an image applied to a display area, wherein the light emitting means are embodied as at least one light coupling unit arranged laterally at a translucent film thus forming a light duct, wherein the light such fed into the adjacent edge area into the film is reflected by a reflective layer, which is applied on at least one side, to homogeneously spread within the film, wherein a reflection screen to obtain a light emission is provided opposite of the display area to create said display area. | 01-17-2013 |
Sabine Günther, Vejen DK
Patent application number | Description | Published |
---|---|---|
20120061007 | METHOD OF STRENGTHENING A WIND TURBINE BLADE AND THE STRENGTHENED BLADE - A method of repairing a wind turbine blade is described. The blade comprises a shell body comprising a fibre-reinforced polymer material. The blade is strengthened by use of a UV curable prepreg material having a first side and a second side. The method comprises the steps of: a) applying the UV curable, fibre-reinforced prepreg material to an area of application on an outer surface or an inner surface of the wind turbine blade with the first side of the prepreg material facing the area of application, and b) exposing the prepreg material to UV radiation for a predetermined amount of time so as to allow the prepreg to cure. | 03-15-2012 |
20120325581 | WORK PLATFORM - The invention concerns a work platform for use in connection with work on a wing blade for a wind energy plant, where the work platform is typically used for working on a wing blade which is brought to a substantially vertical position, and where the work platform is hoisted up and down from a position above the workplace, typically from a region close to the root end of the wing or from the rotor hub. The work platform is provided with space for a person and is preferably adapted for positioning along a leading or trailing edge of a wing blade, and is further including at least two projecting arms for contact against the surface of the wing, where the projecting arms are provided with protective means between the arm and the wing surface. By such a work platform, the most comfortable working conditions can be achieved, as the work platform itself is particularly adapted for use in connection with wings for wind energy plants, and particularly because the projecting arms bear on the surfaces of the wing, whereby the movements of the work platform are secured in relation to the movements of the wing. | 12-27-2012 |
Thomas GÜnther, Langenhagen DE
Patent application number | Description | Published |
---|---|---|
20100052942 | COMMUNICATION DEVICE - A communication device is disclosed for communicating telemetry data relating to a fluid, which is passed through a group of concatenated containers such as pipes, tanks and the like in a process installation, to a data processing device. The communication device includes a measuring sensor which can be spatially separated from the data processing device, the measuring sensor having a transponder and a converter for converting a physical variable of the fluid into an electrical variable. The measuring sensor can communicate with a reading device assigned to the data processing device, the measuring sensor being concomitantly loosely guided in the fluid. | 03-04-2010 |
Thomas GÜnther, Langenhagen DE
Patent application number | Description | Published |
---|---|---|
20100052942 | COMMUNICATION DEVICE - A communication device is disclosed for communicating telemetry data relating to a fluid, which is passed through a group of concatenated containers such as pipes, tanks and the like in a process installation, to a data processing device. The communication device includes a measuring sensor which can be spatially separated from the data processing device, the measuring sensor having a transponder and a converter for converting a physical variable of the fluid into an electrical variable. The measuring sensor can communicate with a reading device assigned to the data processing device, the measuring sensor being concomitantly loosely guided in the fluid. | 03-04-2010 |
Torsten Günther, Lehre DE
Patent application number | Description | Published |
---|---|---|
20130264869 | MOTOR VEHICLE ELECTRICAL SYSTEM AND METHOD FOR OPERATING A MOTOR VEHICLE ELECTRICAL SYSTEM - A motor vehicle electrical system having a starter and a first energy store, which are arranged in a first region of the motor vehicle electrical system, and a generator and a second energy store, which are arranged in a second region of the motor vehicle electrical system, wherein, a switching element is arranged between the first and the second region of the motor vehicle electrical system, wherein the switching element has at least two switching states, wherein, in a first switching state, a current can flow only from the first region toward the second region and, in a second switching state, the first and second region have a through-connection to one another, wherein the second energy store is connected to the generator via a DC/DC converter, wherein, via a second switching element, the starter is connected directly to the second energy store. | 10-10-2013 |