Abstract: A system for providing AC or DC power, for charging or powering electrical/electronic devices that are being used whilst the device is located at, around or within, an item of furniture which is defined as an item that has no local connection point to a mains AC wired power supply of an environment. The system is provided by a series of modules, at least some of which are based around a single mechanical fixation system, thereby allowing the furniture designer or manufacturer to implement a common mechanical fixing system and choose from a variety of modules to create the electrical system so desired. Modules within the system include a at least one battery module plus modules such as a Power Supply Unit (PSU), an AC or DC power in-feed connection point, DC power provision points, inverter, AC power provision points, switches, electrical protection devices and/or power control devices.

Abstract: The invention to which this application relates is a system for providing AC or DC power, for charging or powering electrical/electronic devices that are being used whilst the device and typically the person using the same is located at, around or within, an item of furniture which is defined as an item that has no local connection point to a mains AC wired power supply of an environment. The system is provided by a series of modules, at least some of which are based around a single mechanical fixation system, thereby allowing the furniture designer or manufacturer to implement a common mechanical fixing system and choose from a variety of modules to create the electrical system so desired for their application.

Abstract: A portable apparatus is disclosed for generating electrical power comprising a stator comprising a plurality of coils, coil units or coil segments for independently generating electrical power, wherein the stator comprises a printed coil laminate comprising a sheet of insulator material and a printed conductor comprising conductive ink printed upon the sheet of insulator material arranged to form the plurality of coils, coil units or coil segments and a reciprocator comprising a magnet, the reciprocator being responsive to vibrations and/or shocks and moves in that regard within the environs of the stator so as to generate electrical power. The apparatus is connectable to a portable electronic device so as to power that device and/or to a storage device for storing the generated electrical power.

Abstract: An exercise apparatus for generating electrical power is disclosed comprising a rotor comprising a flywheel comprising a plurality of alternatingly poled magnets arranged radially towards a circumference of the wheel in a circumferential, circular or arc-like configuration and a stator comprising a disc or annulus comprising one or more radially arranged coil units arranged to have a circumferential, circular or arc-like configuration, wherein the stator comprises a printed coil laminate comprising a sheet of insulator material and a printed conductor comprising conductive ink printed upon the sheet of insulator material, wherein the printed conductor is arranged to form a coil unit. The flywheel rotates, in use, relative to the disc to cause the magnets to move relative to the coil unit(s) and generate electrical power in the stator.

Abstract: An exercise apparatus for generating electrical power is disclosed comprising a rotor comprising a flywheel comprising a plurality of alternatingly poled magnets arranged radially towards a circumference of the wheel in a circumferential, circular or arc-like configuration and a stator comprising a disc or annulus comprising one or more radially arranged coil units arranged to have a circumferential, circular or arc-like configuration, wherein the stator comprises a printed coil laminate comprising a sheet of insulator material and a printed conductor comprising conductive ink printed upon the sheet of insulator material, wherein the printed conductor is arranged to form a coil unit. The flywheel rotates, in use, relative to the disc to cause the magnets to move relative to the coil unit(s) and generate electrical power in the stator.

Abstract: A portable apparatus is disclosed for generating electrical power comprising a stator comprising a plurality of coils, coil units or coil segments for independently generating electrical power, wherein the stator comprises a printed coil laminate comprising a sheet of insulator material and a printed conductor comprising conductive ink printed upon the sheet of insulator material arranged to form the plurality of coils, coil units or coil segments and a reciprocator comprising a magnet, the reciprocator being responsive to vibrations and/or shocks and moves in that regard within the environs of the stator so as to generate electrical power. The apparatus is connectable to a portable electronic device so as to power that device and/or to a storage device for storing the generated electrical power.

Abstract: An apparatus suitable for controlling unwanted vegetation which apparatus comprises a reservoir (2), release means (6) connected to the reservoir (2), and a nozzle (10) for applying a stream of foam including steam, connected to the reservoir (2) through the release means (6). A liquid is heated in the reservoir (2) to an elevated pressure, the liquid comprising water and a surfactant, i.e. a foaming agent, and forms a foam when discharged through the nozzle (10). The foam contains steam, and is effective at killing the foliage.

Abstract: A method of fabricating a substrate-HSQ resist material in which the substrate is selected from germanium (Ge) or gallium arsenide (GaAs) comprises the steps of pretreating a surface of the substrate to provide halogen termination of the substrate surface such that surface oxide is removed, and applying a HSQ resist to the surface. Removal of surface oxide allows the use of aqueous HSQ developers without causing damage to the surface. Also disclosed is a substrate-HSQ resist material, in which the substrate is selected from germanium or gallium arsenide, suitable for use in nanodevice fabrication and comprising a germanium or gallium arsenide substrate having a surface bearing a high resolution HSQ resist film or layer, in which the substrate has a halogen terminated surface.

Abstract: An apparatus suitable for controlling vegetation which apparatus comprises a hot-liquid reservoir (28), release means (38) connected to the hot-liquid reservoir (28) and at least one nozzle (74), for applying a stream of foam that contains steam, connected to the reservoir through the release means. The apparatus includes a heating means (34) to keep the liquid hot so the pressure is above atmospheric pressure. The liquid may be pumped by a pump (36) through the hot-water reservoir (28), the water being heated on demand by heaters (34) within the reservoir (28). The apparatus is either propelled by or mounted on a vehicle; and during use of the apparatus to control vegetation the vehicle provides power (24) to the heating means.

Abstract: An apparatus suitable for controlling unwanted vegetation which apparatus comprises a reservoir (2), release means (6) connected to the reservoir (2), and a nozzle (10) for applying a stream of foam including steam, connected to the reservoir (2) through the release means (6). A liquid is heated in the reservoir (2) to an elevated pressure, the liquid comprising water and a surfactant, i.e. a foaming agent, and forms a foam when discharged through the nozzle (10). The foam contains steam, and is effective at killing the foliage.

Abstract: The present invention provides highly efficient system level EMI filtering in a dual feed Power Distribution Unit (PDU) using custom designed magnetic components that are uniquely designed to provide excellent performance under various load conditions. The PDU of the present invention includes filters for providing the necessary EMI filtering at all frequencies in the range between 200 Hz and 200 MHz under all load conditions including a single feed failure. Additionally, the present invention provides mechanisms for cooling EMI components using a combination of natural convection and conduction techniques at the board level to ensure no loss of EMI filtering performance. The present invention also includes blank panels made of formed Aluminum alloy sheet metal pieces or the like to direct air flow to components on printed wiring boards (PWB's) using air director plates.

Abstract: The present invention provides highly efficient system level EMI filtering in a dual feed Power Distribution Unit (PDU) using custom designed magnetic components that are uniquely designed to provide excellent performance under various load conditions. The PDU of the present invention includes filters for providing the necessary EMI filtering at all frequencies in the range between 200 Hz and 200 MHz under all load conditions including a single feed failure. Additionally, the present invention provides mechanisms for cooling EMI components using a combination of natural convection and conduction techniques at the board level to ensure no loss of EMI filtering performance. The present invention also includes blank panels made of formed Aluminum alloy sheet metal pieces or the like to direct air flow to components on printed wiring boards (PWB's) using air director plates.