Geckeler
Carsten Geckeler, Tuebingen DE
Patent application number | Description | Published |
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20110023600 | MICROMECHANICAL YAW-RATE SENSOR - A micromechanical yaw-rate sensor comprising a first yaw-rate sensor element, which outputs a first sensor signal, which contains information about a rotation around a first rotational axis, a second yaw-rate sensor element, which outputs a second sensor signal, which contains information about a rotation around a second rotational axis, which is perpendicular to the first rotational axis, a drive, which drives the first yaw-rate sensor element, and a coupling link, which mechanically couples the first yaw-rate sensor element and the second yaw-rate sensor element to one another, so that driving of the first yaw-rate sensor element also causes driving of the second yaw-rate sensor element. | 02-03-2011 |
20110083507 | Yaw rate sensor and method for operating a yaw rate sensor - A yaw rate sensor includes a substrate which has a main plane of extension and a Coriolis element which is movable relative to the substrate. The yaw rate sensor has an excitation arrangement for exciting a drive oscillation of the Coriolis element along a first direction parallel to the main plane of extension. The yaw rate sensor has a detection arrangement for detecting a Coriolis deflection of the Coriolis element along a third direction which is perpendicular to the main plane of extension. In addition, the yaw rate sensor has a quadrature compensation structure which includes a comb electrode structure and a plate capacitor structure. | 04-14-2011 |
20120297879 | INERTIAL SENSOR - An inertial sensor, comprising a substrate and a rocker that is connected to the substrate via a spring apparatus, the spring apparatus having at least two springs for suspending the rocker on the substrate, the two springs being disposed with an offset from one another with reference to their longitudinal axis. | 11-29-2012 |
Grant Geckeler, Corona, CA US
Patent application number | Description | Published |
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20130206006 | OFF GAS EXTRACTION AND CHEMICAL RECOVERY SYSTEM AND RELATED METHODS - An off gas extraction system provides superior results to other systems for cleaning polluted soil. Off gas is extracted, followed by compression and condensation. Compression and condensation produce an off gas further treated to produce pollutant-free exhaust. A regenerative adsorber cleans the influent gas/air by adsorbing residual chemical vapor and concentrates the removed chemical vapor and reprocesses them. Conventional scrubbers are used on the back end of the system to produce a final exhaust as prescribed by environmental regulation. Methods of accomplishing the same are likewise taught including combinations and additions consistent with schemes as they evolve. | 08-15-2013 |
20140373712 | VOC SOURCE REMOVAL AND OFF GAS PURIFICATION SYSTEM - An off gas purification system provides superior results to other systems for removing volatile organic compounds from off gas, especially off gas from soil, groundwater, industrial processes, pipelines and storage tanks. Off gas is extracted, followed by compression and condensation. Compression and condensation produce an off gas that must be further treated to produce pollutant-free exhaust. A separation device cleans the influent gas/air by separating residual chemical vapor from the gas stream and returning that chemical vapor to the compression and condensation step. After removal of all detectable volatile organic compounds, the air stream may be further separated into segregated gases, and heated gas is used to thermally enhance the desorption or degradation of volatile organic compounds from the off gas source or a separation device. Methods of accomplishing the same are similarly provided, including unique business methods for conforming extraction and processing plans with current environmental regulations and compliance impact generation based on an evolved knowledge base. | 12-25-2014 |
Johannes Geckeler, Hechingen DE
Patent application number | Description | Published |
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20150060372 | LOW CUT-OFF ULTRAFILTRATION MEMBRANES - Porous hollow fiber membranes having a low molecular weight cut-off, processes for their production, and their use for separation tasks in the fields of biotechnology, pharmaceutical technology and food processing. | 03-05-2015 |