Cervin
Andrew Vladimir Claude Cervin, Oakville CA
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20130241036 | Electronic Component with Reactive Barrier and Hermetic Passivation Layer - An electronic component is provided on a substrate. A thin-film capacitor is attached to the substrate, the thin-film capacitor includes a pyrochlore or perovskite dielectric layer between a plurality of electrode layers, the electrode layers being formed from a conductive thin-film material. A reactive barrier layer is deposited over the thin-film capacitor. The reactive barrier layer includes an oxide having an element with more than one valence state, wherein the element with more than one valence state has a molar ratio of the molar amount of the element that is in its highest valence state to its total molar amount in the barrier of 50% to 100%. Optionally layers of other materials may intervene between the capacitor and reactive barrier layer. The reactive barrier layer may be paraelectric and the electronic component may be a tunable capacitor. | 09-19-2013 |
20140037835 | MULTI-LEVEL THIN FILM CAPACITOR ON A CERAMIC SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - In accordance with the teachings described herein, a multi-level thin film capacitor on a ceramic substrate and method of manufacturing the same are provided. The multi-level thin film capacitor (MLC) may include at least one high permittivity dielectric layer between at least two electrode layers, the electrode layers being formed from a conductive thin film material. A buffer layer may be included between the ceramic substrate and the thin film MLC. The buffer layer may have a smooth surface with a surface roughness (Ra) less than or equal to 0.08 micrometers (um). | 02-06-2014 |
20140216921 | METHOD OF FORMING A TARGET FOR DEPOSITION OF DOPED DIELECTRIC FILMS BY SPUTTERING - A system that incorporates teachings of the subject disclosure may include, for example, a method in which a selection is made for a first major constituent, a second major constituent and a minor constituent for forming a desired material. The method can include mixing the first major constituent, the second major constituent and the minor constituent in a single mixing step to provide a mixture of constituents. The method can include drying the mixture of constituents to provide a dried mixture of constituents and calcining the dried mixture of constituents to provide a calcinated mixture of constituents. The method can include processing the calcinated mixture of constituents to provide a powder of constituents. Other embodiments are disclosed. | 08-07-2014 |
20140240893 | Electrostrictive Resonance Suppression for Tunable Capacitors - A multi-layered capacitor includes three or more capacitor layers. A first layer includes a first DC-biased, tunable capacitor. A second layer, acoustically coupled to the first layer, includes a second DC-biased, tunable capacitor. A third layer, acoustically coupled to the second layer, includes a third DC-biased, tunable capacitor. Each dielectric of the first, second, and third capacitors has a resonance of about the same frequency, within 5%, and inner electrodes of the first, second, and third capacitors have a resonance of about the same frequency, within 5%. The resonance of each layer is a function of at least thickness, density, and material. The first, second, and third layers are biased to generate destructive acoustic interference, and the multi-layer capacitor is operable at frequencies greater than 0.1 GHz. | 08-28-2014 |
Maguerite A. Cervin, San Mateo, CA US
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20140302003 | Perhydrolase - The present invention provides methods and compositions comprising at least one perhydrolase enzyme for cleaning and other applications. In some particularly preferred embodiments, the present invention provides methods and compositions for generation of peracids. The present invention finds particular use in applications involving cleaning, bleaching and disinfecting. | 10-09-2014 |
Marguerite A. Cervin, Palo Alto, CA US
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20080220498 | Variant Buttiauxella sp. phytases having altered properties - The present invention relates to variant phytase enzymes having altered properties. | 09-11-2008 |
20090075347 | Production of Bacterial Strains Cross Reference To Related Applications - The present invention provides methods to enhance production of desired products and increase the growth rate of a bacterial strain by inactivating an endogenous arcA and optionally overexpressing a ppc gene. | 03-19-2009 |
20120015849 | Method of Creating a Library of Bacterial Clones with Varying Levels of Gene Expression - The present invention relates to a method of creating DNA libraries that include an artificial promoter library and/or a modified ribosome binding site library and transforming bacterial host cells with the library to obtain a population of bacterial clones having a range of expression levels for a chromosomal gene of interest. | 01-19-2012 |
20140234926 | RECOMBINANT ANAEROBIC ACETOGENIC BACTERIA FOR PRODUCTION OF ISOPRENE AND/OR INDUSTRIAL BIO-PRODUCTS USING SYNTHESIS GAS - This invention provides for recombinant anaerobic acetogenic bacterial cells having one or more nucleic acids whereby isoprene, mevalonate and/or other industrial bio-products are produced in a substantially oxygen-free culture condition using synthesis gas as energy and/or carbon source. | 08-21-2014 |
William Bennett Cervin, Dallas, TX US
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20140334721 | METHODS AND APPARATUS FOR CAPTURING, PROCESSING, TRAINING, AND DETECTING PATTERNS USING PATTERN RECOGNITION CLASSIFIERS - A system, methods, and apparatus for generating pattern recognition classifiers are disclosed. An example method includes identifying graphical objects within an image of a card object, for each identified graphical object: i) creating a bounding region encompassing the graphical object such that a border of the bounding region is located at a predetermined distance from segments of the graphical object, ii) determining pixels within the bounding region that correspond to the graphical object, iii) determining an origin of the graphical object based on an origin rule, iv) determining a text coordinate relative to the origin for each determined pixel, and v) determining a statistical probability that features are present within the graphical object, each of the features including at least one pixel having text coordinates and for each graphical object type, combining the statistical probabilities for each of the features of the identified graphical objects into a classifier data structure. | 11-13-2014 |