Penth
Bernd Penth, Lebach DE
Patent application number | Description | Published |
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20110265550 | MEASURING INSTRUMENT AND METHOD FOR DETECTING THE CONTENT OF OIL, HYDROCARBONS AND OXIDIZABLE GASES IN AIR OR COMPRESSED AIR - The invention relates to a measuring instrument and method for detecting the content of oil, hydrocarbons and oxidizable gases in air or compressed air. | 11-03-2011 |
20110294770 | METHOD FOR PRODUCING PHARMACEUTICAL DRUG PARTICLES OF SMALL PARTICLE SIZE - Pharmaceutical drug particles of small particle size are produced by combining a solvent-non-solvent precipitate with an in-situ spray drying process. A pharmaceutical drug is dispersed in a water-miscible solvent, in particular ethanol, and heated in an infeed line under pressure to above the boiling point of the solvent until the drug dissolves. This solution collides as a fine liquid jet with a fine water jet in a gas-permeated microreactor, and the fine mist so arising vaporises rapidly. The organic solvent vaporizes first, then the water. The water may contain surface modifiers. | 12-01-2011 |
20120279277 | Measuring Device and Method for Detecting the Hydrocarbon Content in Gases - The invention relates to a measuring device for detecting the hydrocarbon fraction in gases. The measuring device is characterized in that the measuring device determines the hydrocarbon fraction in a first gas flow and a second gas flow, both the first gas flow and the second gas flow originating from the same gas source, the first gas flow being fed to the measuring device unchanged and the second gas flow being fed to the measuring device prepared. | 11-08-2012 |
20130012551 | METHOD AND DEVICE FOR PRODUCING MICROPARTICLES OR NANOPARTICLES - The invention relates to a method for producing microparticles or nanoparticles of water-soluble and water-insoluble substances by controlled precipitation, co-precipitation and self-organization processes in microjet reactors, a solvent, which contains at least one target molecule, and a nonsolvent being mixed as jets that collide with each other in a microjet reactor at defined pressures and flow rates and thereby effect very rapid precipitation, co-precipitation or a chemical reaction, during the course of which microparticles or nanoparticles are formed. In order to create such a method, with which the particle size of the resulting microparticles or nanoparticles can be specifically controlled, it is proposed within the scope of the invention that particle size be controlled by the temperature at which the solvent and nonsolvent collide, the flow rate of the solvent and the nonsolvent and/or the amount of gas, smaller particle sizes being obtained at lower temperatures, at high solvent and nonsolvent flow rates and/or in the complete absence of gas. | 01-10-2013 |
Felix Penth, Lebach DE
Patent application number | Description | Published |
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20110265550 | MEASURING INSTRUMENT AND METHOD FOR DETECTING THE CONTENT OF OIL, HYDROCARBONS AND OXIDIZABLE GASES IN AIR OR COMPRESSED AIR - The invention relates to a measuring instrument and method for detecting the content of oil, hydrocarbons and oxidizable gases in air or compressed air. | 11-03-2011 |
20130012551 | METHOD AND DEVICE FOR PRODUCING MICROPARTICLES OR NANOPARTICLES - The invention relates to a method for producing microparticles or nanoparticles of water-soluble and water-insoluble substances by controlled precipitation, co-precipitation and self-organization processes in microjet reactors, a solvent, which contains at least one target molecule, and a nonsolvent being mixed as jets that collide with each other in a microjet reactor at defined pressures and flow rates and thereby effect very rapid precipitation, co-precipitation or a chemical reaction, during the course of which microparticles or nanoparticles are formed. In order to create such a method, with which the particle size of the resulting microparticles or nanoparticles can be specifically controlled, it is proposed within the scope of the invention that particle size be controlled by the temperature at which the solvent and nonsolvent collide, the flow rate of the solvent and the nonsolvent and/or the amount of gas, smaller particle sizes being obtained at lower temperatures, at high solvent and nonsolvent flow rates and/or in the complete absence of gas. | 01-10-2013 |
Max Penth, Lebach DE
Patent application number | Description | Published |
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20110265550 | MEASURING INSTRUMENT AND METHOD FOR DETECTING THE CONTENT OF OIL, HYDROCARBONS AND OXIDIZABLE GASES IN AIR OR COMPRESSED AIR - The invention relates to a measuring instrument and method for detecting the content of oil, hydrocarbons and oxidizable gases in air or compressed air. | 11-03-2011 |
20120279277 | Measuring Device and Method for Detecting the Hydrocarbon Content in Gases - The invention relates to a measuring device for detecting the hydrocarbon fraction in gases. The measuring device is characterized in that the measuring device determines the hydrocarbon fraction in a first gas flow and a second gas flow, both the first gas flow and the second gas flow originating from the same gas source, the first gas flow being fed to the measuring device unchanged and the second gas flow being fed to the measuring device prepared. | 11-08-2012 |
Silke Penth, Holzgerlingen DE
Patent application number | Description | Published |
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20140192602 | DEFECTIVE MEMORY COLUMN REPLACEMENT WITH LOAD ISOLATION - Exemplary embodiments of the present invention disclose a method and system for substituting a group of memory cells for a defective group of memory cells in a memory. In a step, an exemplary embodiment replaces a signal path to a group of defective memory cells with a signal path to a redundant group of memory cells. In another step, an exemplary embodiment isolates the signal path to the redundant group of memory cells from a load imposed by the signal path to the replaced group of defective memory cells. | 07-10-2014 |
20140254290 | Local Evaluation Circuit for Static Random-Access Memory - A local evaluation circuit for a memory array includes first and second NAND gates and first, second, third, and fourth switches. The first switch is configured to couple a first node of the second NAND gate to a first power supply node in response to a first read signal. The second switch is configured to couple a first node of the first NAND gate to the first power supply node in response to a second read signal. The third switch is configured to couple a second node of the first NAND gate to a second power supply node in response to the first read signal. The fourth switch is configured to couple a second node of the second NAND gate to the second power supply node in response to the second read signal. | 09-11-2014 |
Wolfgang Penth, Holzgerlingen DE
Patent application number | Description | Published |
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20120106237 | BOOST CIRCUIT FOR GENERATING AN ADJUSTABLE BOOST VOLTAGE - A technique for generating an adjustable boost voltage for a device includes charging, using first and second switches, a capacitor to a first voltage during a charging phase. The technique also includes stacking, using a third switch, a second voltage onto the first voltage across the capacitor in a boost phase to generate a boost voltage. In this case, the boost voltage is applied to a driver circuit of the device only during the boost phase and at least one of the first and second voltages is adjustable, thereby making the boost voltage adjustable. | 05-03-2012 |
20120155188 | REDUCED POWER CONSUMPTION MEMORY CIRCUITRY - In a circuit that reduces power consumption in an array system of memory cells accessible in parallel, a local evaluation circuit is connected to a memory cell and a global bit line of the array system of memory cells. A selection circuitry splits the global bit line into an upper part and a lower part of the global bit line. The selection circuitry is adapted to receive an early set prediction signal and to connect the upper part of the global bit line to the lower part of the global bit line based on the early set prediction signal. The early set prediction signal indicates whether a set of memory cells, which include the memory cell, is being read. The circuit also includes a N:1 multiplexer connected to the lower part of the global bit line to receive the lower part of the global bit line as input. | 06-21-2012 |