Patent application number | Description | Published |
20100013085 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device includes power semiconductor elements joined to wiring patterns of a circuit substrate, cylindrical external terminal communication sections, and wiring means for forming electrical connection between, for example, the power semiconductor elements and the cylindrical external terminal communication sections. The power semiconductor elements, the cylindrical external terminal communication sections, and the wiring means are sealed with transfer molding resin. The cylindrical external terminal communication sections are arranged on the wiring patterns so as to be substantially perpendicular to the wiring patterns, such that external terminals are insertable and connectable to the cylindrical external terminal communication sections, and such that a plurality of cylindrical external terminal communication sections among the cylindrical external terminal communication sections are arranged two-dimensionally on each of wiring patterns that act as main circuits. | 01-21-2010 |
20100013086 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device with improved productivity, reduced size and reduction of amounting area therefore is provided. In the provided power semiconductor device, an external terminal does not limit an increase in current. The power semiconductor device is sealed with transfer molding resin. In the power semiconductor device, a cylindrical external terminal communication section is arranged on a wiring pattern so as to be substantially perpendicular to the wiring pattern. An external terminal can be inserted and connected to the cylindrical external terminal communication section. The cylindrical external terminal communication section allows the inserted external terminal to be electrically connected to the wiring pattern. A taper is formed at, at least, one end of the cylindrical external terminal communication section, which one end is joined to the wiring pattern. | 01-21-2010 |
20100117219 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device in which transfer molding resin seals: a metallic circuit substrate; a power semiconductor element joined to a wiring pattern; and a side surface of a cylindrical external terminal communication section provided on the wiring pattern and to which an external terminal can be inserted and connected. The cylindrical external terminal communication section is substantially perpendicular to a surface on which the wiring pattern is formed. An outer surface of a metal plate of the metallic circuit substrate and a top portion of the cylindrical external terminal communication section are exposed from the transfer molding resin. The transfer molding resin is not present within the cylindrical external terminal communication section. | 05-13-2010 |
20100127383 | POWER SEMICONDUCTOR MODULE - In the power semiconductor module, a wiring metal plate electrically connects between power semiconductor elements joined to the circuit pattern, and between the power semiconductor elements and the circuit pattern. Cylindrical main terminals are joined, substantially perpendicularly, to the wiring metal plate and the circuit pattern, respectively. A cylindrical control terminal is joined, substantially perpendicularly, to one of the power semiconductor elements. | 05-27-2010 |
20100127389 | POWER SEMICONDUCTOR MODULE - The power semiconductor module includes: a circuit substrate; power semiconductor elements joined to element mounting portions of the wiring pattern on the circuit substrate; the cylindrical external terminal communication section joined to the wiring pattern; circuit forming means for connecting between portions that require electrical connection therebetween; and transfer molding resin for sealing these components. The cylindrical external terminal communication section is a metal cylinder, and the cylindrical external terminal communication section has a hole filled with gel. | 05-27-2010 |
20100133667 | POWER SEMICONDUCTOR MODULE - A wiring process between the provided power semiconductor module and the external circuit is simple. In the power semiconductor module, a power semiconductor element and a cylindrical conductor are joined to one surface of a lead frame. An opening of the cylindrical conductor is exposed at a surface of transfer molding resin. Sealing with the transfer molding resin is performed such that terminal portions of the lead frame protrude from peripheral side portions of the transfer molding resin. The cylindrical conductor is conductive with a control circuit. The terminal portions of the lead frame are each conductive with a main circuit. | 06-03-2010 |
20100133681 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device includes a power semiconductor module having cylindrical conductors which are joined to a wiring pattern so as to be substantially perpendicular to the wiring pattern and whose openings are exposed at a surface of transfer molding resin, and an insert case having a ceiling portion and peripheral walls, the ceiling portion being provided with external terminals that are fitted into, and passed through, the ceiling portion, the external terminals having outer-surface-side connecting portions at the outer surface side of the ceiling portion and inner-surface-side connecting portions at the inner surface side of the ceiling portion. The power semiconductor module is set within the insert case such that the inner-surface-side connecting portions of the external terminals are inserted into the cylindrical conductors. | 06-03-2010 |
20100133684 | POWER SEMICONDUCTOR MODULE AND MANUFACTURING METHOD THEREOF - A power semiconductor module includes: a circuit board having a metal base plate, a high thermal conductive insulating layer, and a wiring pattern; power semiconductor elements electrically connected to the wiring pattern; tubular external terminal connection bodies provided to the wiring pattern for external terminals; and a transfer mold resin body encapsulated to expose through-holes in the metal base plate and used to fixedly attach cooling fins to the face of the metal base plate on the other side with attachment members, the face of the metal base plate on the other side, and top portions of the tubular external terminal connection bodies, to form insertion holes for the attachment members communicating with the through-holes and having a larger diameter than the through-holes, and to cover the one side and side faces of the metal base plate and the power semiconductor elements. | 06-03-2010 |
20100134979 | POWER SEMICONDUCTOR APPARATUS - A power semiconductor apparatus has: plural power semiconductor units, sealed by a transfer mold resin so that insertion holes of conductive tubular sockets in which plural external terminals can be insertion-connected are exposed in one surface thereof and a metal heat dissipation surface is exposed in another surface thereof; and a conductive connecting member having the plural external terminals. The surfaces of the power semiconductor units that have the insertion holes of tubular sockets are arrayed in the same direction in the plural power semiconductor units. Electrical wiring connection between the plural power semiconductor units is effected by inserting the external terminals of the conductive connecting member into the respective insertion holes of the tubular sockets of the plural power semiconductor units. | 06-03-2010 |
20110049531 | POWER SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD FOR THE SAME - Provided is a power semiconductor device including: an insulating substrate; a circuit pattern formed on an upper surface of the insulating substrate; a power semiconductor formed on the circuit pattern; a plurality of metal socket electrode terminals formed perpendicularly to the circuit pattern or the power semiconductor so as to be in conduction with external terminals; an integral resin sleeve in which a plurality of sleeve parts are integrated, the plurality of sleeve parts being fitted with the plurality of metal socket electrode terminals from above the plurality of metal socket electrode terminals and having openings at both ends thereof; and a molding resin covering the insulating substrate, the circuit pattern, the power semiconductor, the electrode terminals, and the integral resin sleeve. | 03-03-2011 |
20110187003 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device includes power semiconductor elements joined to wiring patterns of a circuit substrate, cylindrical external terminal communication sections, and wiring means for forming electrical connection between, for example, the power semiconductor elements and the cylindrical external terminal communication sections. The power semiconductor elements, the cylindrical external terminal communication sections, and the wiring means are sealed with transfer molding resin. The cylindrical external terminal communication sections are arranged on the wiring patterns so as to be substantially perpendicular to the wiring patterns, such that external terminals are insertable and connectable to the cylindrical external terminal communication sections, and such that a plurality of cylindrical external terminal communication sections among the cylindrical external terminal communication sections are arranged two-dimensionally on each of wiring patterns that act as main circuits. | 08-04-2011 |
20110260315 | POWER BLOCK AND POWER SEMICONDUCTOR MODULE USING SAME - A power block includes an insulating substrate, a conductive pattern formed on the insulating substrate, a power semiconductor chip bonded onto the conductive pattern by lead-free solder, a plurality of electrodes electrically connected to the power semiconductor chip and extending upwardly away from the insulating substrate, and a transfer molding resin covering the conductive pattern, the lead-free solder, the power semiconductor chip, and the plurality of electrodes, wherein surfaces of the plurality of electrodes are exposed at an outer surface of the transfer molding resin and lie in the same plane as the outer surface, the outer surface being located directly above the conductive pattern. | 10-27-2011 |
20120098138 | POWER SEMICONDUCTOR DEVICE - A power semiconductor device of the present invention has the power semiconductor elements having back surfaces bonded to the wiring patterns and surface electrodes on surfaces, the cylindrical communication parts having bottom surfaces bonded on the surface electrodes of the power semiconductor elements and/or on the wiring patterns, the transfer mold resin having concave parts which expose the upper surfaces of the communication parts and covering surfaces other than the upper surfaces of the communication parts, the insulating layer, the wiring patterns, and the power semiconductor elements, and the external terminals having one ends inserted in the upper surfaces of the communication parts and the other ends guided upward, and at least one external terminal has, between both end parts, the bent area which is bent in an L shape and the bent area is embedded in the concave part of the transfer mold resin. | 04-26-2012 |
20120187554 | POWER SEMICONDUCTOR DEVICE, PRINTED WIRING BOARD, AND MECHANISM FOR CONNECTING THE POWER SEMICONDUCTOR DEVICE AND THE PRINTED WIRING BOARD - A power semiconductor device includes a conductive insertion member as an external terminal projecting from a surface of the power semiconductor device facing a printed wiring board. The printed wiring board includes a conductive fitting member mounted on a pad part of the printed wiring board. The fitting member receives the insertion member therein when the power semiconductor device is connected to the printed wiring board. The insertion member has a recessed portion formed on a side surface of the insertion member. The fitting member has a projecting portion with elasticity formed on an inner side surface of the fitting member. The elasticity causes the projecting portion of the fitting member to contact the recessed portion of the insertion member under pressure when the insertion member is inserted into the fitting member. | 07-26-2012 |
20120231586 | POWER SEMICONDUCTOR DEVICE AND MANUFACTURING METHOD FOR THE SAME - A method of manufacturing includes arranging an integral resin sleeve formed by integrating a plurality of sleeve parts so that the sleeve parts are respectively fitted with a plurality of electrode terminals. There is a press-fitting of the sleeve parts to the electrode terminals by performing mold clamping on molds to apply a force downward on the integral resin sleeve. Further, there is a filling of a molding resin into a hollow cavity of the molds. | 09-13-2012 |
20130181225 | SEMICONDUCTOR DEVICE AND METHOD OF MANUFACTURING THE SAME - A semiconductor device includes a metal substrate including a metal base plate, an insulating sheet located on the metal base plate, and a wiring pattern located on the insulating sheet, and a semiconductor element located on the metal substrate. The semiconductor element is sealed with a molding resin. The molding resin extends to side surfaces of the metal substrate. On the side surfaces of the metal substrate, the insulating sheet and the wiring pattern are not exposed from the molding resin, whereas the metal base plate includes a projecting portion exposed from the molding resin. | 07-18-2013 |
20130240912 | SEMICONDUCTOR DEVICE - A semiconductor device including: a semiconductor element; a lead frame connected to the semiconductor element; a metal base plate mounted on the lead frame via a first insulation layer; and a second insulation layer disposed on the opposite side of the metal base plate face on which the first insulation layer is disposed; wherein the first insulation layer is an insulation layer whose heat-dissipation performance is higher than that of the second insulation layer, and the second insulation layer is an insulation layer whose insulation performance is the same as that of the first insulation layer or higher than that of the first insulation layer. | 09-19-2013 |
20140035123 | SEMICONDUCTOR DEVICE AND METHOD FOR MANUFACTURING SEMICONDUCTOR DEVICE - A semiconductor device includes: a semiconductor element; a substrate; a metal plate; and a plurality of spherical particles. The substrate has the semiconductor element mounted thereon. The metal plate has one surface and the other surface that face each other, and the substrate is provided on the one surface. The plurality of spherical particles each has a spherical outer shape, and a part of the spherical outer shape is buried in the other surface of the metal plate. With such a configuration, there can be obtained a semiconductor device that allows promotion of heat dissipation from the semiconductor element, and a method for manufacturing the semiconductor device. | 02-06-2014 |