A process for producing an eyelet for a biomedical electrode (e.g. an electrocardiogram (ECG) electrode) involves: hot pressing an electrically conductive thermoplastic or elastomeric resin to produce a film having a web of eyelets, each eyelet having a post protruding from a first face of the film and a flange at a second face of the film; applying a coating of a non-polarizable conductive material (e.g. a silver-containing material) on to a contact face of the flange; and, cutting the film to produce the eyelets separated from the web. Preferably, the process involves extrusion replication. A web of eyelets for biomedical electrodes has a film of an electrically conductive thermoplastic or elastomeric resin possessing a plurality of posts protruding from a first face of the film, and preferably a layer of a non-polarizable conductive material on a second face of the film. The process may be a one-step continuous process that is cheaper and simpler than current commercial processes.

A sheet bonding device includes a pressurization mold which is constituted of an upper mold and a lower mold and performs sealing through heating by sandwiching a sealing target portion of a bag main body and a sealing target portion of a gas barrier function sheet with pressurization surfaces; a plurality of support pins which are provided in the lower mold so as to be retractable and position the gas barrier function sheet with respect to one surface of the bag main body by penetrating the sealing target portions of the bag main body and the gas barrier function sheet; and gas spray means for making the gas barrier function sheet float by spraying inert gas to an area-enlarged portion, which does not overlap the bag main body, of the gas barrier function sheet supported by the support pins.

Cards may be populated with components and alignment cues. A fully populated card may then be laminated using either of a clear (e.g., transparent) laminate or an obscure (e.g., opaque) laminate. Visual and/or non-visual alignment cues within a card may be utilized to align a trimming and/or singulation device to the card. The card may be singulated and/or trimmed with the aligned singulation and/or trimming device to position one or more components of the card.

Embodiments of method of manufacturing an implantable pump, including providing an upper layer comprising a dome structure for housing a drug chamber and a cannula in fluid communication with the drug chamber, providing a middle deflection layer adjacent the drug chamber, providing a bottom layer comprising electrolysis electrodes, and bonding the upper layer, middle deflection layer, and bottom layer to form the pump.

Composite tape is laminated onto a substrate using a gantry to move a tape laminating head along the length of the substrate. The laminating head is mounted for movement along a beam on the gantry that extends across the width of the substrate. The direction of lamination may be altered by changing the angular orientation of the beam.

An automated conveyor system extends a continuous layer of plastic onto a moving conveyor. A pair of damming strips may be applied to the continuous layer of plastic as the conveyor advances. A liquid material may be sprayed between the damming strips and electronic assemblies may be robotically picked and placed onto the continuous layer of plastic between the damming strips and on top of the liquid material. Additional liquid material may be sprayed on top of the electronic assemblies as the conveyor moves. A continuous top plastic layer may be extended on top of the electronic assemblies, while a roller compresses the electronic assemblies between the top plastic layer and bottom plastic layer. A transparent clamp holds a portion of the compressed sub-assembly in place while the sub-assembly is cured. A sheering station sheers the sub-assembly as the conveyor indexes.

The described embodiments relate generally to liquid crystal displays (LCDs), and more particularly to methods for extending a glass portion of a display to an edge of a display housing. In one embodiment, a thin cover glass layer is provided between a color filter glass layer and an upper polarizer. The thin cover glass layer is supported along an edge of the display by a filler material that can include a foam dam and a glass spacer or adhesive filler. The filler material allows the cover glass layer to be supported without damaging any drivers or circuits located on an underlying thin film transistor glass layer. In another embodiment, a glass spacer circuit with integrated drivers and circuitry on its lower surface can support the cover glass along the edge of the display.

Composite tape is laminated onto a substrate using a gantry to move a tape laminating head along the length of the substrate. The laminating head is mounted for movement along a beam on the gantry that extends across the width of the substrate. The direction of lamination may be altered by changing the angular orientation of the beam.

The present application discloses a composite pad structure that includes a substrate bonded to a plurality of discrete, spaced-apart, resilient elements engaged to at least one reinforcing structure.

A system fabricating composite preforms includes a layer assembly stage with a first stage for receiving new layers, such as layer N; and a second stage for holding up to K layers, such as layers N1 to NK. An interlayer reinforcement insertion mechanism inserts interlayer reinforcements Q through layer N and the layers N1 to NK, using a first layer spacing between layer NK and layer NK1 in a completed layer stage. Following the interlayer reinforcements Q insertion, the layer assembly stage transfers the layer NK to the completed layer stage; closes the first layer spacing, bringing layers NK and NK1 into contact; and transfers the layer N to the second stage. The system repeats this cycle of receiving new layers, inserting interlayer reinforcements using layer spacings between the second and completed layer stages, closing these layer spacings, and transferring layers to construct composite preforms with arbitrary numbers of layers.