摘要:
A transfer material capable of transferring a fine wiring pattern to a substrate reliably and easily. The transfer material includes at least three layers of a first metal layer as a carrier, a second metal layer that is transferred to the substrate as a wiring pattern, and a peel layer adhering the first and second metal layers releasably. On the surface portion of the first metal layer, a concave and convex portion corresponding to the wiring pattern is formed, and the peel layer and the second metal layer are formed on a region of the convex portions.
摘要:
A circuit component built-in module includes: a first electrical insulating substrate made of a mixture containing an inorganic filler and a thermosetting resin; a plurality of wiring patterns formed at least on a principal surface of the first electrical insulating substrate; a semiconductor chip incorporated in the first electrical insulating substrate and connected electrically with the wiring patterns; and inner vias electrically connecting the plurality of wiring patterns with one another, the inner vias passing through the first electrical insulating substrate. In the circuit component built-in module, the semiconductor chip has a thickness of not less than 30 μm and not more than 100 μm, and has a non-wired surface ground, and the circuit component built-in module has a thickness in a range of not less than 80 μm and not more than 200 μm. With this configuration, the high-performance and compact-size circuit component built-in module in which circuit components are mounted at a high density is provided so as to be used suitably in various types of electronic information devices.
摘要:
A transfer material capable of transferring a fine wiring pattern to a substrate reliably and easily. The transfer material includes at least three layers of a first metal layer as a carrier, a second metal layer that is transferred to the substrate as a wiring pattern, and a peel layer adhering the first and second metal layers releasably. On the surface portion of the first metal layer, a concave and convex portion corresponding to the wiring pattern is formed, and the peel layer and the second metal layer are formed on a region of the convex portions.
摘要:
A semiconductor device (1) of the present invention includes a semiconductor element (103) including electrode parts (104), and a wiring substrate (108) including an insulation layer (101), electrode-part-connection electrodes (102) provided in the insulation layer (101), and external electrodes (107) that is provided in the insulation layer (101) and that is connected electrically with the electrode-part-connection electrodes (102), in which the electrode parts (104) and the electrode-part-connection electrodes (102) are connected electrically with each other. The insulation layer (101) has an elastic modulus measured according to JIS K6911 of not less than 0.1 GP a and not more than 5 GPa, and the electrodes (104) and the electrode-part-connection electrodes (102) are connected by metal joint.
摘要:
A semiconductor device (1) of the present invention includes a semiconductor element (103) including electrode parts (104), and a wiring substrate (108) including an insulation layer (101), electrode-part-connection electrodes (102) provided in the insulation layer (101), and external electrodes (107) that is provided in the insulation layer (101) and that is connected electrically with the electrode-part-connection electrodes (102), in which the electrode parts (104) and the electrode-part-connection electrodes (102) are connected electrically with each other. The insulation layer (101) has an elastic modulus measured according to JIS K6911 of not less than 0.1 GP a and not more than 5 GPa, and the electrodes (104) and the electrode-part-connection electrodes (102) are connected by metal joint.
摘要:
A component built-in module includes an insulating layer, wirings integrated with both surfaces of the insulating layer, a via connecting the wirings, and one or more components selected from an electronic component and a semiconductor, which is embedded inside of the insulating layer. In this module, at least one of the wirings is formed on a surface of a wiring board, and the components embedded inside of the insulating layer are mounted on and integrated with the wiring board before embedding. This configuration allows the components such as a semiconductor to undergo a mounting inspection and a property inspection before embedding. As a result, the yields of the module can be improved. In addition, since the components are integrated with the wiring board and embedded, the strength thereof can be enhanced.
摘要:
A component built-in module includes an electric insulation layer, first wiring patterns in a plurality of layers that are laminated with the electric insulation layer being interposed therebetween, at least one first inner via electrically connecting the first wiring patterns in different layers with each other, and at least one electronic component that is embedded in the electric insulation layer and is mounted on any one of the first wiring patterns in the plurality of layers, wherein at least one of the first inner vias is present in a range that overlaps a range in which the electronic component is present in a lamination direction in which the first wiring patterns are laminated, and has a height in the lamination direction that is smaller than a height of the electronic component. Since the first inner via has a small height, the via diameter can be decreased. Therefore, it is possible to provide a component built-in module that has high reliability and is suitable for high-density component mounting.
摘要:
An insulation sheet for use in producing a wiring substrate comprises, as via bole conductors, conductive paste filled in via holes formed through the insulation sheet, and a curing-starting temperature of the conductive paste is lower than a melting-starting temperature of the insulation sheet. A wiring substrate is produced by laminating such insulation sheets, that have conductive paste in via holes, and subjecting this laminate to thermo-compression bonding, wherein deformation of via holes and dislocation of the via holes, because of a molten insulation sheet, does not occur.
摘要:
A circuit component built-in module includes: a first electrical insulating substrate made of a mixture containing an inorganic filler and a thermosetting resin; a plurality of wiring patterns formed at least on a principal surface of the first electrical insulating substrate; a semiconductor chip incorporated in the first electrical insulating substrate and connected electrically with the wiring patterns; and inner vias electrically connecting the plurality of wiring patterns with one another, the inner vias passing through the first electrical insulating substrate. In the circuit component built-in module, the semiconductor chip has a thickness of not less than 30 &mgr;m and not more than 100 &mgr;m, and has a non-wired surface ground, and the circuit component built-in module has a thickness in a range of not less than 80 &mgr;m and not more than 200 &mgr;m. With this configuration, the high-performance and compact-size circuit component built-in module in which circuit components are mounted at a high density is provided so as to be used suitably in various types of electronic information devices.
摘要:
A component built-in module including a core layer formed of an electric insulating material, and an electric insulating layer and a plurality of wiring patterns, which are formed on at least one surface of the core layer. The electric insulating material of the core layer is formed of a mixture including at least an inorganic filler and a thermosetting resin. At least one or more of active components and/or passive components are contained in an internal portion of the core layer. The core layer has a plurality of wiring patterns and a plurality of inner vias formed of a conductive resin. The electric insulating material formed of the mixture including at least an inorganic filler and a thermosetting resin of the core layer has a modulus of elasticity at room temperature in the range from 0.6 GPa to 10 GPa. Thus, it is possible to provide a thermal conductive component built-in module capable of filling the inorganic filler with high density; burying the active component such as a semiconductor etc. and the passive component such as a chip resistor, a chip capacitor, etc. in the internal portion of the substrate; and simply producing a multilayer wiring structure.