摘要:
A wiring board has an insulating layer, a plurality of wiring layers formed in such a way as to be insulated from each other by the insulating layer, and a plurality of vias formed in the insulating layer to connect the wiring layers. Of the wiring layers, a surface wiring layer formed in one surface of the insulating layer include a first metal film exposed from the one surface and a second metal film embedded in the insulating layer and stacked on the first metal film. Edges of the first metal film project from edges of the second metal film in the direction in which the second metal film spreads. By designing the shape of the wiring layers embedded in the insulating layer in this manner, it is possible to obtain a highly reliable wiring board that can be effectively prevented from side etching in the manufacturing process and can adapt to miniaturization and highly dense packaging of wires.
摘要:
A wiring board composite body includes a supporting substrate, and wiring boards formed on each of the upper and the lower surfaces of the supporting substrate. The supporting substrate includes a supporting body, and a metal body arranged on each of the upper and the lower surfaces of the supporting body. The wiring board comprises at least an insulation layer insulating upper and lower wirings, and a via connecting the upper and the lower wirings. The wiring board mounted on the metal body constitutes a wiring board with the metal body. Thus, the supporting body supporting the metal body is effectively used in a process of forming the wiring board on the metal body, and the wiring board composite body, which has advantageous structural and production characteristics, is provided. A semiconductor device and a method for manufacturing such wiring board composite body and the semiconductor device are also provided.
摘要:
A wiring board has an insulating layer, a plurality of wiring layers formed in such a way as to be insulated from each other by the insulating layer, and a plurality of vias formed in the insulating layer to connect the wiring layers. Of the wiring layers, a surface wiring layer formed in one surface of the insulating layer include a first metal film exposed from the one surface and a second metal film embedded in the insulating layer and stacked on the first metal film. Edges of the first metal film project from edges of the second metal film in the direction in which the second metal film spreads. By designing the shape of the wiring layers embedded in the insulating layer in this manner, it is possible to obtain a highly reliable wiring board that can be effectively prevented from side etching in the manufacturing process and can adapt to miniaturization and highly dense packaging of wires.
摘要:
A wiring board has an insulating layer, a plurality of wiring layers formed in such a way as to be insulated from each other by the insulating layer, and a plurality of vias formed in the insulating layer to connect the wiring layers. Of the wiring layers, a surface wiring layer formed in one surface of the insulating layer include a first metal film exposed from the one surface and a second metal film embedded in the insulating layer and stacked on the first metal film. Edges of the first metal film project from edges of the second metal film in the direction in which the second metal film spreads. By designing the shape of the wiring layers embedded in the insulating layer in this manner, it is possible to obtain a highly reliable wiring board that can be effectively prevented from side etching in the manufacturing process and can adapt to miniaturization and highly dense packaging of wires.
摘要:
A semiconductor device including a metal frame having a penetrating opening; a semiconductor chip provided in the opening; an insulating layer provided on the upper surface of the metal frame such that the insulating layer covers the upper surface, which is the circuit-formed surface of the semiconductor chip; an interconnect layer provided only on the upper-surface side of the metal frame with intervention of the insulating material and electrically connected to a circuit of the semiconductor chip; a via conductor provided on the upper surface of said semiconductor chip to electrically connect the circuit of the semiconductor chip and the interconnect layer; and a resin layer provided on the lower surface of the metal frame.
摘要:
A semiconductor device including a metal frame having a penetrating opening; a semiconductor chip provided in the opening; an insulating layer provided on the upper surface of the metal frame such that the insulating layer covers the upper surface, which is the circuit-formed surface of the semiconductor chip; an interconnect layer provided only on the upper-surface side of the metal frame with intervention of the insulating material and electrically connected to a circuit of the semiconductor chip; a via conductor provided on the upper surface of said semiconductor chip to electrically connect the circuit of the semiconductor chip and the interconnect layer; and a resin layer provided on the lower surface of the metal frame.
摘要:
A transparent board is positioned on a support board provided with a positioning mark, and a release material is provided. A semiconductor element is then positioned so that the electrode element faces upward, and the support board is then removed. An insulating resin is then formed on the release material so as to cover the semiconductor element; and a via, a wiring layer, an insulation layer, an external terminal, and a solder resist are then formed. The transparent board is then peeled from the semiconductor device through the use of the release material. A chip can thereby be mounted with high precision, there is no need to provide a positioning mark during mounting of the chip on the substrate in the manufacturing process, and the substrate can easily be removed. As a result, a semiconductor device having high density and a thin profile can be manufactured at low cost.
摘要:
A transparent board is positioned on a support board provided with a positioning mark, and a release material is provided. A semiconductor element is then positioned so that the electrode element faces upward, and the support board is then removed. An insulating resin is then formed on the release material so as to cover the semiconductor element; and a via, a wiring layer, an insulation layer, an external terminal, and a solder resist are then formed. The transparent board is then peeled from the semiconductor device through the use of the release material. A chip can thereby be mounted with high precision, there is no need to provide a positioning mark during mounting of the chip on the substrate in the manufacturing process, and the substrate can easily be removed. As a result, a semiconductor device having high density and a thin profile can be manufactured at low cost.
摘要:
A transparent board is positioned on a support board provided with a positioning mark, and a release material is provided. A semiconductor element is then positioned so that the electrode element faces upward, and the support board is then removed. An insulating resin is then formed on the release material so as to cover the semiconductor element; and a via, a wiring layer, an insulation layer, an external terminal, and a solder resist are then formed. The transparent board is then peeled from the semiconductor device through the use of the release material. A chip can thereby be mounted with high precision, there is no need to provide a positioning mark during mounting of the chip on the substrate in the manufacturing process, and the substrate can easily be removed. As a result, a semiconductor device having high density and a thin profile can be manufactured at low cost.
摘要:
A circuit board includes a functional device, a circuit board embedding therein the functional device, and first and second conductive-wiring layers formed on the front and rear surfaces of the circuit board to sandwich therebetween the functional device and each include at least one conductor layer. The surface of each of the outermost patterned interconnections of the first conductive-wiring layer is exposed, and the surface of a first dielectric layer isolating the outermost patterned interconnections from one another protrudes from the surface of the each of the patterned interconnections. The patterned interconnections of the second conductive-wiring layer are connected to respective electrode terminals of the functional device, and the surface of a second dielectric layer isolating the electrode terminals from one another is substrate within the same plane as the surface of the electrode terminals disposed adjacent to the second dielectric layer.