Patent application number | Description | Published |
20080241336 | Extrusion-Stable Poly-Unsaturated Fatty-Acid Compositions for Food Products - The invention relates to the use of encapsulated particles containing PUFAs embedded in a protein matrix for the preparation of extruded food, to the PUFA-supplemented extruded food and to the process for the preparation thereof. | 10-02-2008 |
20080311255 | Powder Compositions - Powder compositions having particle average diameters of about 50 to 500 microns which comprise droplets containing a long chain polyunsaturated fatty acid (I.C-PUFA) embedded in a matrix of a modified polysaccharide and wherein the particles are characterized by a surface oil content of less than 0.5% (w/w), a process for their manufacture and their applications in the preparation of food with increased nutritional value. | 12-18-2008 |
20090214661 | PROCESS FOR THE PRODUCTION OF BEADLETS - A process for the production of cross-linked beadlets containing one or more active ingredients selected from the group of a fat-soluble vitamin active material, a carotenoid and a polyunsaturated fatty acid is provided. The process comprises treating a dry particulate form at a temperature in the range of from 90° C. to 140° C. for a time period of from 30 seconds to 30 minutes or from 1 minute to 10 minutes or from 3 minutes to 7 minutes. | 08-27-2009 |
20100069313 | NOVEL POWDERS BASED ON VEGETATION WATER FROM OLIVE OIL PRODUCTION - The present invention is directed a process for the manufacture of a powder comprising vegetation water rich in water-soluble polyphenols, especially rich in hydroxytyrosol, as well as to the powders themselves and dietary supplements, especially in form of tablets, food, feed and cosmetic preparations containing such powders. The process comprises the following steps: A) providing vegetation water (concentrate) containing water-soluble polyphenols; B) (optionally) modifying the water content of the vegetation water (concentrate); C) optionally centrifuging the vegetation water (concentrate) and separating the water-soluble part; D) spray-drying or granulating the (water-soluble part of the) vegetation water (concentrate), preferably in presence of an adjuvant; E) optionally washing the thus obtained powder comprising vegetation water rich in water-soluble polyphenols with an organic solvent. | 03-18-2010 |
20110223289 | EXTRUSION-STABLE POLY-UNSATURATED FATTY-ACID COMPOSITIONS FOR FOOD PRODUCTS - The invention relates to the use of encapsulated particles containing PUFAs embedded in a protein matrix for the preparation of extruded food, to the PUFA-supplemented extruded food and to the process for the preparation thereof. | 09-15-2011 |
20120045563 | RESVERATROL COMPOSITIONS - Compositions consisting of or comprising resveratrol and a protective colloid, particularly a gelatine, a modified food starch or a ligninsulfonate, their use for stably incorporating resveratrol into water-based foods, particularly beverages, and the foods thus obtained. | 02-23-2012 |
Patent application number | Description | Published |
20080265712 | Energy Harvesting Device Manufactured by Print Forming Processes - Embodiments of making an energy harvesting device are described. In one embodiment, a case and integrated piezoelectric cantilever to harvest vibration energy from an environment being sensed is produced via a print forming method injection molding method. The cantilever device consists of a piezoelectric material member, and a proof mass of high density material coupled to the piezoelectric member. The print forming method is used to build up the base and walls of the device as well as the neutral layers of the piezoelectric member. Metal layers are printed to form the electrode layers of the piezoelectric member and the electrical contact portions of the device. Passive components can also be formed as part of the layers of the device. The entire assembly can be encapsulated in plastic. | 10-30-2008 |
20090278214 | Microelectromechanical Systems Encapsulation Process - An encapsulated MEMS process including a high-temperature anti-stiction coating that is stable under processing steps at temperatures over 450 C is described. The coating is applied after device release but before sealing vents in the encapsulation layer. Alternatively, an anti-stiction coating may be applied to released devices directly before encapsulation. | 11-12-2009 |
20100192689 | Sensor device - A sensor device includes a housing base part, a bearer part, a chip structure situated on the bearer part, and a spring/damper combination via which the housing base part and the bearer part are elastically connected to one another. In the sensor device, the housing base part, the spring/damper combination and the bearer part are situated one over the other. | 08-05-2010 |
20100225500 | METHOD FOR CONTROLLING A DEVICE AND A DEVICE FOR CONTROLLING THE DEVICE - A device for controlling a device by using a rotation-rate sensor. In order to provide a device for determining a triggering signal for a safety device which allows a particularly compact implementation of the device, the device is set up to ascertain an acceleration variable on the basis of a first sensor signal for a first seismic mass of the rotation-rate sensor and the second sensor signal for a second seismic mass of the rotation-rate sensor and to control the device as a function of the acceleration variable. | 09-09-2010 |
20140102194 | TRI-AXIS ACCELEROMETER HAVING A SINGLE PROOF MASS AND FULLY DIFFERENTIAL OUTPUT SIGNALS - A tri-axis accelerometer includes a proof mass, at least four anchor points arranged in at least two opposite pairs, a first pair of anchor points being arranged opposite one another along a first axis, a second pair of anchor points being arranged opposite one another along a second axis, the first axis and the second axis being perpendicular to one another, and at least four spring units to connect the proof mass to the at least four anchor points, the spring units each including a pair of identical springs, each spring including a sensing unit. | 04-17-2014 |
20140175525 | CMOS Integrated Moving-Gate Transducer with Silicon as a Functional Layer - A semiconductor device includes a substrate, a first dielectric layer located above the substrate, a moving-gate transducer, and a proof mass. The moving-gate transducer is at least partially formed within the substrate and is at least partially formed within the first dielectric layer. The proof mass includes a portion of the first dielectric layer and a portion of a silicon layer. The silicon layer is located above the first dielectric layer. | 06-26-2014 |