Abstract: A method and apparatus for producing an electronic device are disclosed. An adhesive material is jetted in a first pattern on a surface of a receiver substrate. A carrier having a metal foil disposed thereon is brought into contact with the first substrate such that a portion of the metal foil contacts the adhesive material. The adhesive material is activated using at least one of mechanical pressure and heat while the portion of the metal foil is in contact with the adhesive material. The first substrate and the second substrate are separated, whereby the portion of the metal foil is transferred to the first substrate.

Abstract: In a system and method for using a wiper to clean a nozzle plate of an inkjet head, a spring is disposed between the wiper and a mounting body, and the mounting body has a top portion and a bottom portion. The wiper is disposed proximate the top portion of the mounting body relative to the bottom portion of the mounting body. In addition, the wiper blade is transported across the face of a nozzle plate for wiping portions of the nozzle plate. A distance between the wiper blade and the bottom end of the mounting body is varied in accordance with variations in distances between the portions of the nozzle plate and the bottom portion of the mounting body.

Abstract: In a system and method for operating an ink supply to an inkjet cartridge, wherein the ink supply includes an ink reservoir and an ink tube, ink in the ink reservoir is coupled to ink in the ink tube. Ullage above the ink in the ink reservoir is coupled with ullage above the ink in the ink tube. Ink from the ink tube is supplied to the inkjet cartridge.

Abstract: Systems and methods for high-speed variable printing are provided. Ink jet technology and lithographic systems may be combined in such a way to create a fully variable and high-quality print system. Ink is applied to a first cylinder. Aqueous solution is applied to a second cylinder to produce a negative image. At least a portion of the ink from the first cylinder is transferred to the second cylinder. A positive image in ink is then transferred from the second cylinder to a print medium, and residue ink and aqueous solution is cleaned from the second cylinder. The systems and methods described herein may be used to create high-quality one-to-one marketing applications.

Abstract: A method of detecting an alignment error includes the steps of controlling a first portion of one or more imaging units to image on a substrate a first plurality of substantially parallel lines extending along a first direction and a second plurality of substantially parallel lines extending along a second direction and controlling a second portion of one or more imaging units to image a third plurality of substantially parallel lines extending along the first direction and a fourth plurality of substantially parallel lines extending along the second direction. One or more distances between adjacent lines of the second plurality of lines are varied and one or more distances between adjacent lines of the fourth plurality of lines are varied. Further, the lines imaged by the first and second portions form an alignment pattern.

Abstract: A method for operating a printing device and an image generation kit are disclosed. The image generation kit is adapted to controllably eject individual drops of a gating agent, and is operating the image generation kit in synchronism with a principal substance application apparatus to deposit the drops of the gating agent on a substrate and to transfer a principal substance to the substrate. The drops of the gating agent on the substrate define image and non-image areas of the substrate, the image and non-image areas of the substrate are undefined until the drops of the gating agent are deposited thereon, and the substrate with the principal substance transferred to the image areas is an end product of the printing device.

Abstract: A device for use in a high speed variable printing comprises a housing having at least one surface, a series of ejection nozzles mounted on the one surface, and a source of a gating agent communicating with the nozzles. The gating agent comprises from about 0.05 to about 10% by weight of a blocking agent, up to about 15% by weight of a surface tension modifying compound, up to about 8% by weight of viscosity modifier such that the gating agent has a viscosity within the range of about 1 to 14 mPa s, and the balance of the gating agent comprises a solvent. The gating agent has a dynamic surface tension of less than about 60 dynes/cm.

Abstract: An electrical insulator material includes a polymer and a solvent, and has a viscosity in the range of from about 1.0 to about 20.0 cP such that the electrical insulator material can be applied to a surface using an ink jet print head.

Abstract: An adhesive material includes a vinyl polymer and a solvent that includes xylene and toluene. The adhesive material has a viscosity in the range from about 1.0 cP to about 20.0 cP such that the adhesive material can be applied to a surface using an ink jet print head.

Abstract: A battery includes a first conductive substrate portion having a first face, and a second conductive substrate portion having a second face opposed to the first face. Each of the first and second faces has a perimeter portion and an interior portion inside the perimeter portion. A first electrode material of the battery is disposed in contact with the interior portion of at least one of the first and second faces, and a jettable electrolyte material disposed in contact with the first electrode material. A second electrode material is disposed in contact with the electrolyte material, and a conductive tab is disposed in contact with the second electrode material. The conductive tab extends outwardly from the interior region beyond the perimeter portion of at least one of the first and second faces.

Abstract: The electrolyte material includes a polymer, a salt, and a solvent. The electrolyte material has a viscosity in the range from about 3.0 cP to about 20.0 cP such that the electrolyte material can be applied to a substrate using an ink jet print head.

Abstract: A cathode material comprising an active material, a carbon material, a binder polymer, a lithium salt, and a solvent. The cathode material has a viscosity in the range from about from about 3.0 to about 30.0 cP such that the cathode material can be applied to a surface using an ink jet print head. An anode base material includes from about 50% to about 85% by weight of metallic lithium particles substantially free from other metals and from about 15% to about 50% by weight of a solvent. The anode base material has a viscosity such that the anode base material can be extruded.

Abstract: Apparatus and methods for controlling application of a substance to a substrate involve the use of one or more gating agents that block the substance from or attracts the substance to the substrate. The apparatus and methods may utilize ink jet technology to apply the gating agent directly to the substrate or to an intermediate surface. The substance may be an ink, an electrically conductive material, a magnetic material, a carrier for a therapeutic, diagnostic, or marking substance other than an ink, a carrier or any other substance.

Abstract: A printing system includes a print unit and a cleaning unit. The print unit comprises a carrier for a plurality of inkjet cartridges. The cleaning unit includes a wiping unit, a cleaning bay, and a wiper washer unit. The wiping unit includes wiper blades and the wiper washer unit includes a plurality of spray nozzles that spray a fluid. A controller is adapted to transport the carrier into the cleaning bay, transport the wiping units such that the wiper blades clean the inkjet cartridges, and actuate the spray nozzles to wash the wiper blades. The carrier may be positioned in the cleaning bay when the inkjet cartridges are not used for printing and the controller controls at least one of humidity and temperature in the cleaning bay when the carrier plate is positioned therein.

Abstract: A method of producing and distributing printed product applies aqueous solution to a print medium to define non-image and image areas of the print medium, and contacts the non-image area and the image area with ink. Ink is transferred substantially only to the image area of the print medium to produce the printed product. The printed product is distributed to an end user.

Abstract: An apparatus for controlling application of a substance to a substrate involves the use of a gating agent that blocks the substance from or attracts the substance to the substrate. The apparatus may utilize ink jet technology to apply the gating agent directly to the substrate or to an intermediate surface. The gating agent includes a nonionic surfactant, and water. The gating agent does not contain a discernable amount of dye, pigment or other colorant agent.

Abstract: A system and method for applying fluid to a receiver surface are disclosed. A carrier has a top surface, a bottom surface, and a slot, wherein the bottom surface of the carrier faces the receiver surface. A mount is positioned in the slot, an inkjet cartridge is disposed in the mount, and fluid is ejected from the inkjet cartridge toward the receiver surface. The inkjet cartridge is disposed such that at least a portion of the inkjet cartridge extends inwardly from the bottom surface of the carrier.

Abstract: A method of producing a printed sheet output of a printing press uses an aqueous solution, an ink, and an input sheet. The method applies aqueous solution to the input sheet to form a non-image area and an image area thereon, and contacts the non-image and image areas of the input sheet with ink. Ink is transferred substantially only to the image area to produce the printed sheet output of the printing press. A method of producing a printed web of a printing press is also disclosed.

Abstract: A method of printing a printed output of a press comprising ink on a print medium applies ink to a surface, places individually controlled drops of aqueous solution onto the print medium in a drop pattern, and transfers ink from the surface to areas of the print medium that are free of aqueous solution to produce the printed output of the press. A method of variable printing is also disclosed.

Abstract: A printing system includes an inkjet cartridge, an ink reservoir, and a reversible pump. A method and system of operating the printing system are providing in which first fluid line couples the ink reservoir and an input port of the inkjet cartridge. A second fluid line couples the reversible pump and an output port of the inkjet cartridge. The reversible pump is operated in a first direction to supply ink from the ink reservoir to the ink jet cartridge via the first fluid line. The reversible pump is a second direction to supply ink from the ink reservoir to the inkjet cartridge via the second fluid line. The reversible pump is operated in the first direction and the second direction repeatedly and sequentially for a predetermined duration.