摘要:
In one embodiment, a semiconductor package and a package mounting substrate are joined using a conductive material column such as a solder column. Each of the semiconductor package and the package mounting substrate include an insulating protective opening exposing a wiring layer therein. The solder column resides within the insulating protective openings to electrically couple the wiring layers. By forming the insulating protective openings with sufficient depth, each protects the solder column against stress faults and thereby forms more reliable electrical connections and supports high-density electrical connections between the semiconductor package and the package mounting substrate.
摘要:
An apparatus, method and mold for manufacturing a semiconductor package are provided. The semiconductor package may include at least a semiconductor chip positioned on a substrate, a bonding wire for electrically connecting the semiconductor chip to the substrate, an encapsulant for enclosing the semiconductor chip and sides of the substrate, and a conductor connector attached to a lower surface of the substrate.
摘要:
A stacked BGA package and a method for manufacturing the stacked BGA package, with reduced size and/or height of a unit package, which may also reduce an electrical connection length. The stacked BGA package may include a base BGA package having at least one semiconductor chip, and a plurality of BGA packages which are stacked on the base BGA package. A plurality of solder balls may electrically connect the base BGA package and the plurality of BGA packages and may then be sealed to reduce the likelihood of damage.
摘要:
A stacked BGA package and a method for manufacturing the stacked BGA package, with reduced size and/or height of a unit package, which may also reduce an electrical connection length. The stacked BGA package may include a base BGA package having at least one semiconductor chip, and a plurality of BGA packages which are stacked on the base BGA package. A plurality of solder balls may electrically connect the base BGA package and the plurality of BGA packages and may then be sealed to reduce the likelihood of damage.
摘要:
A method and apparatus for picking up a semiconductor chip, a method and apparatus for removing a semiconductor chip from a dicing tape, and a method of forming a perforated dicing tape are provided. Air may be blown through air holes in a dicing tape to at least partially separate the semiconductor chip from the dicing tape and/or create a space between the semiconductor chip to weaken the adhesion of the dicing tape to the semiconductor chip. The semiconductor chip may then be picked up by a removal member and completely removed from the dicing tape. Semiconductor chips that are not to be removed may be vacuum-suctioned to the dicing tape. UV radiation or heat may be applied to weaken the adhesion of the dicing tape. The semiconductor chip may be detected by an optical detector. Removing the semiconductor chips by air reduces stress and damage to the semiconductor chips.
摘要:
A stacked BGA package and a method for manufacturing the stacked BGA package, with reduced size and/or height of a unit package, which may also reduce an electrical connection length. The stacked BGA package may include a base BGA package having at least one semiconductor chip, and a plurality of BGA packages which are stacked on the base BGA package. A plurality of solder balls may electrically connect the base BGA package and the plurality of BGA packages and may then be sealed to reduce the likelihood of damage.
摘要:
A PCB strip, a PCB strip assembly device, and methods of fabricating a PCB strip and using a PCB strip assembly device are provided. According to example embodiments, a PCB strip may include a PCB main body including a working area based on a process execution unit, wherein the working area may be divided into a first working area and a second working area and a plurality of units on the working area arrayed with a given interval in at least a width direction of the PCB main body, wherein the plurality of units may be arrayed on the first working area and the second working area and units on the first working area may be symmetric to units on the second working area with respect to a point of symmetry at a center of width of the working area.
摘要:
A method and apparatus for picking up a semiconductor chip, a method and apparatus for removing a semiconductor chip from a dicing tape, and a method of forming a perforated dicing tape are provided. Air may be blown through air holes in a dicing tape to at least partially separate the semiconductor chip from the dicing tape and/or create a space between the semiconductor chip to weaken the adhesion of the dicing tape to the semiconductor chip. The semiconductor chip may then be picked up by a removal member and completely removed from the dicing tape. Semiconductor chips that are not to be removed may be vacuum-suctioned to the dicing tape. UV radiation or heat may be applied to weaken the adhesion of the dicing tape. The semiconductor chip may be detected by an optical detector. Removing the semiconductor chips by air reduces stress and damage to the semiconductor chips.
摘要:
Embodiments of the invention provide a semiconductor-chip mounting body, a semiconductor device including the mounting body, and a method of packaging the semiconductor device. According to some embodiments, when a semiconductor chip is mounted on the mounting body as a flip-chip type, an encapsulation process using an encapsulation resin is not required. In some embodiments, the mounting body includes a substrate formed of a polyimide film, a conductive pattern formed of copper, a protection layer pattern formed of PSR, and an adhesive pattern formed on the protection layer pattern. The adhesive pattern can be formed of an insulating material. A plurality of holes, into which a plurality of bumps formed on the semiconductor chip are inserted to be connected to the conductive pattern, are formed in the protection layer pattern and the adhesive pattern.
摘要:
A semiconductor package and a package mounting substrate can be joined using a conductive material column. Each of the semiconductor package and the package mounting substrate include an insulating protective opening exposing a wiring layer therein. The solder column resides within the insulating protective openings to electrically couple the wiring layers. The insulating protective openings protect the solder column against stress faults to form reliable electrical connections and to support high-density electrical connections between the semiconductor package and the package mounting substrate.