Abstract: A semiconductor device includes a semiconductor substrate having an upper surface, a lower surface, a first side and a second side, wherein the lower surface has a slope so that the first side is thicker than the second side, and a circuit pattern including a bonding pad on the upper surface of the semiconductor substrate.

Abstract: A package structure having an MEMS element is provided, which includes: a protection layer having openings formed therein; conductors formed in the openings, respectively; conductive pads formed on the protection layer and the conductors; a MEMS chip disposed on the conductive pads; and an encapsulant formed on the protection layer for encapsulating the MEMS chip. By disposing the MEMS chip directly on the protection layer to dispense with the need for a carrier, such as a wafer or a circuit board that would undesirably add to the thickness, the present invention reduces the overall thickness of the package to thereby achieve miniaturization.

Abstract: A structure and method for monitoring interlevel dielectric stress damage. The structure includes a monitor solder bump and normal solder bumps; a set of stacked interlevel dielectric layers between the substrate and the monitor solder bump and the normal solder bumps, one or more ultra-low K dielectric layers comprising an ultra-low K material having a dielectric constant of 2.4 or less; a monitor structure in a region directly under the monitor solder bump in the ultra-low K dielectric layers and wherein the conductor density in at least one ultra-low K dielectric layer in the region directly under the monitor solder bumps is less than a specified minimum density and the conductor density in corresponding regions of the ultra-low K dielectric layers directly under normal solder bumps is greater than the specified minimum density.

Abstract: A copper interconnect includes a copper layer formed in a dielectric layer. A glue layer is formed between the copper layer and the dielectric layer. A barrier layer is formed at the boundary between the glue layer and the dielectric layer. The barrier layer is a metal oxide.

Abstract: A copper interconnect includes a copper layer formed in a dielectric layer, having a first portion and a second portion. A first barrier layer is formed between the first portion of the copper layer and the dielectric layer. A second barrier layer is formed at the boundary between the second portion of the copper layer and the dielectric layer. The first barrier layer is a dielectric layer, and the second barrier layer is a metal oxide layer.

Abstract: There is provided a film forming method for forming a film on a target object having thereon an insulating layer 1 that is made of a low-k film and having a recess 2 whose bottom surface is exposed to a metallic layer 3. The film forming method includes forming a first-metal-containing film containing a first metal such as ruthenium (Ru); and after forming the first-metal-containing film, forming a second-metal-containing film containing a second metal such as a manganese (Mn) having a barrier property against a filling metal to be filled in the recess.

Abstract: A semiconductor storage device comprises a peripheral circuit region including a wiring layer having wiring patterns, a cavity formed in a non-wiring region between the wiring patterns of the wiring layer, and an insulating film forming at least a part of a wall defining the cavity, and a memory cell region.

Abstract: A packaged power field effect transistor device includes a power field effect transistor die, a DBA substrate, a clip, a wire bond, leads, and an amount of plastic encapsulant. The top of the DBA has a plurality of metal plate islands. A sintered silver feature is disposed on one of the islands. A silvered backside of the die is directly bonded to the sintered silver structure of the DBA. The upper surface of the die includes a first aluminum pad (a source pad) and a second aluminum pad (a gate pad). A sintered silver structure is disposed on the first aluminum pad, but there is no sintered silver structure disposed on the second aluminum pad. A high current clip is attached via soft solder to the sintered silver structure on the first aluminum pad (the source pad). A bond wire is ultrasonically welded to the second aluminum pad (gate pad).

Abstract: A bonding structure and a copper bonding wire for semiconductor device include a ball-bonded portion formed by bonding to the aluminum electrode a ball formed on a front end of the copper bonding wire. After being heated at any temperature between 130° C. and 200° C., the ball-bonded portion exhibits a relative compound ratio R1 of 40-100%, the relative compound ratio R1 being a ratio of a thickness of a Cu—Al intermetallic compound to thicknesses of intermetallic compounds that are composed of Cu and Al and formed on a cross-sectional surface of the ball-bonded portion.

Abstract: A semiconductor package including a semiconductor chip; a base member on which the semiconductor chip is mounted; a plurality of leads formed on the base member, the leads including inner ends electrically connected to the semiconductor chip and outer ends; and an index for identifying locations of specific leads.

Abstract: An interconnect assembly for an embedded chip package includes a dielectric layer, first metal layer comprising upper contact pads, second metal layer comprising lower contact pads, and metalized connections formed through the dielectric layer and in contact with the upper and lower contact pads to form electrical connections therebetween. A first surface of the upper contact pads is affixed to a top surface of the dielectric layer and a first surface of the lower contact pads is affixed to a bottom surface of the dielectric layer. An input/output (I/O) of a first side of the interconnect assembly is formed on a surface of the lower contact pads that is opposite the first surface of the lower contact pads, and an I/O of a second side of the interconnect assembly is formed on a surface of the upper contact pads that is opposite the first surface of the upper contact pads.

Abstract: The present disclosure provides a system and method for relieving stress and providing improved heat management in a 3D chip stack of a multichip package. A stress relief apparatus is provided to allow the chip stack to adjust in response to pressure, thereby relieving stress applied to the chip stack. Additionally, improved heat management is provided such that the chip stack adjusts in response to thermal energy generated within the chip stack to remove heat from between chips of the stack, thereby allowing the chips to operate as desired without compromising the performance of the chip stack.

Abstract: A Three-Dimensional Structure (3DS) Memory allows for physical separation of the memory circuits and the control logic circuit onto different layers such that each layer may be separately optimized. One control logic circuit suffices for several memory circuits, reducing cost. Fabrication of 3DS memory involves thinning of the memory circuit to less than 50 ?m in thickness and bonding the circuit to a circuit stack while still in wafer substrate form. Fine-grain high density inter-layer vertical bus connections are used. The 3DS memory manufacturing method enables several performance and physical size efficiencies, and is implemented with established semiconductor processing techniques.

Abstract: A package and method for packaging a semiconductor device formed in a surface portion of a semiconductor wafer. The package includes: a dielectric layer disposed on the surface portion of the semiconductor wafer having a device exposing opening to expose one of the devices and an electrical contacts pad opening to expose an electrical contact pad; and a porous material in the device exposing opening over said one of the devices.

Abstract: A redistribution pattern is formed on active surfaces of electronic components while still in wafer form. The redistribution pattern routes bond pads of the electronic components to redistribution pattern terminals on the active surfaces of the electronic components. The bond pads are routed to the redistribution pattern terminals while still in wafer form, which is a low cost and high throughput process, i.e., very efficient process.

Abstract: Embodiments include but are not limited to apparatuses and systems including semiconductor packages, e.g. memory packages, including a die and an encapsulant material formed over the die, and at least one topological feature formed on an external surface of the encapsulant material, and configured to resist out-of-plane deformation of the package. Other embodiments may be described and claimed.

Abstract: A semiconductor package including an internal package including at least one semiconductor chip sealed with an internal seal, an external substrate on which the internal package is mounted, and an external seal sealing the internal package is provided. Also provided is a method of manufacturing the semiconductor package including forming an internal package including at least one semiconductor chip sealed with an internal seal, mounting the internal package on an external substrate, and sealing the internal package with an external seal. The internal seal and the external seal have different Young's moduli, for example, a Young's modulus of the internal seal is smaller than a Young's modulus of the external seal. Accordingly, the semiconductor package is less susceptible to warpage and can be handled with relative ease in subsequent semiconductor package processes.

Abstract: An electromagnetic, continuously variable transmission power split turbo compound includes a turbo compound turbine driven by exhaust gases from an internal combustion engine, and a power split device comprising a magnetic gear arrangement. The magnetic gear arrangement includes a high speed rotor comprising a first quantity of permanent magnets, a low speed rotor comprising a second quantity of permanent magnets, and a plural pole rotor between the high speed rotor and the low speed rotor. A first rotor of the high speed rotor, the low speed rotor, and the plural pole rotor includes a mechanical input drive adapted to be driven by the turbine. A second rotor of the high speed rotor, the low speed rotor, and the plural pole rotor includes a mechanical output drive. A third rotor of the high speed rotor, the low speed rotor, and the plural pole rotor is unconnected to a mechanical drive and includes a controlling rotor for controlling a ratio of input drive angular velocity to output drive angular velocity.

Abstract: An engine apparatus and method for operating same is disclosed. The engine generates electrical energy from phase changes of two different mixtures within chambers of the engine. Thermoelectric generators are preferably utilized to generate electrical energy from thermo differentials within the engine created by phase changes during engine operation. The engine may additionally be operated to perform mechanical based work.

Abstract: A generator for providing electric power. The generator includes an engine associated with an alternator. Rotation of the engine causes the alternator to generate an AC source voltage that is fed to at least one analog output receptacle. The generator further includes an inverter connected to receive the AC source voltage and generate a digital AC output voltage having a constant voltage value and a constant frequency. The inverter allows the engine to operate at less than full speed when an electric load is drawing a relatively low amount of power from the generator. The analog receptacle allows larger electric loads to be connected to the generator where the electric loads cannot be supported by the digital AC output voltage.

Abstract: When electric generators operate in parallel, field current control operations thereof are synchronized thereby to equalize load balance therebetween. A first power generation control device connected to a main electric generator and a second power generation control device connected to a subordinate electric generator are each provided with an external sensing terminal that detects an external voltage of each electric generator to which itself belongs, an output sensing terminal that detects a power generation voltage generated by each electric generator itself, and the external output terminal that outputs a signal synchronized with a field current control signal for each field coil of each electric generator. When the plurality of electric generators are caused to drive at the same time, the external output terminal of the first power generation control device and the external sensing terminal of the second power generation control device are connected to each other.

Abstract: A power equipment apparatus includes an engine, a starter switch, a battery, a flywheel assembly, a power regulator, and a controller. The engine includes a crankshaft. The starter switch is configured for selective actuation by an operator. The flywheel assembly comprises a rotor and a stator. The power regulator is coupled with each of the battery and the stator. The power regulator is configured to regulate power transfer between the battery and the stator in response to a control signal. The controller is coupled with each of the battery, the starter switch, and the power regulator. The controller is configured to generate the control signal.

Abstract: The invention is directed to a single moored offshore marine turbine assembly having a central control vessel which includes a main vessel tethered to a control buoy. The main vessel having a first cap, a corresponding second cap and a tubular shell positioned between both the first cap and second cap. The tubular shell contains one or more vertical partitions to assist in ballasting. The control buoy includes a compressor and an air conduit which forces air into the main vessel through a manifold. A hollow suction caisson affixes the central control vessel to the ocean floor. A taut line mooring secures the suction caisson to the main vessel. Electricity is generated via a turbine shroud assembly having a conical shroud and a hydro-turbine. By attaching a plurality of turbine shroud assemblies in series via cables, a horizontal turbine array is formed resulting in a simple, economical and safe layout.

Abstract: The invention relates to a device and method for controlling a double-fed asynchronous machine (4), preferably for a power plant, in particular for a wind or water power plant. The device includes an indirect converter (6) which is connected on the rotor side to the double-fed asynchronous machine (4). The indirect converter (6) includes a rotor-side converter (20) and a line-side converter (24). At least one control element (8) is provided for controlling the indirect converter (6). At least one software-based and/or hardware-based damping element (40, 46, 48, 120) is provided which has changeable damping characteristics.

Abstract: A facility for producing electrical energy has a plurality of shrouds, a plurality of wind turbines, a power system, a plurality of modules, a pivotal mounting system, and a support structure. Each shroud has a throat which increases the velocity of the prevailing wind passing through the shroud. The plurality of wind turbines are each operably positioned in the throat of one of the plurality of shrouds. The power system is adapted for converting mechanical energy from the plurality of wind turbines to electrical energy. The support tower includes a central tower for supporting the shrouds and wind turbines above the surface, and may further include peripheral towers, guys, and/or other structural components.

Abstract: The present invention relates to a control system and an associated method for controlling an amount of reactive power delivered from a wind power plant to an associated power supply grid, the control system comprising a wind power plant controller and a number of wind turbine controllers each being in communication with said wind power plant controller, wherein the wind power plant controller is adapted to provide a grid voltage reference in response to a required total amount of reactive power to at least one wind turbine controller and operating a Switched Capacitor bank.

Abstract: A system for generating electric and mechanical power utilizing a thermal gradient includes a thermal gradient producing device in communication with a turbine generator. The system being configured to absorb heat energy from an outside environment, circulate the same through a circulation chamber and convert the heat energy into one or both of a mechanical force and electricity which can be fed back to the system itself or utilized by other devices.

Abstract: The present disclosure provides an improved multistage cryogenic liquefied gas expander for transforming the energy of a pressurized liquefied gas into electric energy, capable of operating at variable speeds, the improvement being a multistage cryogenic liquefied gas expander having at least two stages where only the first stage has a non-rotating nozzle ring having a plurality of adjustable position guide vanes.

Abstract: A submerged ram air turbine generating system adapted for use in a pod mounted to the wing of an aircraft comprises a submerged inlet extending substantially entirely around the outer surface of the pod housing, a stator in the form of adjustable or fixed inlet guide vanes which direct an air stream to a hybrid ram air turbine having alternating turbine blades and splitters, and, a number of adjustable exhaust panels which are movable with respect to one or more exhaust openings in the pod housing.

Abstract: An apparatus and method includes a solar panel. A power bus is coupled to the solar panel, and supports transmission of AC communication signals. The power bus includes a high current power wire. A current transformer is coupled to the power bus adjacent the solar panel. A capacitor, coupled to the power bus, is connected in parallel with the solar panel, and connected between the solar panel and the current transformer.

Abstract: The invention essentially concerns an aircraft seat (1), comprising control units (17.2, 22.2, 27), at least one node (11-15) to execute a particular action or function, and a display (22.1) for viewing video data. Said node (11-15) and said display (22.1) are capable of being actuated by the control units (17.2, 22.2, 27). A keyboard (17.1) for transmitting a command signal addressed to the control units (17.2, 22.2, 27) is connected to said control units (17.2, 22.2, 27). The control units are shared between the display (22.1), the keyboard (17.1) and the node (11-15).

Abstract: A device and method for operating automotive battery system relays and related switches. By creating a dual bipolar magnetic field adjacent the contactor portion of a switching mechanism in the relay, the magnetic field used to promote arc extinguishing is shifted, which in turn reduces the Lorentz force that forms as a byproduct of the field. Such a configuration has the potential for simultaneously maintaining arc-extinguishing capability and improving short-circuit withstanding capability while reducing the tendency of the Lorentz forces to interfere with the operation of a solenoid or other switch-activating mechanisms. Such devices and methods may be used in conjunction with hybrid-powered and electric-powered vehicles.

Abstract: A method and system for managing electrical loads on a standby generator. The method includes utilizing a transfer switch control to selectively shed loads each associated with one of a series of priority circuits. Priority values are initially assigned to each of the electric loads based upon the initial hard-wired connection of the electric loads to a main breaker panel during set up. The control unit of a transfer switch allows the user to reassign priority values to each of the electric loads based upon a user preference. The control unit includes one or more predefined priority assignment programs that can be selected to modify the priority values assigned to the electric loads.

Abstract: An integrated exciter-igniter architecture is disclosed that integrates compact, direct-mounted exciter electronics with an aerospace designed igniter to reduce overall ignition system complexity. The integrated exciter-igniter unit hermetically seals exciter electronics within a stainless steel enclosure or housing. The stainless enclosure enables the exciter electronics to remain near atmospheric pressure while the unit is exposed to vacuum conditions. The exciter electronics include a DC-DC converter, timing circuitry, custom-designed PCBs, a custom-designed main power transformer, and a high voltage ignition coil. All of which are packaged together in the stainless steel enclosure. The integrated exciter-igniter unit allows for efficient energy delivery to the spark gap and eliminates the need for a high voltage cable to distribute the high voltage, high energy pulses.

Abstract: A junction box connected to a plurality of solar cell panels connected in series and under control a control device, includes a plurality of diodes, two ports, a switch, and a communication module. The plurality of diodes is forwardly connected in series to form a diode string with two ends, and each of the plurality of diodes is electrically connected to a corresponding one of the plurality of solar cell panels in parallel. The two ports are respectively connected to the two ends of the diode string and the plurality of solar cell panels, and output DC power of the plurality of solar cell panels. The switch is connected between the diode string and the two ports. The communication module is connected to the switch, and receives control signals from the control device to turn on or off the switch to control output of the DC power of the solar cell panels from the two ports.

Abstract: A power switching device, a power switching method, and a projection device using the power switching device are provided. In the power switching method, a first power and a second power are received, and the voltage level of the first power is compared with the voltage level of the second power. One of the first power and the second power having the higher voltage level is sustained by using one of the first power and the second power having the lower voltage level until one of the first power and the second power having the higher voltage level stabilizes. At least one of the first power and the second power having the higher voltage level and being already stabilized is output as an output voltage.

Abstract: A fraction inverter circuit includes a first energy storage device configured to output a DC voltage, a first bi-directional DC-to-AC voltage inverter coupled to the first energy storage device, and a first electromechanical device. The first electromechanical device includes a first plurality of conductors coupled to the first bi-directional DC-to-AC voltage inverter, a second plurality of conductors coupled together, and a plurality of windings coupled between the first plurality of conductors and the second plurality of conductors. The traction converter circuit also includes a charge bus comprising a first conductor coupled to the second plurality of conductors of the first electromechanical device, the charge bus configured to transmit a charging current to or receive a charging current from the first electromechanical device to charge the first energy storage device via the first electromechanical device and the first bi-directional DC-to-AC voltage inverter.

Abstract: An energy distribution system and methods for coupling a plurality of energy storage cells to an energy source or load by replaceable insertion of a segment within a magnetic circuit common to the cells. An energy storage cell interface couples each of the cells to the source or load, and a separate power converter is coupled through the interface to each one of the energy storage cells. The energy distribution system has a magnetic core containing a magnetic circuit shared among multiple windings, where the magnetic core includes a detachable segment replaceably insertable into the magnetic circuit.

Abstract: An inductive power supply including multiple tank circuits and a controller for selecting at least one of the tank circuits in order to wirelessly transfer power based on received power demand information. In addition, a magnet may be used to align multiple remote devices with the inductive power supply. In one embodiment, different communication systems are employed depending on which coil is being used to transfer wireless power.

Abstract: For the present invention, multiple MEMS switches that are similar in nature are provided along with switch control circuitry. Of the MEMS switches, one MEMS switch is reserved as a dummy MEMS switch while the one or more remaining MEMS switches are active, and are thus used during normal operation of the electronic circuitry that incorporates the MEMS switches. The switch control circuitry will use the dummy MEMS switch to adaptively determine an actuation signal that is sufficient to effect a near closing or soft closing of the dummy MEMS switch. The switch control circuitry may also determine a closing time that defines a time when the dummy MEMS switch closes relative to application of the actuation signal. The actuation signal and closing time may be updated regularly, if not continuously.

Abstract: A circuit arrangement with a power input and at least one power supply unit that generates a DC voltage for operating an electronic device including a power input circuit inserted between the power input and the at least one power supply unit that selectively disconnects or rectifies an AC voltage provided via the power input for the at least one power supply unit, wherein the power input circuit has at least one first semiconductor switching element that switches a first electrical load path with a current limiting element from the power input to the at least one power supply unit, and at least one second semiconductor switching element that switches a second electrical load path from the power input to the at least one power supply unit, and a power input filter, wherein the power input filter includes a first filter circuit arranged between the power input and the power input circuit and a second filter circuit arranged between the power input circuit and the at least one power supply unit.

Abstract: An outdoor extension line socket enabling remote controlled timing power supply is disclosed, comprising a socket body and a remote controller body, in which the bottom of the socket body is formed as a tapered body for sticking the socket body into the ground. The socket body consists of a socket, a display, a time adjustment button, an extension line plug and a socket power control circuit. In addition, the remote controller body consists of a time adjustment wheel, two switch control buttons and a remote control circuit. As the socket body being stuck on the outdoor ground, it is possible to provide electric power required for operations of an outdoor electronic device, and the power supply time of the socket body can be adjusted in accordance with the settings done by the remote controller body so as to designate the operation time of the outdoor electronic device.

Abstract: A control device is provided, for controlling the supply of power from a remote power source to a headgear mounted illumination device to selectively turn the corresponding illumination source on and off. The control device includes an attachment feature that facilitates donning the control device on the body of a user. To operate the control device, the wearer causes hands-free, tactile contact with a switch contact surface of the control device, e.g., by bumping, pressing or otherwise engaging the switch contact surface against a limb or external structure.

Abstract: The permanent magnet rotating electric machine comprising a stator with a stator coil wound on a stator iron core, a rotor with a plurality of permanent magnets disposed in the circumferential direction in a rotor iron core, which is disposed opposite to the stator iron core of the stator with a predetermined spacing therebetween and is fixed to a shaft, a water-cooling unit disposed around the outer circumference of the stator iron core, and a fan fixed to the shaft on the same side as at least one axial end of the rotor iron core to circulate cooling air in the permanent magnet rotating electric machine; further comprising ventilation paths, through which the cooling air flows, formed around the outer circumference of the water-cooling unit; wherein after the cooling air has been circulated by the fan in the machine for cooling, the cooling air is led to the ventilation paths to perform heat exchange between the cooling air flowing in the ventilation paths and the water-cooling unit, after which the cool

Abstract: A vehicle drive system configured with a dynamo within a case. The case is disposed on at least one axial side of the dynamo, and includes a wall portion overlapping the dynamo, which has a section that overlaps with the dynamo as viewed from the axial direction. The wall portion overlapping the dynamo includes a supply flow passage through which lubricating-cooling fluid flows, and which is formed with a first supply portion that supplies lubricating-cooling fluid to a rotor support bearing for the dynamo electric. The first supply portion includes a throttle portion whose flow passage cross-sectional area is small when compared to an upstream-side flow passage cross-sectional area in the flow direction of lubricating-cooling fluid. The supply flow passage includes a second supply portion that is a portion supplying lubricating-cooling fluid to the dynamo and higher than the first supply portion.

Abstract: A stator cooling device configured with a cylindrical stator main body that uses a rotation axis of a rotary electric machine as a central axis. A fixed portion is formed on an outer peripheral portion of the stator main body so as to protrude outward in a radial direction of the stator main body. A cooling medium flow passage includes an injection hole through which cooling medium is injected. The fixed portion is configured above a horizontal plane that passes through the central axis, and a peak portion that is farthest in the fixed portion from the central axis as viewed in an axial direction of the central axis. The injection hole opens toward the fixed portion above the outer peripheral portion of the stator and toward the first vertical plane side with respect to a second vertical plane that is a vertical plane that passes through the peak portion.

Abstract: A method of operating an electric machine includes flowing a coolant into an interior portion of a housing of the electric machine, and sensing a level of coolant in a coolant collection area within the interior portion with a coolant level sensor arranged at the housing.

Abstract: A motor includes a shaft, a bearing arranged to support the shaft such that the shaft is rotatable about a central axis, a rotating body fixed to the shaft and including a rotor magnet arranged in an outer circumference thereof, a stator arranged radially outward of the rotor magnet, a circuit board arranged to be perpendicular to the central axis on one axial side of the rotating body, and an encoder arranged to detect rotation of the rotating body. The encoder includes a reflection pattern arranged on a surface of the rotating body which is opposed to the circuit board, and a reflective rotation detection sensor arranged on the circuit board to detect the rotation of the rotating body by irradiating the reflection pattern with light.

Abstract: In the stator, a thermistor housed in a tube is arranged to be sandwiched between a coil end and a U-phase bus bar, allowing the thermistor to receive heat from above and below at two faces, that is a face of the U-phase bus bar and a top face of the coil end. Moreover, the thermistor can be placed substantially in close contact with the coil end. Accordingly, the temperature followability by the thermistor can be realized at high accuracy. As a result, there can be provided a stator having a configuration in which temperature followability of high accuracy can be achieved in measuring the temperature of a coil of a stator using a temperature detection element, and that can correspond to further downsizing of a rotating electric machine.

Abstract: This disclosure discloses a rotating electrical machine comprising: a stator; and a rotor; one of said stator and said rotor having a coil, the other having a plurality of magnetic pole units each forming first and second magnetic poles configured to be aligned alternately and to have mutually opposite polarities at a side of the one of said stator and said rotor, each of said magnetic pole units comprising: a unit core that a projecting part configured to protrude toward the side of the one of said stator and said rotor is formed; and a permanent magnetic provided between each of said projecting parts on the side of the one of said stator and said rotor from said unit core, said first magnetic pole being formed by said permanent magnet, and said second magnetic pole being formed by each of said projecting parts.