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Fernandez, Madrid
Alfredo Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20080316717 | SIM Card Handle - An improved smart card is provided, which is adapted for easy extraction from a smart card socket, or example, in a mobile telephone. Facilitating the easy extraction is a structural deviation in the plane of at least one of the sides of the smart card to enable an increase of an external force on the smart card to thereby cause the extraction of the smart card from a socket. The structural deviation may be a change in the thickness of the smart card or a roughened surface in the smart card's enclosure. The smart card may be a SIM card. Also provided is a method of extracting a smart card from a socket, which method may include the steps of engaging a structural deviation in the plane of at least one side of the smart card's enclosure and applying a force to the engaged structural deviation. | 12-25-2008 |
Antonio Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20110225318 | Network Scheduling for Energy Efficiency - A network comprising a plurality of network devices is configured to implement scheduling for energy efficiency. In one aspect, a set of network devices interconnected in a line within a network is identified, and a common frame size is established. For each of the network devices of the line, active and inactive periods for that network device are scheduled in a corresponding frame having the common frame size, with the frames in the respective network devices of the line being time shifted relative to one another by designated offsets. For each of one or more of the active periods of each of the network devices of the line, received packets are scheduled for processing in that network device. | 09-15-2011 |
Daniel Pelaez Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20090292406 | METHODS AND SYSTEMS FOR REDUCING THE PHENOMENON OF STRUCTURAL COUPLING IN THE CONTROL SYSTEM OF AN IN-FLIGHT REFUELLING BOOM - A method for controlling a boom ( | 11-26-2009 |
Diego Alonso Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20100250205 | METHOD AND SYSTEM FOR A QUICK CALCULATION OF AERODYNAMIC FORCES ON AN AIRCRAFT IN TRANSONIC CONDITIONS - A computer-aided method suitable for assisting in the design of an aircraft by providing relevant dimensioning values corresponding to an aircraft component in transonic conditions inside a predefined parameter space by means of a reconstruction of the CFD computations for an initial group of points in the parameter space using a POD reduced-order model, comprising the following steps: a) Decomposing for each flow variable the complete flow field into a smooth field and a shock wave field in each of said computations; b) Obtaining the POD modes associated with the smooth field and the shock wave field considering all said computations; c) Obtaining the POD coefficients using a genetic algorithm (GA) that minimizes a fitness function; d) Calculating said dimensioning values for whatever combination of values of said parameters using the reduced-order model. The invention also refers to a system able to perform the method. | 09-30-2010 |
| 20100250212 | COMPUTER-AIDED METHOD FOR A COST-OPTIMIZED CALCULATION OF VARIABLE DISTRIBUTIONS OVER AN AERODYNAMIC SURFACE - A computer-aided method suitable for assisting in the design of an aircraft by providing a variable distribution V over an aircraft surface inside a predefined parameter space by means of a reconstruction of the results obtained through computations for an initial group of points in the parameter space using a CFD model comprising in each of said computations the following steps: a) Selecting relevant shock wave structures being defined by its thickness δ | 09-30-2010 |
Fernando J. Brunetti Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20090171469 | INTELLIGENT ORTHOSIS - An orthotic frame has proximal and distal frame members joined by a knee joint, and a foot support joined by an ankle joint to a distal end of the distal frame. A knee actuator connected between the proximal and distal frame members has a selective stiffness allowing selection of a relatively rigid stiffness during stance and a relatively flexible stiffness during swing. The stiffness of the knee actuator is selected according to the gait cycle, either mechanically according to dorsal flexion of the ankle joint or electronically according to gait cycle phases recognized based on read sensor data. An ambulatory unit gathers data from sensors located on the orthotic frame. Sensor data may be provided to a base unit for diagnostic and biomechanical evaluation, or evaluated by the ambulatory unit to control active components of the orthotic frame according to the recognized gait cycle phases for functional compensation. | 07-02-2009 |
Ignacio Vic Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20080200713 | Process for Manufacturing Dimethyl Carbonate - The present invention provides methods of forming dialkyl carbonate wherein catalyst buildup in the reaction equipment, the separation equipment, and transfer lines there between is reduced and even eliminated. In one embodiment, the method includes introducing alkanol, carbon monoxide, oxygen, and a catalyst to a reactor having a gaseous head space and a liquid body space. The reactor is operated under conditions to form dialkyl carbonate and water. A product stream containing dialkyl carbonate, water, and residual reactants is removed from the head space of the reactor and introduced to a cyclone with a flushing stream. A liquid bottom stream is captured from the cyclone and introduced to the reactor. The gaseous top stream contains product dialkyl carbonate. | 08-21-2008 |
| 20080200714 | Process for Manufacturing Dimethyl Carbonate - A method of forming a dialkyl carbonate stream, includes obtaining a byproduct stream from a diaryl carbonate formation reaction that has alkanol, residual dialkyl carbonate, and residual aromatic compound. This byproduct stream is introduced to a distillation column to produce an alkanol tops stream and a first dialkyl carbonate bottoms stream. The alkanol tops stream is reacted with oxygen, carbon monoxide, and catalyst to form a second dialkyl carbonate stream that is introduced to the distillation column. The alkanol tops stream from the column contains alkanol, dialkyl carbonate, and less than 20 ppm aromatic compound. The first dialkyl carbonate bottoms stream from the column contains dialkyl carbonate, water, aromatic compound, and less than 2,000 ppm alkanol and is introduced to a water separation device to produce a product dialkyl carbonate stream and a water stream. | 08-21-2008 |
| 20080287640 | PROCESS FOR THE PRODUCTION OF POLYCARBONATE USING AN ESTER SUBSTITUTED DIARYL CARBONATE - A method of preparing polycarbonate includes a steps of providing a melt reaction mixture and allowing the melt reaction mixture to react to build molecular weight, thereby preparing the polycarbonate. The melt reaction mixture has a dihydroxy compound, an ester substituted diaryl carbonate mixture, and a melt transesterification catalyst where the ester substituted diaryl carbonate mixture may contain acid-substituted phenol. The method also includes the step of adjusting the molar ratio of acid-substituted phenol, if present, to melt transesterification catalyst (acid-substituted phenol/catalyst) in the melt reaction mixture to an amount of less than 10. | 11-20-2008 |
Juan M. Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20080216893 | Process for Manufacturing Photovoltaic Cells - A process for making a photovoltaic cell comprising forming a first layer on a front surface of a semiconductor wafer, the wafer comprising a first dopant and the first layer comprising a dopant of a conductivity type opposite the first dopant; depositing a surface coating on the front surface over the first layer; forming grooves in the front surface after depositing the surface coating thereon; doping the grooves with a dopant having a conductivity opposite the first dopant; treating a back surface of the wafer to remove at least substantially all dopant having a conductivity type opposite the first dopant; forming a back surface field; forming a back electrical contact over the back surface; and adding an electrically conductive material to the grooves to form a front electrical contact. | 09-11-2008 |
| 20100193016 | Photovoltaic Cell and Production Thereof - A process for producing a photovoltaic device having a substrate comprising silicon doped with a first dopant, the process comprising the steps of: a. forming a first layer over a front surface of the substrate, the first layer comprising a second dopant of a conductivity type opposite the first dopant; b. forming a second surface coating over the first layer; c. forming elongate grooves reaching or entering the silicon substrate, d. forming a third layer within the grooves, the layer comprising a third dopant of a conductivity type opposite to the first dopant; e. forming a contact finger system which intersects with the grooves to provide an electrically conducting front contact; and f. forming a second contact. | 08-05-2010 |
Julian Sanchez Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20080268208 | Complex geometries made of composite material and forming process for same - The invention proposes a forming process for forming geometrically complex laminates made of composite material which allows obtaining very complex folded geometries, reducing the area of influence of the formed areas and making its effect local, handling the geometry of the laminate near the area to be formed, replacing the formed geometries with folded geometries, this way forcing the area of influence of the forming to be local, such that the length of the reinforcing fibers affected by said forming is minimal. The present invention also relates to complex geometries of laminates made of composite material obtained by means of the previous forming process. | 10-30-2008 |
| 20080283668 | Composite material structure for aircraft fuselage and process for manufacturing it - The present invention provides a closed composite material structure for aircraft fuselage shaped on a male jig from which it can be separated in a certain direction, said structure comprising a single outer panel and a plurality of inner longitudinal stiffeners integrated in said panel, such that the expansion coefficient of the male jig is greater than the expansion coefficient of the composite material of the structure, thus being able to remove the already manufactured structure, formed by the panel and the integrated inner stiffeners, in a single operation. The present invention further provides a process for manufacturing such a closed structure. | 11-20-2008 |
| 20100154608 | Method and device for obtaining longitudinal pieces - In the state of the art, a composite prepreg lamination ( | 06-24-2010 |
| 20110186209 | COMPLEX GEOMETRIES MADE OF COMPOSITE MATERIAL AND FORMING PROCESS FOR SAME - The invention proposes a forming process for forming geometrically complex laminates made of composite material which allows obtaining very complex folded geometries, reducing the area of influence of the formed areas and making its effect local, handling the geometry of the laminate near the area to he formed, replacing the formed geometries with folded geometries, this way forcing the area of influence of the forming to be local, such that the length of the reinforcing fibers affected by said forming is minimal. The present invention also relates to complex geometries of laminates made of composite material obtained by means of the previous forming process. | 08-04-2011 |
Ma Angeles Munoz Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20100034789 | Novel carbosilane dendrimers, preparation method thereof and use of same - Novel carbosilane dendrimers, their preparation and their uses. The dendrimers of the invention have secondary, tertiary and quaternary amino groups at their branch ends. Their possible uses include vehicles for carrying anionic-charged molecules in the blood, such as nucleic acids, among them ODN and RNAi, and other anionic drugs with which they have the capacity of interacting, protecting them from interaction with plasma protein and/or increasing their penetration rate in target cells. In the cases where the bond is long-lasting, the dendrimers of the invention can be used to fix anionic molecules to surfaces. Their uses also include their administration as active ingredients to prevent or treat diseases caused by micro-organisms with whose structure and/or life cycle they interfere. | 02-11-2010 |
Maria Carmen Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20080269284 | Compounds and Methods for Treating Dyslipidemia - Compounds of Formula I wherein n, q, Y, R | 10-30-2008 |
Patricia Tabares Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20080202680 | Process for manufacturing composite material structures with collapsible tooling - A process for manufacturing stiffened structures ( | 08-28-2008 |
| 20090294040 | Process and jig for manufacturing composite material structures - The invention relates to a process for manufacturing stiffened structures ( | 12-03-2009 |
Purificacion Rodriguez Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20080224046 | Method of Treating Non-Refrigerated, Spectrally-Selective Lead Selenide Infrared Detectors - The invention relates to a method of processing non-refrigerated lead selenide infrared detectors, consisting in: 1) selecting the substrate and preparing same; 2) delineating and depositing multilayer interference filters; and 3) treating polycrystalline lead selenide infrared detectors on the interference filters, comprising the following steps, namely 3a) metal deposition, 3b) delineation of the metal deposit, 3c) delineation of the sensor, 3d) PbSe deposition by means of thermal evaporation, 3f) processing of sensor, 3g) thermal treatment in order to sensitise the active material, and 3h) deposition of a passivator layer on the active material. The inventive method is unique in that it can be used to treat differently-shaped non-refrigerated infrared detectors on the same substrate, including discrete elements, multielements, linear matrices, two-dimensional matrices, etc., with the responses of each being modified by design by the corresponding interference filter. The invention is suitable for low-cost infrared detectors that are used for process control, gas analyses, temperature measurements, military applications, etc. | 09-18-2008 |
Silvia Santiago Fernandez, Madrid ES
| Patent application number | Description | Published |
|---|---|---|
| 20100144998 | PROCESS FOR FINE PURIFICATION OF 1-BUTENIC STREAMS - The invention relates to a process for preparing 1-butenic fractions having less than 2000 ppm of isobutene in relation to 1-butene from technical mixtures of C | 06-10-2010 |
| 20110034739 | CATALYST AND PROCESS FOR PREPARING SATURATED ETHERS BY HYDROGENATING UNSATURATED ETHERS - The invention relates to a supported catalyst based on palladium-γ-alumina, which is characterized in that the catalyst support material contains 1 to 1000 ppm by mass of sodium oxide and has a specific pore volume of 0.4 to 0.9 ml/g and a BET surface area of 150 to 350 m | 02-10-2011 |