Patent application number | Description | Published |
20120043371 | WIRING SUBSTRATE MANUFACTURING METHOD - A wiring substrate includes a conductor layer and a resin insulating layer stacked alternately, solder resist layers formed on outermost surfaces on a first principal surface side and an opposing second principal surface side respectively, and outermost conductor layers exposed from opening portions formed in the respective solder resist layers. A method of manufacturing the wiring substrate includes: forming a first underlying layer and a second underlying layer on the respective outermost conductor layers; supplying a first solder onto the first underlying layer, and a second solder onto the second underlying layer; and connecting the first solder to the first underlying layer and the second solder to the second underlying layer respectively, by heating the first solder and the second solder simultaneously. | 02-23-2012 |
20130081862 | WIRING SUBSTRATE AND METHOD OF MANUFACTURING THE SAME - Embodiments of the present invention provide a wiring substrate which is excellent in terms of the reliability of connection between the wiring substrate and a semiconductor chip. In some embodiments the wiring substrate comprises a first build-up layer in which resin insulation layers and conductor layers are laminated alternately. The outermost conductor layer can include a plurality of connection terminal portions to which a semiconductor chip is flip-chip connected. The plurality of connection terminal portions can be exposed through openings of a solder resist layer. Each of the connection terminal portions includes a connection region to which a connection terminal of the semiconductor chip is to be connected, and a wiring region which extends in a planar direction from the connection region and which is narrower than the connection region. The surface of the wiring region has a solder wettability lower than that of the surface of the connection region. | 04-04-2013 |
20140069701 | WIRING BOARD - A wiring board includes a base layer, a plurality of connection terminals and a surface layer. The base layer is electrically insulative. The plurality of connection terminals are conductive and formed on the base layer. The surface layer is electrically insulative, and fills gaps between the plurality of connection terminals on the base layer. The connection terminals include a base portion made of a conductive first metal and a coating portion made of a conductive second metal that is different from the first metal. The coating portion penetrates the surface layer, and coats the base portion to the base layer. | 03-13-2014 |
20140097007 | WIRING SUBSTRATE AND METHOD FOR PRODUCING THE SAME - Embodiments of the present wiring substrate include a stacked body including one or more insulation layers and one or more conductive layers, wherein the wiring substrate has a plurality of connection terminals formed on the stacked body, each connection terminal has a top surface whose area is smaller than that of each of opposite side surfaces thereof, and a filling member provided in a filling manner between the connection terminals. The top surface of each connection terminal has an area larger than that of a portion of each side surfaces portion exposed from the filling member, and a bonding layer containing a solder is formed on the top surface. | 04-10-2014 |
20140124242 | WIRING SUBSTRATE - A wiring substrate according to the present invention includes a laminate of one or more insulation layers and one or more conductive layers and further includes a plurality of connection terminals formed on the laminate and spaced apart from one another, each having a step formed at the outer periphery of a first main surface opposite a contact surface in contact with the laminate, and a filling member provided in a filling manner between the connection terminals. | 05-08-2014 |
20150189752 | WIRING SUBSTRATE AND PRODUCTION METHOD THEREFOR - A wiring substrate includes a surface layer having electrical insulation properties and a connection terminal having electrical conduction properties and protruding from the surface layer. The connection terminal includes a base portion, a covering portion and a filling portion. The base portion of the connection terminal is made of an electrically conductive first metal and located adjacent to the surface layer so as to extend through the surface layer and protrude from the surface layer. The covering portion of the connection terminal is made of an electrically conductive second metal having a melting point lower than that of the first metal and located so as to cover the base portion. The filling portion of the connection terminal is made of at least one of the second metal and an alloy containing the first and second metals and located so as to fill a hollow in the base portion. | 07-02-2015 |
20150208501 | WIRING BOARD AND METHOD FOR MANUFACTURING SAME - To provide a wiring board excellent in connection reliability with a semiconductor chip. A first buildup layer | 07-23-2015 |
20150216059 | WIRING BOARD AND MANUFACTURING METHOD OF THE SAME - To provide a wiring board in which wiring conductors are securely protected by a precise and rigid dam portion formed on an outermost layer of a laminate and that is excellent in connection reliability with a semiconductor chip. A laminate that configures this wiring board includes multiple connection terminal portions and wiring conductors as a conductor layer of the outermost layer. The wiring conductors are arranged at predetermined positions, passing through between multiple connection terminal portions for flip-chip mounting a semiconductor chip. A resin insulating layer of the outermost layer of the laminate has a dam portion and a reinforcement portion. The dam portion covers the wiring conductors. The reinforcement portion is formed, between the wiring conductor and the connection terminal portion that is adjacent to the wiring conductor, lower than a height of the dam portion. The reinforcement portion is concatenated with a side surface of the dam portion. | 07-30-2015 |