A paste dispensing transfer system of a stencil printer is configured to print an assembly material on an electronic substrate. The transfer system includes a paste cartridge mechanism coupled to a print head assembly of the stencil printer, and a rotary indexing mechanism coupled to a frame of the stencil printer. The paste dispensing transfer system is configured to transfer a used paste cartridge from the print head assembly to the rotary indexing mechanism supported by the frame and to transfer a new paste cartridge from the rotary indexing mechanism to the print head assembly.

A method of forming solder paste on an object is provided. The method includes providing a multilayered stencil, each stencil layer having an aperture formed therethrough from a top surface of the respective stencil layer to a bottom surface of the stencil layer. The method also includes applying the stencil to a surface of the object. The method also includes filling a void space formed by a combination of the apertures in the stencil layers with solder paste. The method also includes removing the stencil layers in a sequential manner to leave the solder paste.

Sheet comprising a flexible support and a coating at least partially covering at least one face of the support, the support being made of a support material exhibiting dielectric properties, the coating being made of a coating material different from the support material and exhibiting magneto-dielectric properties or dielectric properties.

A light-emitting module includes (i) a board provided with: a circuit pattern and a plurality of bottomed holes in each of a set of wiring pads continuous with the circuit pattern on a first surface; electrically conductive paste extending over two or more of the bottomed holes; and an insulating resin covering the electrically conductive paste at a side close to the first surface, and (ii) a plurality of light-emitting segments connected to a second surface of the board with an adhesive sheet interposed therebetween. The light-emitting segments each include a plurality of light-emitting devices that are aligned. The electrically conductive paste includes a portion disposed on a portion of a surface of the wiring pad extending over two or more of the bottomed holes.

A method for printing conductive solder paste on a base substrate to establish an electrical connection is provided. The method includes applying conductive solder paste over a stencil, and within an opening of the stencil to contact the base substrate therebeneath. In embodiments, a squeegee can be used to scrape some of the conductive solder paste off of the stencil, leaving behind some of the conductive solder paste within the opening. Subsequently, the stencil can be removed at a speed of more than 200 millimeters per second to help reduce the end-of-track bump ultimately formed at the end of the conductive solder paste that remains after the stencil is removed.

A stencil for use in stencil printing is disclosed. The stencil is configured to removably attach or rest on an upper surface of an underlying base. The stencil has an opening through which the conductive paste is deposited by spreading the conductive paste across an upper surface of the stencil and forcing the paste into the opening and onto an upper surface of the underlying base. The stencil has a stepped edge at a boundary of the opening. The stepped edge includes a ledge or floor that is configured to hold some of the paste even after a squeegee has removed the paste from an upper surface of the stencil. As the stencil is removed from the base, the ledge or floor can carry the paste that it holds away from the base in an effort to reduce an end-of-track bump on the underlying base.

A squeegee for spreading a conductive paste across a stencil during a stencil printing process is provided. The stencil covers an underlying base such that the conductive paste is spread across the stencil and into openings in the stencil to contact the underlying base. The squeegee has a leading surface at the front of the squeegee, a trailing surface at the rear of the squeegee, and a bottom surface. The bottom surface is oriented at an oblique angle relative to the leading surface and the trailing surface. In some embodiments, a rear corner or edge of the squeegee is the contact point between the squeegee and the stencil. Some of the paste can be collected beneath the bottom surface and scraped along with the squeegee.

A stencil printing system for printing solder paste on a base substrate to establish an electrical connection is provided. The system includes a stencil configured to removably attach or rest on an upper surface of the base. The stencil has an opening that provides access to the upper surface of the base. A squeegee spreads conductive paste across the stencil, whereupon the paste can be forced onto the upper surface of the base via the opening. In embodiments, the stencil has a stepped edge at the boundary of the opening. The stepped edge may include a platform or floor that sits lower than the upper surface of the stencil to collect the paste and reduce the amount of paste that falls back to the base as the stencil is removed. The squeegee may have a lower surface that extends oblique relative to the squeegee's leading surface and trailing surface.

A printing control device includes a determination section, a first printing control section, a movement controller, and a second printing control section. When the determination section determines that an elapsed time in which no board is convey exceeds an allowable time, the first printing control section causes the printer to execute the printing process for a first time on a first board which is conveyed in since the determination is made. The movement controller separates the mask and the board from each other after the first printing control section executes the printing process for the first time and brings the mask and the board into abutment with each other again after the separation. The second printing control section causes the printer to execute the printing process for a second time on the board after the movement controller brings the mask and the board into abutment with each other again.

A screen printer comprising: a conveyance device configured to convey a board; a board holding device configured to position a conveyed board at a printing position; a stencil holding device configured to attach a stencil above the held board; a squeegee device configured to fill pattern holes of the stencil with solder paste; a board raising and lowering device configured to raise and lower the board positioned by the board holding device; and a control device configured to perform drive control of each the above devices, the control device including a standby printing processing section configured to raise the board from below with respect to the stencil such that the board contacts the stencil, stand by in a state with solder paste filled in the pattern holes, and lower the board to separate the board from the stencil in accordance with a board conveyance signal.