Abstract: The present invention relates to transformer/inductor devices and to the methods of construction for inductive components such as inductors, chokes, and transformers. Plural via holes are formed through a ferromagnetic substrate. Primary and secondary conductors are placed through common vias to form a plurality of cell transformers have a 1:1 turns ratio. Circuits connect these primary and secondary winding in parallel and serial combustion to provide a transformer having the desired turns ratio.

Abstract: Methods for manufacturing slot core inductors and transformers includes using large scale flex circuitry manufacturing methods and machinery for providing two mating halves of a transformer winding. One winding is inserted into the slot of a slot core and one winding is located proximate to the exterior wall of the slot core. These respective halves are joined together using solder pads or the like to form continuous windings through the slot and around the slotted core.

Abstract: A microfluidic analysis system for optically analyzing a substance includes a light source having a plurality of selectable single-wavelength light sources, a substance presentation member optically coupled to the light source, and an optical detection system associated with the substance presentation member.

Abstract: A microfluidic mixing assembly includes at least first and second liquid sources, a microfluidic manifold, a first capillary valve between the first liquid source and the manifold, and a second capillary valve between the second liquid source and the manifold, wherein the first capillary valve is configured to open and provide a first liquid flow to the microfluidic manifold in response to an external force and the second capillary vales is configured to be opened by the first liquid flow.

Abstract: A method for mixing liquids on a microfluidic level comprises the steps of rotating a coupon to impart flow via centripetal force to a first liquid through a microchannel in the coupon to inject the first liquid into a mixing chamber to mix the first liquid with a second liquid, withdrawing a quantity of the first and second liquids from the mixing chamber, and injecting at least a portion of the quantity of the first and second liquids into the mixing chamber to further mix the first and second liquids.

Abstract: A microfluidic device comprises a microfluidic coupon and a fluid reservoir associated with the microfluidic coupon. The fluid reservoir has a vented configuration and a non-vented configuration, and is configured to contain a liquid to be centrifugated. An opening is formed in the fluid reservoir. When the microfluidic coupon is rotated at a target rotational velocity: the opening is open to flow of the liquid when the fluid reservoir is in the vented configuration; and the opening is closed to flow of the liquid when the fluid reservoir is in the non-vented configuration.

Abstract: The present invention relates to transformer 1 inductor devices and to the methods of construction for inductive components such as inductors, chokes, and transformers. Plural via holes are formed through a ferromagnetic substrate. Primary and secondary conductors are placed through common vias to form a plurality of cell transformers have a 1:1 turns ratio. Circuits connect these primary and secondary winding in parallel and serial combustion to provide a transformer having the desired turns ratio.

Abstract: The present invention is drawn to a method for modulating fluid flow in a micro-fluidic channel, comprising the step of applying heat to a valve of a micro-fluidic channeling device. The valve can include an elastically resilient portion having a first configuration prior to application of heat and a second configuration after application of heat. In one aspect, the first configuration provides an open valve configuration and the second configuration provides a closed valve configuration. In another aspect, the first configuration provides a closed valve configuration and the second configuration provides an open valve configuration.

Abstract: The present invention relates to transformer inductor devices and to the methods of construction for inductive components such as inductors, chokes, and transformers. Plural via holes 12 are formed through a ferromagnetic substrate 10. Primary 32 and secondary 34 conductors are placed through common vias to form a plurality of cell transformers have a 1:1 turns ratio. Circuits connect these primary and secondary winding in parallel and serial combustion to provide a transformer having the desired turns ratio.

Abstract: In one embodiment, a fluid ejection device comprises a substrate having a first surface, and a fluid slot in the first surface. The device further comprises a fluid ejector formed over the first surface of the substrate, and a chamber layer formed over the first surface of the substrate. The chamber layer defines a chamber about the fluid ejector, wherein fluid flows from the fluid slot towards the to be ejected therefrom. The chamber layer has a discontinuity, wherein the discontinuity is positioned over the fluid slot.

Abstract: A fuel cell flow regulator includes a fuel cell fuel flow path, the fuel flow path including a solid-state material for regulating a flow of fuel along the fuel flow path by adsorption.

Abstract: Systems and methods for forming templates for trace or circuit deposition are described. Specifically, a method of forming a template for trace or circuit deposition can comprise steps of jetting an ink-jettable composition onto a substrate in a predetermined pattern, wherein the ink-jettable composition includes a liquid vehicle and at least one coupling agent dispersed therein. The substrate can include functional groups interactive with the coupling agent, wherein upon contact between the coupling agent and the substrate after the jetting step, the coupling agent becomes attached or attracted to the substrate. The method can also include the step of contacting the coupling agent with a metal-containing composition such that a metal of the metal-containing composition becomes attached or attracted to the coupling agent.

Abstract: One exemplary fluid ejection device includes a substrate having one or more layers positioned thereon. The fluid ejection device also includes a fluid-feed path extending through a space which is defined, at least in part, by the one or more layers. The fluid ejection device including methods and structures for managing air and amongst other things gas bubble formation.

Abstract: Representative embodiments provide for a fuel activation device including a fuel storage chamber configured to store a plurality of fuel pellets arranged as a stack. A fuel dispensing device is configured to transport a fuel pellet to a fuel activation chamber. A spring is configured to advance the fuel pellets toward the fuel dispensing device as one or more fuel pellets are removed from the stack. A fuel initiator is configured to activate a release of hydrogen gas from the transported fuel pellet. The fuel activation device is configured to provide the hydrogen gas to a fuel cell through a gas vent. A method is provided including providing a plurality of fuel pellets arranged as a spring-loaded stack, transporting a fuel pellet from the stack, activating a release of hydrogen gas from the transported fuel pellet, and providing the hydrogen gas to a fuel cell.

Abstract: The present invention relates to the methods of construction for inductive components of, preferably, ferromagnetic materials such as inductors, chokes, and transformers when used as an integral part of the fabrication of PCB's or FLEX's. In one preferred embodiment, holes are formed through a ferromagnetic substrate and plated with conductive material. The arrangement of these holes, and the subsequent design that ensues, will form the inductive components within the plane of the media in which the device is formed; using the substrate for a magnetic core. By using this approach, the inductive components can be miniaturized to physical sizes compatible with the requirements of modem surface mount technology (SMT) for integrated circuitry (IC). This process also allows these components to be fabricated using mass production techniques, thereby avoiding the need to handle discrete devices during the manufacturing process.

Abstract: Slot core inductors and transformers and methods for manufacturing same including using large scale flex circuitry manufacturing methods and machinery for providing two mating halves of a transformer winding. One winding is inserted into the slot of a slot core and one winding is located proximate to the exterior wall of the slot core. These respective halves are joined together using solder pads or the like to form continues windings through the slot and around the slotted core.

Abstract: Methods of construction for inductive components such as inductors, chokes, and transformers enable these components to be fabricated using mass production techniques, thereby avoiding the need to handle discrete devices during the manufacturing process. In one preferred embodiment, holes are formed through a ferromagnetic substrate and plated with conductive material. The arrangement of these holes, and the subsequent design that ensues, will form the inductive components within the plane of the media in which the device is formed; using the substrate for a magnetic core. By using this approach, the inductive components can be miniaturized to physical sizes compatible with the requirements of modern surface mount technology (SMT) for integrated circuitry (IC). In another preferred embodiment, a series of thin, concentric high permeability rings are etched on a substrate to provide high permeability transformers and inductors having minimal eddy current effects.

Abstract: Slot core inductors and transformers and methods for manufacturing same including using large scale flex circuitry manufacturing methods and machinery for providing two mating halves of a transformer winding. One winding is inserted into the slot of a slot core and one winding is located proximate to the exterior wall of the slot core. These respective halves are joined together using solder pads or the like to form continues windings through the slot and around the slotted core.

Abstract: The present invention relates to transformer 1 inductor devices and to the methods of construction for inductive components such as inductors, chokes, and transformers. Plural via holes are formed through a ferromagnetic substrate. Primary and secondary conductors are placed through common vias to form a plurality of cell transformers have a 1:1 turns ratio. Circuits connect these primary and secondary winding in parallel and serial combustion to provide a transformer having the desired turns ratio.

Abstract: A fuel cell flow regulator includes a fuel cell fuel flow path, the fuel flow path including a solid-state material for regulating a flow of fuel along the fuel flow path by adsorption.