There is provided a manufacturing method for an insulating resin circuit substrate, which is a manufacturing method for an insulating resin circuit substrate which includes an insulating resin layer composed of a polyimide resin and a circuit layer consisting of metal pieces disposed in a circuit pattern shape on one surface of the insulating resin layer. The manufacturing method includes a temporary fixing step of pressurizing the metal pieces toward the resin sheet material while heating the metal pieces to temporarily fix the metal pieces and a joining step of disposing a cushion material on a side of the metal pieces which are temporarily fixed and pressurizing the metal pieces and the resin sheet material in a laminating direction, while heating the metal pieces and the resin sheet material, to join the resin sheet material and the metal pieces.

A method for producing a soft magnetic film laminate circuit board having a soft magnetic film laminated on at least one side of a circuit board includes the steps of bringing a soft magnetic thermosetting film containing soft magnetic particles, having a porosity of 15% or more and 60% or less, and in a semi-cured state into contact with the one side of the circuit board and bringing the soft magnetic thermosetting film into a cured state by vacuum hot pressing.

A multi-layer printed circuit board (PCB) includes a laminate between a PCB heating core and a PCB signal core. The PCB heating core includes an electrically conductive resistive heating element upon a first core substrate. During a lamination cure PCB fabrication stage, a platen contacts the PCB and a power supply is electrically connected to the resistive heating element. The laminate is cured with heat transferred by the platen and heat from the resistive heating element. The PCB heating core may be located within an inner layer of the multi-layer PCB to normalize a thermal gradient across the multi-layer PCB that may otherwise occur during the laminate cure fabrication stage. As a result of the normalized thermal gradient, the degree of laminate cure and material characteristics of the cured laminate material are more consistent throughout the multi-layer PCB thickness.

A supported copper foil is disclosed, comprising: a poly-based film that contains polyimide and polytetrafluoroethylene; a thin copper foil; and an adhesive provided between the poly-based film and the thin copper foil, the adhesive removably coupling the poly-based film to the copper foil.

A press pad for use in lamination of multi-layer circuit boards is disclosed. The press pad includes: a planar pad having a first surface and a second surface opposite to the first surface; and a sheet of release film coupled to the first surface, wherein the release film sheet is coupled to the first surface using an acrylic-based adhesive containing thermoplastic polyolefin and methyl acrylate, and wherein the release film sheet comprises polyimide-based film.

A board-to-board connecting structure which adds no significant thickness to a single printed circuit board includes a first circuit board and a second circuit board. The first circuit board includes first circuit substrate, adhesive layer, and second circuit substrate. The first circuit substrate includes first base layer, first inner wiring layer with first pad, and first outer wiring layer defining a receiving space. The second circuit substrate includes insulating layer and two second outer wiring layers. A conductive via in the second circuit substrate connects the two second outer wiring layers. The second circuit board includes second base layer and also two third outer wiring layers each with a second pad. The second circuit board is laterally disposed in the receiving space and one second pad connects to the conductive via and the other to the first pad.

In a semi-finished product for the production of a printed circuit board, the semi-finished product comprising a plurality of having multiple insulating layers of a prepreg material and conductive layers (2, 2′) of a conductive material and further comprising having at least one electronic component embedded in at least one insulating layer the at least one electronic component is attached to a corresponding conductive layer by the aid of an Anisotropic Conductive Film and the Anisotropic Conductive Film as well as the prepreg material are in an unprocessed state. The method for producing a printed circuit board comprises the following steps: Providing at least one conductive layer (2), Applying an Anisotropic Conductive Film on the conductive layer, Affixing at least one electronic component on the Anisotropic Conductive Film, Embedding the electronic component in at least one insulating layer of prepreg material to obtain a semi-finished product, Laminating the semi-finished product to process the prepreg material and the Anisotropic Conductive Film.

Provided are: an apparatus and a method for producing a (metal plate)-(ceramic board) laminated assembly, a bonding material and a metal plate during the bonding of the metal plate to the ceramic board through the bonding-material layer and an apparatus and a method for producing a power-module substrate. An apparatus for producing a (metal plate)-(ceramic board) laminated assembly by laminating a metal plate having a temporary bonding material formed thereon on a ceramic board having a bonding-material layer formed thereon, the apparatus being equipped with: a conveying device which conveys the metal plate onto the ceramic board to laminate the ceramic board and the metal plate on each other; and a heating device which is arranged in the middle of a passage of the conveyance of the metal plate by the conveying device and melts the temporary-bonding material on the metal plate.

A method of manufacturing a supported copper product is disclosed. The method includes: providing a thin copper foil and a poly-based film containing polyimide and polytetrafluoroethylene, the poly-based film having an adhesive applied to a surface of the poly-based film; thermally treating the thin copper foil and the poly-based film along their respective lengths, the thermal treatment being adjustable to vary an amount of heat applied to the thin copper foil and the poly-based film; and attaching the thermally treated thin copper foil and the thermally treated poly-based film using the adhesive applied at the surface of the poly-based film.

A semi-finished product for the production of a printed circuit board having a plurality of alternately arranged insulating layers and conductive layers and at least one hard gold-plated edge connector is characterized by the hard gold-plated edge connector being arranged on an inner conductive layer of the semi-finished product and being fully covered by at least one group of an insulating layer and a conductive layer. The inventive Method for producing a printed circuit board having a plurality of alternately arranged insulating layers and conductive layers and at least one hard gold-plated edge connector, where an outer conductive layer is surface treated, is characterized by the steps of providing a hard gold-plated edge connector on a group of an insulating layer and a conductive layer, covering the conductive layer and the hard gold-plated edge connector with at least one group of an insulating layer and a conductive layer, surface-treating an outer conductive layer to form connector pads for wire bonding of electronic components, cutting the insulating layers and the conductive layers down to the conductive layer forming the hard gold-plated edge connector, removing the insulating layers and conductive layers from the hard gold-plated edge connector. The inventive printed circuit board comprised of a plurality of alternately arranged insulating layers and conductive layers and at least one hard gold-plated edge connector is characterized by the hard gold-plated edge connector being arranged on an inner conductive layer of the printed circuit board, and the inner conductive layer forming the hard gold-plated edge connector protruding from the plurality of insulating layers and conductive layers.