Abstract:
A semiconductor package is provided comprising a package substrate having an opening located in a central region thereof and a circuit pattern provided adjacent to the opening. A first semiconductor chip is located on the package substrate and includes first bonding pads. A pair of second semiconductor chips are spaced apart from each other across the opening and mounted between the package substrate and the first semiconductor chip. Each of the second semiconductor chips includes a second bonding pad. A connection element is further provided to electrically connect the second bonding pad to a corresponding one of the first bonding pads.
Abstract:
A semiconductor package is provided. The semiconductor package includes a package substrate, a semiconductor chip, bonding wires, and a molding film. The package substrate includes a first surface having a recessed portion, a second surface opposed to the first surface, an opening extending from the recessed portion of the first surface to the second surface, and bonding pads provided on the first surface. The semiconductor chip is disposed on the second surface of the package substrate to cover the opening, and includes center pads exposed through the opening. Bonding wires electrically connect the center pads and the bonding pads through the opening. The molding film covers the bonding pads, the center pads, and the bonding wires. A depth of the recessed portion is greater than a distance between the recessed portion of the first surface and a lowermost surface of the molding film.
Abstract:
A semiconductor package includes a semiconductor chip having a first bump group and a second bump group, and a package substrate having a first pattern for data communication with the semiconductor chip and a second pattern for supplying power to the semiconductor chip or grounding the semiconductor chip, wherein the first bump group is disposed on the first pattern and the second bump group is disposed on the second pattern.
Abstract:
Provided is a semiconductor package, a semiconductor module and a method for fabricating the semiconductor package. The method provides a substrate including a bonding pad. The method forms a dielectric layer for exposing the bonding pad on the substrate. The method forms a redistribution line which is electrically connected to the bonding pad, on the dielectric layer. The method forms an external terminal which is electrically connected to the bonding pad without using a solder mask which limits a position of the external terminal, on the redistribution line.
Abstract:
A semiconductor package is provided comprising a package substrate having an opening located in a central region thereof and a circuit pattern provided adjacent to the opening. A first semiconductor chip is located on the package substrate and includes first bonding pads. A pair of second semiconductor chips are spaced apart from each other across the opening and mounted between the package substrate and the first semiconductor chip. Each of the second semiconductor chips includes a second bonding pad. A connection element is further provided to electrically connect the second bonding pad to a corresponding one of the first bonding pads.
Abstract:
A semiconductor module, comprising: a module substrate with an electric connection element; at least one semiconductor package provided on the module substrate, the at least one semiconductor package including a plurality of semiconductor chips; and a connection region electrically connecting the semiconductor package to the module substrate, wherein the connection region comprises: a first region electrically connected between data signal terminals of a first chip of the semiconductor chips of the semiconductor package and the module substrate; a second region electrically connected between data signal terminals of a second chip of the semiconductor chips of the semiconductor package and the module substrate; and a third region electrically connected between command/address signal terminals of both the first and second chips of the semiconductor package and the module substrate, wherein the first region is closer to the electric connection element of the module substrate, compared with the third region.
Abstract:
A semiconductor module, comprising: a module substrate with an electric connection element; at least one semiconductor package provided on the module substrate, the at least one semiconductor package including a plurality of semiconductor chips; and a connection region electrically connecting the semiconductor package to the module substrate, wherein the connection region comprises: a first region electrically connected between data signal terminals of a first chip of the semiconductor chips of the semiconductor package and the module substrate; a second region electrically connected between data signal terminals of a second chip of the semiconductor chips of the semiconductor package and the module substrate; and a third region electrically connected between command/address signal terminals of both the first and second chips of the semiconductor package and the module substrate, wherein the first region is closer to the electric connection element of the module substrate, compared with the third region.
Abstract:
A semiconductor package is provided comprising a package substrate having an opening located in a central region thereof and a circuit pattern provided adjacent to the opening. A first semiconductor chip is located on the package substrate and includes first bonding pads. A pair of second semiconductor chips are spaced apart from each other across the opening and mounted between the package substrate and the first semiconductor chip. Each of the second semiconductor chips includes a second bonding pad. A connection element is further provided to electrically connect the second bonding pad to a corresponding one of the first bonding pads.
Abstract:
A semiconductor package is provided comprising a package substrate having an opening located in a central region thereof and a circuit pattern provided adjacent to the opening. A first semiconductor chip is located on the package substrate and includes first bonding pads. A pair of second semiconductor chips are spaced apart from each other across the opening and mounted between the package substrate and the first semiconductor chip. Each of the second semiconductor chips includes a second bonding pad. A connection element is further provided to electrically connect the second bonding pad to a corresponding one of the first bonding pads.
Abstract:
A semiconductor chip package eliminates and minimizes a power noise generated from a voltage generation circuit in the semiconductor chip package includes an integrated circuit chip with a voltage generation circuit that receives an external voltage to generate a supply voltage to be used in an internal circuit and a connection terminal connected to an output node of the voltage generation circuit, and a mounting substrate including a noise eliminator electrically connected to the connection terminal to reduce a power noise of the supply voltage and a mounting substrate to mount the integrated circuit chip to package the integrated circuit chip as the semiconductor chip package.