Patent application number | Description | Published |
20100269788 | FUEL INJECTION VALVE - A fuel injection valve is characterized in that a multi-fan stream nozzle is shaped, downstream from a fixed valve seat that is provided on the inner wall of a valve sleeve, directly into the valve sleeve itself. The multi-fan stream nozzle is integrated directly in the region of a bulge formed at the downstream end of the valve sleeve. The multi-fan stream nozzle, serving as an atomization device, possesses a plurality of slit-shaped spray openings, so that from the sheets of liquid emerging from the spray openings, sheet packets are formed in which individual sheets of liquid extend divergently from one another. Introduction of the spray openings into the deep-drawn valve sleeve is effected using ultrashort-pulse laser technology. The fuel injection valve is suitable in particular for use in fuel injection systems of mixture-compressing spark-ignited internal combustion engines. | 10-28-2010 |
20110177286 | COMPONENT COMPOSITE AND METHOD FOR MANUFACTURING A COMPONENT COMPOSITE - A component composite, in particular for motor vehicle applications, include a first component having a first contact surface and at least one second component having a second contact surface, which presses against the first contact surface, the first contact surface having a surface structure, which is produced using electromagnetic radiation. The surface structure has a microstructure overlaid by a nanostructure. | 07-21-2011 |
20120207974 | COMPONENT COMPOSITE AND METHOD FOR MANUFACTURING A COMPONENT COMPOSITE - A component composite, in particular for motor vehicle applications, including a first component having a first contact surface, the first contact surface having a surface structure which has a microstructure overlaid by a nanostructure, and including at least one second component having a second contact surface. A medium, in particular an adhesive layer, is situated for integral connection between the two contact surfaces of the two components. | 08-16-2012 |
20120325939 | POLE BODY FOR SOLENOID VALVES PRODUCED BY MULTI-COMPONENT MIM - An injector having a valve opening, a cylindrical pipe, a valve opening, a valve needle situated inside the pipe in the radial direction and guided to allow axial displacement; a solenoid coil situated outside the pipe in the radial direction; a solenoid core disposed inside the pipe in the radial direction; and a magnetic armature situated inside the pipe, opposite the solenoid core in the radial direction, the magnetic armature being disposed on the valve needle. The pipe is a magnetic first material in a first pipe region and a third pipe region, the first region facing the valve opening in the axial direction, and the third pipe region facing away from the valve opening in the axial direction. The pipe is a non-magnetic second material in a second pipe region, the second pipe region being between the first pipe region and the third pipe region in the axial direction. | 12-27-2012 |
20130306762 | FUEL INJECTION VALVE - A fuel injector for fuel-injection systems of internal combustion engines includes an electromagnetic actuating element having a solenoid coil, a fixed core, an outer magnetic circuit component, and a movable armature for actuating a valve-closure element, which cooperates with a valve-seat surface provided on a valve-seat element. The injector is characterized by its extremely small outer dimensions. The flexibility in the installation of fuel injectors of varying valve lengths, which is made possible very simply due to the special modular design, is significantly increased in this manner. An optimized dimensioning of the electromagnetic circuit allows for a DFR (dynamic flow range) greater than 17, the DFR being defined as the quotient of q | 11-21-2013 |
20140008468 | FUEL INJECTOR - A fuel injector for fuel injection systems of internal combustion engines. The valve includes an electromagnetic actuating element which has a solenoid, a solid core, an external magnetic circuit component, and a movable armature for activating a valve closing member which cooperates with a valve seat surface provided on a valve seat member. The valve has extremely small outer dimensions. By optimizing the dimensions of the electromagnetic circuit, the outer diameter of the external magnetic circuit component in the peripheral area of the solenoid is 10.5 mm01-09-2014 | |
20140027545 | FUEL INJECTION VALVE - A fuel injection valve for fuel injection systems of internal combustion engines. The valve includes an electromagnetic actuating element having a solenoid, a solid core, an outer magnetic circuit component, and a movable armature for actuating a valve closing element that works together with a valve seat surface provided on a valve seat element. The valve has extremely small outer dimensions. Due to an optimized dimensioning of the electromagnetic circuit, the outer diameter of the outer magnetic circuit component in the circumferential area of the solenoid D | 01-30-2014 |
Patent application number | Description | Published |
20090302390 | METHOD OF MANUFACTURING SEMICONDUCTOR DEVICE WITH DIFFERENT METALLIC GATES - A method is described for forming gate structures with different metals on a single substrate. A thin semiconductor cap ( | 12-10-2009 |
20100006945 | FINFET DRIVE STRENGTH MODIFICATION - A method and circuit in which the drive strength of a FinFET transistor can be selectively modified, and in particular can be selectively reduced, by omitting the LDD extension formation in the source and/or in the drain of the FinFET. | 01-14-2010 |
20110079852 | METHOD OF FABRICATING A SEMICONDUCTOR DEVICE - The present disclosure provides a semiconductor device and method of fabricating a semiconductor device. In an embodiment, the semiconductor device is a finFET device. In an embodiment, the semiconductor device is a silicon on insulator (SOI) device. A method of fabricating the semiconductor device includes providing a substrate, forming an oxide layer on the substrate, forming a fin on a portion of the oxide layer, forming a high k dielectric layer on a portion of the oxide layer and on a portion of the fin, forming a tuned, stressed metal gate on the dielectric layer, and forming a poly-cap on the metal gate. The method of fabrication provided may allow use of SOI substrate or bulk silicon substrates. | 04-07-2011 |
20110080224 | RESONATOR - A resonator having an effective spring constant (k | 04-07-2011 |
20110127625 | RESONATOR - A resonator comprising a beam formed from a first material having a first Young's modulus and a first temperature coefficient of the first Young's modulus, and a second material having a second Young's modulus and a second temperature coefficient of the second Young's modulus, a sign of the second temperature coefficient being opposite to a sign of the first temperature coefficient at least within operating conditions of the resonator, wherein the ratio of the cross sectional area of the first material to the cross sectional area of the second material varies along the length of the beam, the cross sectional areas being measured substantially perpendicularly to the beam. | 06-02-2011 |
20110304405 | MEMS RESONATORS - A crystalline semiconductor resonator device comprises two matched resonators which are aligned differently with respect to the crystal structure of the crystalline semiconductor. The resonators each comprise a portion of a material having a different temperature dependency of the Young's modulus to the temperature dependency of the Young's modulus of the crystalline semiconductor material. In this way, the suspension springs for the resonators have different properties, which influence the resonant frequency. The resonant frequency ratios between the first and second resonators at a calibration temperature and an operation temperature are measured. A frequency of one (or both) of the resonators at the operation temperature can then be derived which takes into account the temperature dependency of the one of the resonators. | 12-15-2011 |
20120248536 | SEMIDONDUCTOR DEVICE HAVING STRESSED METAL GATE AND METHODS OF MANUFACTURING SAME - The present disclosure provides various embodiments of a semiconductor device and method of fabricating the semiconductor device. An exemplary semiconductor device includes a semiconductor substrate and a gate stack disposed over the semiconductor substrate. The gate stack includes a gate dielectric layer disposed over the semiconductor substrate and a tuned, stressed metal gate layer disposed over the gate dielectric layer. The tuned, stressed metal gate layer includes a stress that distributes strain differently to portions of the semiconductor substrate having different surface characteristics. In an example, the gate stack is disposed over a portion of a fin of the semiconductor substrate, and the fin has a varying thickness, providing a fin with a roughened surface. The tuned, stressed metal gate layer includes a stress that distributes strain differently to portions of the fin having different thicknesses. | 10-04-2012 |
20130026567 | FINFET DRIVE STRENGTH MODIFICATION - A method and circuit in which the drive strength of a FinFET transistor can be selectively modified, and in particular can be selectively reduced, by omitting the LDD extension formation in the source and/or in the drain of the FinFET. | 01-31-2013 |
20140042563 | INTEGRATED CIRCUIT WITH MEMS ELEMENT AND MANUFACTURING METHOD THEREOF - An integrated circuit comprising a MEMS (microelectromechanical system) element in a plane of the integrated circuit, the MEMS element being suspended in a cavity over a substrate, said cavity including a first cavity region in said plane spatially separating an edge of the MEMS element from a wall section, said edge being arranged to be displaced relative to the wall section; and a second cavity region in said plane forming part of a fluid path further including the first cavity region, said fluid path defining a first volume; and a third cavity region in said plane defining a second volume in fluid connection with the second cavity region, wherein the maximum width of the second cavity region is larger than the maximum width of the third cavity region, the second and third cavity regions having maximum widths that are larger than the maximum width of the first cavity region. | 02-13-2014 |
20140176246 | RESONATOR - A resonator has a main resonator body and a secondary resonator structure. The resonator body has a desired mode of vibration of the resonator alone, and a parasitic mode of vibration, wherein the parasitic mode comprises vibration of the resonator body and the secondary resonator structure as a composite body. In this way, unwanted vibrational modes are quenched by the second suspended body. | 06-26-2014 |
Patent application number | Description | Published |
20100291156 | COMPOSITION FOR TREATING LUNG CANCER, PARTICULARLY OF NON-SMALL LUNG CANCERS (NSCLC) - The present invention relates to an active (immunostimulatory) composition comprising at least one RNA, preferably a mRNA, encoding at least two (preferably different) antigens capable of eliciting an (adaptive) immune response in a mammal. The invention furthermore relates to a vaccine comprising said active (immunostimulatory) composition, and to the use of said active (immunostimulatory) composition (for the preparation of a vaccine) and/or of the vaccine for eliciting an (adaptive) immune response for the treatment of lung cancer, particularly of non-small cell lung cancers (NSCLC), preferably selected from the three main sub-types squamous cell lung carcinoma, adenocarcinoma and large cell lung carcinoma, or of disorders related thereto. Finally, the invention relates to kits, particularly to kits of parts, containing the active (immunostimulatory) composition and/or the vaccine. | 11-18-2010 |
20130202645 | COMPOSITION FOR TREATING LUNG CANCER, PARTICULARLY OF NON-SMALL LUNG CANCERS (NSCLC) - The present invention relates to an active (immunostimulatory) composition comprising at least one RNA, preferably a mRNA, encoding at least two (preferably different) antigens capable of eliciting an (adaptive) immune response in a mammal. The invention furthermore relates to a vaccine comprising said active (immunostimulatory) composition, and to the use of said active (immunostimulatory) composition (for the preparation of a vaccine) and/or of the vaccine for eliciting an (adaptive) immune response for the treatment of lung cancer, particularly of non-small cell lung cancers (NSCLC), preferably selected from the three main sub-types squamous cell lung carcinoma, adenocarcinoma and large cell lung carcinoma, or of disorders related thereto. Finally, the invention relates to kits, particularly to kits of parts, containing the active (immunostimulatory) composition and/or the vaccine. | 08-08-2013 |
20130251742 | COMPOSITION FOR TREATING PROSTATE CANCER (PCa) - The present invention relates to an active (immunostimulatory) composition comprising at least one RNA, preferably an mRNA, encoding at least two (preferably different) antigens capable of eliciting an (adaptive) immune response in a mammal wherein the antigens are selected from the group consisting of PSA (Prostate-Specific Antigen), PSMA (Prostate-Specific Membrane Antigen), PSCA (Prostate Stem Cell Antigen), and STEAP (Six Transmembrane Epithelial Antigen of the Prostate). The invention furthermore relates to a vaccine comprising said active (immunostimulatory) composition, and to the use of said active (immunostimulatory) composition (for the preparation of a vaccine) and/or of the vaccine for eliciting an (adaptive) immune response for the treatment of prostate cancer (PCa), preferably of neoadjuvant and/or hormone-refractory prostate cancers, and diseases or disorders related thereto. Finally, the invention relates to kits, particularly to kits of parts, containing the active (immunostimulatory) composition and/or the vaccine. | 09-26-2013 |