Patent application number | Description | Published |
20090267699 | TIMING OSCILLATORS AND RELATED METHODS - Timing oscillators as well as related methods and devices are described. A timing oscillator may include a mechanical resonating structure with major elements and minor elements coupled to the major element. The timing oscillator can generate stable signals with low phase noise at very high frequencies which allows a timing oscillator to be used effectively in a number of devices including computers and mobile phones for time and data synchronization purposes. The signal generated by the timing oscillator can be tuned using a driver circuit and a compensation circuit. | 10-29-2009 |
20090267700 | TIMING OSCILLATORS AND RELATED METHODS - Timing oscillators as well as related methods and devices are described. A timing oscillator may include a mechanical resonating structure with major elements and minor elements coupled to the major element. The timing oscillator can generate stable signals with low phase noise at very high frequencies which allows a timing oscillator to be used effectively in a number of devices including computers and mobile phones for time and data synchronization purposes. The signal generated by the timing oscillator can be tuned using a driver circuit and a compensation circuit. | 10-29-2009 |
20100181868 | MULTI-PORT MECHANICAL RESONATING DEVICES AND RELATED METHODS - Multi-port devices having multiple electrical ports are described, as are related methods. Some of the multi-port devices may have two input ports and two output ports, and may be driven differentially, in a single-ended mode, in a single-ended to differential mode, or in a differential to single-ended mode. The multi-port devices may include one or more transducers coupled to the electrical ports. | 07-22-2010 |
20100182102 | MECHANICAL RESONATING STRUCTURES INCLUDING A TEMPERATURE COMPENSATION STRUCTURE - Mechanical resonating structures are described, as well as related devices and methods. The mechanical resonating structures may have a compensating structure for compensating temperature variations. | 07-22-2010 |
20100301703 | INTEGRATION OF PIEZOELECTRIC MATERIALS WITH SUBSTRATES - Devices having piezoelectric material structures integrated with substrates are described. Fabrication techniques for forming such devices are also described. The fabrication may include bonding a piezoelectric material wafer to a substrate of a differing material. A structure, such as a resonator, may then be formed from the piezoelectric material wafer. | 12-02-2010 |
20100314969 | MECHANICAL RESONATING STRUCTURES AND METHODS - Apparatus and methods of connecting mechanical resonating structures to a body are described. Multi-element anchors may include a flexible portion that flexes when the mechanical resonating structure vibrates. The flexible portion may have a length related to the resonance frequency of the mechanical resonating structures. Some of the multi-element anchors include elements that are oriented perpendicularly to each other. MEMS incorporating such structures are also described. | 12-16-2010 |
20110187227 | INTEGRATION OF PIEZOELECTRIC MATERIALS WITH SUBSTRATES - Devices having piezoelectric material structures integrated with substrates are described. Fabrication techniques for forming such devices are also described. The fabrication may include bonding a piezoelectric material wafer to a substrate of a differing material. A structure, such as a resonator, may then be formed from the piezoelectric material wafer. | 08-04-2011 |
20120013413 | TIMING OSCILLATORS AND RELATED METHODS - Timing oscillators as well as related methods and devices are described. A timing oscillator may include a mechanical resonating structure with major elements and minor elements coupled to the major element. The timing oscillator can generate stable signals with low phase noise at very high frequencies which allows a timing oscillator to be used effectively in a number of devices including computers and mobile phones for time and data synchronization purposes. The signal generated by the timing oscillator can be tuned using a driver circuit and a compensation circuit. | 01-19-2012 |
20120024058 | MICROELECTROMECHANICAL GYROSCOPES AND RELATED APPARATUS AND METHODS - In one embodiment, an apparatus comprises a micromechanical gyroscope and a circuit. The micromechanical gyroscope is configured to be excited in a first mode by a drive signal, and configured to be excited in a second mode by a gyroscopic effect. The circuit is coupled to the micromechanical gyroscope and configured to detect the gyroscopic effect when the micromechanical gyroscope is in the second mode. | 02-02-2012 |
20120056510 | INTEGRATION OF PIEZOELECTRIC MATERIALS WITH SUBSTRATES - Devices having piezoelectric material structures integrated with substrates are described. Fabrication techniques for forming such devices are also described. The fabrication may include bonding a piezoelectric material wafer to a substrate of a differing material. A structure, such as a resonator, may then be formed from the piezoelectric material wafer. | 03-08-2012 |
20120074810 | MECHANICAL RESONATING STRUCTURES INCLUDING A TEMPERATURE COMPENSATION STRUCTURE - Mechanical resonating structures are described, as well as related devices and methods. The mechanical resonating structures may have a compensating structure for compensating temperature variations. | 03-29-2012 |
20120280594 | MICROELECTROMECHANICAL SYSTEMS (MEMS) RESONATORS AND RELATED APPARATUS AND METHODS - Devices having piezoelectric material structures integrated with substrates are described. Fabrication techniques for forming such devices are also described. The fabrication may include bonding a piezoelectric material wafer to a substrate of a differing material. A structure, such as a resonator, may then be formed from the piezoelectric material wafer. | 11-08-2012 |
20130140651 | MICROELECTROMECHANICAL SYSTEMS (MEMS) RESONATORS AND RELATED APPARATUS AND METHODS - Devices having piezoelectric material structures integrated with substrates are described. Fabrication techniques for forming such devices are also described. The fabrication may include bonding a piezoelectric material wafer to a substrate of a differing material. A structure, such as a resonator, may then be formed from the piezoelectric material wafer. | 06-06-2013 |
20130140944 | MICROELECTROMECHANICAL SYSTEMS (MEMS) RESONATORS AND RELATED APPARATUS AND METHODS - Devices having piezoelectric material structures integrated with substrates are described. Fabrication techniques for forming such devices are also described. The fabrication may include bonding a piezoelectric material wafer to a substrate of a differing material. A structure, such as a resonator, may then be formed from the piezoelectric material wafer. | 06-06-2013 |
20130140958 | MICROELECTROMECHANICAL SYSTEMS (MEMS) RESONATORS AND RELATED APPARATUS AND METHODS - Devices having piezoelectric material structures integrated with substrates are described. Fabrication techniques for forming such devices are also described. The fabrication may include bonding a piezoelectric material wafer to a substrate of a differing material. A structure, such as a resonator, may then be formed from the piezoelectric material wafer. | 06-06-2013 |
20130200752 | METHODS AND APPARATUS FOR MECHANICAL RESONATING STRUCTURES - Mechanical resonating structures and related methods are described. The mechanical resonating structures may provide improved efficiency over conventional resonating structures. Some of the structures have lengths and widths and are designed to vibrate in a direction approximately parallel to either the length or width. They may have boundaries bounding the length and width dimensions, which may substantially align with nodes or anti-nodes of vibration. | 08-08-2013 |
20130313947 | INTEGRATION OF PIEZOELECTRIC MATERIALS WITH SUBSTRATES - Devices having piezoelectric material structures integrated with substrates are described. Fabrication techniques for forming such devices are also described. The fabrication may include bonding a piezoelectric material wafer to a substrate of a differing material. A structure, such as a resonator, may then be formed from the piezoelectric material wafer. | 11-28-2013 |
20140137648 | MICROELECTROMECHANICAL GYROSCOPES AND RELATED APPARATUS AND METHODS - In one embodiment, an apparatus comprises a micromechanical gyroscope and a circuit. The micromechanical gyroscope is configured to be excited in a first mode by a drive signal, and configured to be excited in a second mode by a gyroscopic effect. The circuit is coupled to the micromechanical gyroscope and configured to detect the gyroscopic effect when the micromechanical gyroscope is in the second mode. | 05-22-2014 |
20150091412 | MECHANICAL RESONATING STRUCTURES INCLUDING A TEMPERATURE COMPENSATION STRUCTURE - Mechanical resonating structures are described, as well as related devices and methods. The mechanical resonating structures may have a compensating structure for compensating temperature variations. | 04-02-2015 |
Patent application number | Description | Published |
20100040645 | IN VIVO CTL ELICITATION BY HEAT SHOCK PROTEIN FUSION PROTEINS MAPS TO A DISCRETE DOMAIN AND IS CD4+ T CELL-INDEPENDENT - The present invention relates to a method of inducing a CD8 | 02-18-2010 |
20100136072 | Polymeric Coatings that Inactivate Viruses and Bacteria - Hydrophobic polymeric coatings which can be non-covalently applied to solid surfaces such as metals, plastics, glass, polymers, textiles, and other substrates such as fabrics, gauze, bandages, tissues, and other fibers, in the same manner as paint, for example, by brushing, spraying, or dipping, to make the surfaces virucidal and bactericidal, have been developed. | 06-03-2010 |
20100204297 | INFLUENZA THERAPEUTIC - The present invention provides compositions comprising an RNAi-inducing entity targeted to an influenza virus transcript and any of a variety of delivery agents. The invention further includes methods of use of the compositions for inhibiting a biological activity of an influenza virus and/or for treatment or prevention of influenza. The invention provides target portion sequences that are favorably conserved for RNAi across a plurality of influenza virus A strains isolated from human hosts and/or avian hosts and RNAi-inducing entities, e.g., siRNAs and shRNAs, targeted to such favorably conserved target portions. The invention provides a variety of nucleic acids comprising sequences identical or complementary to at least a portion of one or more of these favorably conserved target portion sequences. The invention further provides methods and compositions for delivering RNAi-inducing agents to an organ or tissue of a mammalian subject, e.g., to the lung. Methods of diagnosing influenza and determining the susceptibility of an influenza virus to inhibition by an RNAi-inducing agent are also provided. Transgenic animals that express an RNAi-inducing agent targeted to an influenza gene are another aspect of the invention. | 08-12-2010 |
Patent application number | Description | Published |
20150246913 | BONE MARROW ON X CHROMOSOME KINASE (BMX) INHIBITORS AND USES THEREOF - The present invention provides novel compounds of Formula (I), and pharmaceutically acceptable salts, solvates, hydrates, polymorphs, co-crystals, tautomers, stereoisomers, isotopically labeled derivatives, prodrugs, and compositions thereof. Also provided are methods and kits involving the compounds of Formula (I) or (II), or compositions thereof, for treating or preventing a wide range of diseases (e.g., proliferative diseases (e.g., cancers, benign neoplasms, angiogenesis, inflammatory diseases, autoimmune diseases) and metabolic diseases (e.g., diabetes (e.g., type 2 diabetes, gestational diabetes)) in a subject. Treatment of a subject with a disease using a compound of Formula (I) or (II), or compositions thereof, may downregulate the expression and/or inhibit the activity of a kinase (e.g., a tyrosine kinase, such as a Tec kinase, in particular, bone marrow on X chromosome kinase (BMX)), and therefore, suppress tyrosine kinase singling in the subject. | 09-03-2015 |
Patent application number | Description | Published |
20120172310 | Soluble Guanylyl Cyclase a1 and a-8r Peptide as Diagnostic Markers of and Therapeutic Targets for Prostate Cancer - The present invention provides materials and methods useful to treat various sGCα1-expressing cancers. Materials include peptides which interfere with sGCα1's pro-survival functions, thereby resulting in apoptosis of sGCα1-expressing cells. In addition, the present invention provides screening assays, diagnostic assays, methods to prognose, methods to treat, and kits. | 07-05-2012 |
20140057852 | Treatment of Cancers with A-8R Peptide - The present invention provides materials and methods useful to treat various sGCα1-expressing cancers. Materials include peptides which interfere with sGCα1's pro-survival functions, thereby resulting in apoptosis of sGCα1-expressing cells. In addition, the present invention provides screening assays, diagnostic assays, methods to prognose, methods to treat, and kits. | 02-27-2014 |
20140057853 | Treatment of Cancers with A-8R Peptide - The present invention provides materials and methods useful to treat various sGCα1-expressing cancers. Materials include peptides which interfere with sGCα1's pro-survival functions, thereby resulting in apoptosis of sGCα1-expressing cells. In addition, the present invention provides screening assays, diagnostic assays, methods to prognose, methods to treat, and kits. | 02-27-2014 |
20140088023 | sGCalpha1 Inhibiting Compositions, and Methods of Treatment of Cancers Therewith - The present invention provides materials and methods useful to treat various sGCα1-expressing cancers. Materials include peptides which interfere with sGCα1's pro-survival functions, thereby resulting in apoptosis of sGCα1-expressing cells. In addition, the present invention provides screening assays, diagnostic assays, methods to prognose, methods to treat, and kits. | 03-27-2014 |