摘要:
Techniques for fabricating multiple device components. Specifically, techniques for fabricating a stacked package comprising at least one I/C module and a multi-chip package. The multi-chip package includes a plurality of integrated circuit dices coupled to a carrier. The dice are encapsulated such that conductive elements are exposed through the encapsulant. The conductive elements are electrically coupled to the chips. The I/C module comprises an interposer having a plurality of integrated circuit dice disposed thereon. The dice of the I/C module are electrically coupled to the interposer via bondwires. The interposer is configured such that vias are aligned with the conductive elements on the multi-chip package. The multi-chip package and I/C module may be fabricated separately and subsequently coupled together to form a stacked package.
摘要翻译:制造多器件组件的技术。 具体地,涉及用于制造包括至少一个I / C模块和多芯片封装的堆叠封装的技术。 多芯片封装包括耦合到载体的多个集成电路芯片。 骰子被封装,使得导电元件通过密封剂暴露。 导电元件电耦合到芯片。 I / C模块包括具有设置在其上的多个集成电路芯片的插入器。 I / C模块的裸片通过焊丝电耦合到插入器。 插入器被配置为使得通孔与多芯片封装上的导电元件对准。 多芯片封装和I / C模块可以单独制造,然后耦合在一起以形成堆叠封装。
摘要:
Packaging assemblies for optically interactive devices and methods of forming the packaging assemblies in an efficient manner that eliminates or reduces the occurrence of process contaminants. In a first embodiment, a transparent cover is attached to a wafer of semiconductor material containing a plurality of optically interactive devices. The wafer is singulated, and the optically interactive devices are mounted on an interposer and electrically connected with wire bonds. In a second embodiment, the optically interactive devices are electrically connected to the interposer with back side conductive elements. In a third embodiment, the optically interactive devices are mounted to the interposer prior to attaching a transparent cover. A layer of encapsulant material is formed over the interposer, and the interposer and encapsulant material are cut to provide individual packaging assemblies. In a fourth embodiment, the optically interactive devices are mounted in a preformed leadless chip carrier.
摘要:
The invention provides methods for packaging for electronic devices that are light or other radiation-sensitive, such as image sensors including CCD or CMOS chips. In one embodiment of the invention, an image sensor package is assembled by surrounding a chip with a barrier of transfer mold compound and covering the chip with a transparent lid. In another embodiment of the invention, the perimeter area of a chip, including interconnections, is encapsulated with a liquid dispensed epoxy, and a transparent lid is attached. In yet another embodiment of the invention, a unitary shell of entirely transparent material is used. In yet another embodiment of the invention, a substrate-mounted chip and a transparent lid are loaded into a transfer mold that holds them in optimal alignment. The transfer mold is then filled with molding compound to encapsulate the chip and interconnections, and to retain the transparent lid.
摘要:
Various embodiments for moisture-resistant image sensor packaging structures and methods of assembly are disclosed. Image sensor packages of the present invention include an interposer, a housing structure formed on the interposer for surrounding an image sensor chip, and a transparent cover. The housing structure may cover substantially all of the interposer chip surface. In another embodiment, the housing structure also covers substantially all of the interposer edge surfaces. The housing structure may also cover substantially all of the interposer attachment surface. An image sensor chip is electrically connected to the interposer with sealed wire bond connections or with sealed flip-chip connections. The housing structure may include runners that enable simultaneous sealing of the interior of the image sensor package and of the transparent cover.
摘要:
Various embodiments for molding tools for moisture-resistant image sensor packaging structures and methods of assembly are disclosed. Image sensor packages of the present invention include an interposer, a housing structure formed on the interposer for surrounding an image sensor chip, and a transparent cover. The housing structure may cover substantially all of the interposer chip surface. In another embodiment, the housing structure also covers substantially all of the interposer edge surfaces. The housing structure may also cover substantially all of the interposer attachment surface. An image sensor chip is electrically connected to the interposer with sealed wire bond connections or with sealed flip-chip connections. The housing structure may include runners that enable simultaneous sealing of the interior of the image sensor package and of the transparent cover.
摘要:
The invention provides methods for packaging for electronic devices that are light or other radiation-sensitive, such as image sensors including CCD or CMOS chips. In one embodiment of the invention, an image sensor package is assembled by surrounding a chip with a barrier of transfer mold compound and covering the chip with a transparent lid. In another embodiment of the invention, the perimeter area of a chip, including interconnections such as wire bonds and bond pads, is encapsulated with a liquid dispensed epoxy, and a transparent lid is attached. In yet another embodiment of the invention, chip encapsulation is accomplished with a unitary shell of entirely transparent material. In yet another embodiment of the invention, a substrate-mounted chip and a transparent lid are loaded into a transfer mold that holds them in optimal alignment.
摘要:
Apparatus and methods for forming semiconductor assemblies. An interposer includes a perimeter wall surrounding at least a portion of an upper surface thereof to form a recess. An array of electrical connection pads is located within the recess. A semiconductor die can be flip chip attached to the interposer by at least partial insertion of the semiconductor die within the recess with discrete conductive elements between bond pads of the semiconductor die and electrical connection pads of the interposer. The electrical connection pads communicate with a number of other electrical contact pads accessible elsewhere on the interposer, preferably on a lower surface thereof. A low viscosity underfill encapsulant is disposed between the semiconductor die and the interposer and around the discrete conductive elements by permitting the same to flow into the space between the die and the perimeter wall. The encapsulant may form an underfill or substantially encapsulate the semiconductor die within the recess of the interposer.
摘要:
A semiconductor device includes two or more semiconductor devices with bond pads that are electrically connected to the same, single surface of a plurality of leads. The two or more devices may include substantially centrally located bond pads or substantially identically arranged bond pads.
摘要:
A mold apparatus for encapsulating IC chips mounted on a substrate. In an exemplary embodiment a mold is provided with an upper mold platen having a plurality of cavities for encapsulating wire bonds and related interconnections on a first side of a multi-chip carrier substrate. The mold further includes a lower mold platen with a single cavity for encapsulating substantially the entire second chip side of the carrier substrate. Support elements are provided for supporting the multi-chip carrier substrate. The support elements are configured to prevent or minimize substrate deflection during the fill of the mold cavities with encapsulant material. The support elements may be integral to a mold cavity or may be removable. The support elements may further be aligned along lines representing a series of individual device packages. The molded assembly may then be cut along marks left in the encapsulant to define individual device packages.
摘要:
A BGA and a system implementing a BGA. Specifically, a BGA package is encapsulated after the balls are attached to the package. The backside of the package having the balls disposed thereon may be completely covered by the encapsulant. The encapsulant is disposed in direct contact about a portion of the balls. A liner is provided to facilitate the formation of an unencapsulated portion of each ball. The unencapsulated portion may be used to couple the package to a system.