Abstract: A printed-circuit board, especially a multilayer printed-circuit board, with projection electrodes integrated with via hole conductors. Each of the projection electrodes is highly adhesive to the via hole conductor and has high strength and thus the production method of the printed-circuit board is simplified. Projection electrodes formed of a cured conducting paste are formed in such a manner that it is integrated with via hole conductors consisting of a conducting paste embedded into the via hole formed in an insulating resin substrate to form a printed board. The method for producing a printed-circuit board includes making via holes that penetrate through a prepreg to whose surface a parting film is applied; filling the via hole with a conducting paste; compressing the prepreg under heat to cure the prepreg and the paste; and then peeling off the film.

Abstract: A printed-circuit board, especially a multilayer printed-circuit board, with projection electrodes integrated with via hole conductors. Each of the projection electrodes is highly adhesive to a corresponding one of the via hole conductors and has high strength, and thus the production method of the printed-circuit board is simplified. Projection electrodes formed of a cured conducting paste are formed in such a manner that the electrodes are integrated with the via hole conductors which consist of a conducting paste embedded into the via hole formed in an insulating resin substrate to form a printed board. The method for producing a printed-circuit board, includes making via holes that penetrate through a prepreg to whose surface a parting film is applied; filling the via hole with a conducting paste; compressing the prepreg under heat to cure the prepreg and the paste; and then peeling off the film.

Abstract: A manufacturing method for a semiconductor device using a wire bonding method using a metal wire. In the wire bonding method, an impact load applied when a metal ball formed at the tip of the metal wire by electric discharge is brought into contact with a terminal electrode of a semiconductor device is smaller than a static load applied after the metal ball is brought into contact with the terminal electrode. The method makes it possible to prevent an element or wiring from being damaged while securing the pressure necessary for bonding the metal ball to the terminal electrode even when the terminal electrode is placed on the element or the wiring.

Abstract: A semiconductor device is made by mounting semiconductor elements on both sides of a wiring board having three-dimensional wiring including inner-via holes. A high operating speed and smaller size are made possible by employing a laminated structure of semiconductor elements without using the chip-on-chip configuration. Semiconductor elements are mounted on both sides of a wiring board having three-dimensional wiring including inner via holes so that the semiconductor elements oppose each other via the wiring board. The electrodes of the semiconductor elements are connected with each other by the three-dimensional wiring of the wiring board.

Abstract: The present invention relates to an electronic part used for mobile communications apparatuses and the like, and more particularly to an electronic part, such as an acoustic surface-wave device, a piezoelectric ceramic device or the like, which requires an oscillation space near the surface of the functional device chip thereof, and a method of production thereof. With this method, a space retainer for forming a sealed space at the functional portion of the chip can be hermetically sealed and have high moisture resistance, and the process of forming the space retainer can be carried out easily.

Abstract: The present invention relates to an electronic part used for mobile communications apparatuses and the like, and more particularly to an electronic part, such as an acoustic surface-wave device, a piezoelectric ceramic device or the like, which requires an oscillation space near the surface of the functional device chip thereof, and a method of production thereof. With this method, a space retainer for forming a sealed space at the functional portion of the chip can be hermetically sealed and have high moisture resistance, and the process of forming the space retainer can be carried out easily.