| Entries |
| Document | Title | Date |
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| 20080238244 | Optimized Energy Conversion Device - A variable capacitance device including at least one first fixed electrode and a second electrode free to move with respect to the fixed electrode, each electrode including a body and protuberances projecting from at least one face of the body. Each electrode is arranged such that the faces of each electrode provided with the protuberances are facing each other, the distance separating the two faces facing each other being greater than the sum of the heights of a protuberance from the fixed electrode and a protuberance from the mobile electrode. The electrodes are capable of moving with respect to each other in two parallel planes along at least one main direction. | 10-02-2008 |
| 20080284276 | Coiled Transmission Line Pulse Generators - Methods and apparatus are provided for fabricating and constructing solid dielectric “Coiled Transmission Line” pulse generators in radial or axial coiled geometries. The pour and cure fabrication process enables a wide variety of geometries and form factors. The volume between the conductors is filled with liquid blends of polymers and dielectric powders; and then cured to form high field strength and high dielectric constant solid dielectric transmission lines that intrinsically produce ideal rectangular high voltage pulses. Voltage levels may be increased by Marx and/or Blumlein principles incorporating spark gap or, preferentially, solid state switches (such as optically triggered thyristors) which produce reliable, high repetition rate operation. Moreover, these pulse generators can be DC charged and do not require additional pulse forming circuitry, pulse forming lines, transformers, or an output switch. The apparatus accommodates a wide range of voltages, impedances, pulse durations, pulse repetition rates, and duty cycles. The resulting mobile or flight platform friendly cylindrical geometric configuration is much more compact, light-weight, and robust than conventional linear geometries, or pulse generators constructed from conventional components. Installing additional circuitry may accommodate optional pulse shape improvements. The Coiled Transmission Lines can also be connected in parallel to decrease the impedance, or in series to increase the pulse length. | 11-20-2008 |
| 20090058223 | Piezoelectric Ultracapacitor - Piezoelectric ultracapacitor is disclosed capable of converting the kinetic energy of ordinary motion into an electrical potential. The piezoelectric ultracapacitor of the present invention may be used in various contexts, including power generation, switching and control and memory. | 03-05-2009 |
| 20090085427 | ELECTRICAL POWER GENERATION FROM FLUID FLOW - A power generation system produces electrical power from the flow of a fluid, such as water. Particularly, the fluid flow may be driven by evaporation of the fluid. A conduit for conveying the fluid is defined through a substrate includes at least one opening for allowing evaporation of the fluid. A dielectric substance is disposed within the conduit and impelled through the conduit by the evaporation of the fluid. The dielectric substance has a permittivity different from the permittivity of the fluid. A variable capacitor has a first plate and a second plate separated by the conduit. As such, the capacitance of the variable capacitor varies as the fluid and the dielectric substance flow between the plates. A charge pump circuit is electrically connected to the variable capacitor to store charge generated by the variable capacitor into a storage capacitor. | 04-02-2009 |
| 20090273255 | ACTUATOR USING COMB-TOOTH - An actuator comprises a connection section having one end rotatably connected to a connection point (C | 11-05-2009 |
| 20090278420 | MEMS-BASED NANOPOSITIONERS AND NANOMANIPULATORS - A MEMS-based mano manipulator or nanopositioner is provided that can achieve both sub-nanometer resolution and millimeter force output. The nanomanipulator or nanopositioner comprises a linear amplification mechanism that minifies input displacements and amplifies input forces, microactuators that drive the amplification mechanism to generate forward and backward motion, and position sensors that measure the input displacement of the amplification mechanism. The position sensors obtain position feedback enabling precise closed-loop control during nanomanipulation. | 11-12-2009 |
| 20100194236 | Capacitive Electric Current Generator - A capacitive generator has a generator circuit (G) and a charge priming circuit (P) consisting of variable capacitors ( | 08-05-2010 |
| 20120112603 | ELECTROMECHANICAL TRANSDUCER AND METHOD OF FABRICATING THE SAME - There is provided an electromechanical transducer capable of improving yield and obtaining a cavity having a good internal flatness, and a method of fabricating the same. The electromechanical transducer is fabricated in such a manner that an SOI substrate | 05-10-2012 |
| 20120326557 | ACTUATOR - The present invention relates to an actuator including a supporting portion including a first electrode, a second electrode disposed opposite the first electrode, and a part of a planar electrolyte member disposed therebetween, and having terminals configured to apply a voltage between the first and second electrodes; a displacement portion; and an intermediate portion disposed between the supporting portion and the displacement portion and including a third electrode on the electrolyte member and a conductive connecting member. The third electrode includes linear members and a conductive material. The linear members have major axes thereof extending in a direction crossing a direction from the supporting portion toward the displacement portion. The third electrode has conduction paths through which a current flows in the crossing direction. The conductive connecting member is electrically connected to one of the first and second electrodes and electrically connects the conduction paths together. | 12-27-2012 |
| 20130313942 | ELECTRO-HYDRODYNAMIC SYSTEM - An electro-hydrodynamic system including an energy harvester and an adjustable member, wherein the energy harvester includes a charge source including: an injector configured to emit particles into a wind stream and an electrode configured to charge the particles to a first polarity and to generate a first electric field. The adjustable member supports the energy harvester, and is configured to control a distance between electrical ground and at least one component of the energy harvester. A method for controlling the electric field magnitude of an electro-hydrodynamic system including placing an energy harvester comprising a charge source at a distance away from electrical ground, the distance being an equilibrium distance; receiving a first measurement of a parameter indicative of electric field magnitude near the charge source; and in response to the first measurement surpassing a threshold, increasing the distance between the energy harvester and electrical ground. | 11-28-2013 |
| 20140015375 | Wind energy installation - A method for directly converting wind energy into electrical energy is provided. An air stream is ionized and then routed through the electrical field of a collection electrode providing an opposing field for the air ions. The ions are collected on a collection electrode. The electrical potential of the collection electrode is higher than the ionizer, and discharged. A counter-electrode in front of the collection electrode has an electrical potential higher than the collection electrode. Ionized air molecules overcome the electrical field emanating from the counter-electrode via wind power. An apparatus for carrying out the method is provided. An optional retaining electrode, located in front of the ionizer electrode, drives ionized air in the counter-electrode and collection electrode direction. The apparatus is expediently located in a flow channel, with inlet and outlet electrodes at respective ends. A plurality of flow channels combine to form a flow generation module. | 01-16-2014 |
| 20140055002 | VIBRATION POWER GENERATOR, ROTATING BODY AND COMMUNICATION DEVICE - A vibration power generator | 02-27-2014 |
| 20140077656 | GENERATION OF ELECTRICAL ENERGY IN A SKI OR SNOWBOARD - An implantable device having a power source is provided. The power source uses reverse electrowetting technology to generate a charge to power the implantable device. The power source includes a flexible, non-conductive substrate having a first side and a second side opposite the first side with a channel between the first and second sides. Electrodes are arranged about the channel in a predefined pattern. A liquid is contained in the channel. The liquid includes a dielectric liquid and a conductive liquid that do not mix. The electric change is generated by moving the liquid back and forth across the electrodes. The force to pump or move the liquid is provided by organic means, such as, for example, the change in blood pressure between systolic and diastolic, the expansion and contraction of an organ, or the movement of a muscle. | 03-20-2014 |
| 20140103779 | MICROELECTROMECHANICAL COMPONENT AND METHOD FOR PRODUCING A MICROELECTROMECHANICAL COMPONENT - A microelectromechanical component and a method for producing a microelectromechanical component includes a charge-storing layer that has improved long-term stability. The charge-storing layer is completely enclosed by dielectric layers such that there is a high potential barrier between the charge-storing layer and the dielectric layers. During normal operation, it is not possible to overcome this high potential barrier and, as a result, the stored charge carriers are maintained over a very long period of time. | 04-17-2014 |
| 20140117809 | CMUT Array - Novel CMUT architectures are provided permitting independent addressability of both top and bottom CMUT electrodes. CMUT top electrodes are connected in strips along the x-direction, while CMUT bottom electrodes are connected in strips along the y-direction. In an embodiment, 3D imaging can be performed with an N×N 2D array using only N transmit channels and N receive channels. | 05-01-2014 |
| 20140246949 | MEMS DEVICE, ELECTRONIC DEVICE, ELECTRONIC APPARATUS, AND MOVING OBJECT - A MEMS device includes a substrate and a vibrator. The vibrator includes a first conductive layer and a second conductive layer. The first conductive layer is arranged on a principal plane of the substrate and includes a first fixed electrode. The second conductive layer includes an upper electrode and a support electrode. The upper electrode is spaced apart from the first fixed electrode, has an area overlapping the first fixed electrode. The support electrode connects a second fixed electrode connected to the principal plane with one edge of the upper electrode. The upper electrode includes a plurality of driving electrodes divided by a slit-shaped notch extending in a direction from a vibration tip portion to a vibration base portion where the vibration base portion is the one edge of the upper electrode and the vibration tip portion is the other edge. | 09-04-2014 |
| 20140361661 | TEMPERATURE COMPENSATION FOR MEMS DEVICES - A microelectromechanical system (MEMS) device includes a temperature compensating structure including a first beam suspended from a substrate and a second beam suspended from the substrate. The first beam is formed from a first material having a first Young's modulus temperature coefficient. The second beam is formed from a second material having a second Young's modulus temperature coefficient. The body may include a routing spring suspended from the substrate. The routing spring may be coupled to the first beam and the second beam. The routing spring may be formed from the second material. The first beam and the second beam may have lower spring compliance than the routing spring. The MEMS device may be a resonator and the temperature compensating structure may have dimensions and a location such that the temperature compensation structure modifies a temperature coefficient of frequency of the resonator independent of a mode shape of the resonator. | 12-11-2014 |
| 20150048716 | ELECTROSTATIC INDUCTION GENERATOR FOR CREATING HIGH VOLTAGE DIRECT CURRENT - Systems and methods for generating a high voltage direct current using electric-field generators are disclosed. The electric field generator can comprise a rotor member, rotor poles coupled to the rotor member, stator poles corresponding to the rotor poles, and a dielectric medium positioned between the corresponding stator and rotor poles. The method can comprise applying an electric field between corresponding stator and rotor poles, receiving a mechanical energy input causing the rotor member to rotate, changing an alignment of the corresponding stator and rotor poles as a result of the rotation of the rotor member, increasing the voltage of the electric field between the corresponding stator and rotor poles as a result of the alignment change of the corresponding stator and rotor poles, and discharging the electric field to place a charge on a DC bus when the voltage of the electric field reaches a predetermined level. | 02-19-2015 |
