摘要:
A package comprising at least one electronic chip, an encapsulant encapsulating at least part of the at least one electronic chip, a first electrically conductive contact structure extending partially within and partially outside of the encapsulant and being electrically coupled with at least one first terminal of at least one of the at least one electronic chip, and a second electrically conductive contact structure extending partially within and partially outside of the encapsulant and being electrically coupled with at least one second terminal of at least one of the at least one electronic chip, wherein at least a portion of the first electrically conductive contact structure and at least a portion of the second electrically conductive contact structure within the encapsulant are spaced in a direction between two opposing main surfaces of the package.
摘要:
A method for manufacturing semiconductor devices is disclosed. In one embodiment a semiconductor substrate having a first surface, a second surface opposite to the first surface and a plurality of semiconductor components is provided. The semiconductor substrate has a device thickness. At least one metallisation layer is formed on the second surface of the semiconductor substrate. The metallisation layer has a thickness which is greater than the device thickness.
摘要:
An interconnect (124) suitable for attachment of integrated circuit assemblies to each other comprises a polymer member (130) which is conductive and/or is coated with a conductive material (144). Such interconnects replace metal bond wires in some embodiments. Other features are also provided.
摘要:
A method of making a tiled array of semiconductor dies includes aligning and flattening. One end of each semiconductor die has attached thereto a respective printed circuit board. The aligning aligns the semiconductor dies into the tiled array in such a way that the semiconductor dies rest on a vacuum plate and the one end of each die extends beyond an edge of the vacuum plate. The flattening flattens the semiconductor dies against the vacuum plate with a vacuum after the semiconductor dies are aligned.
摘要:
A method for manufacturing semiconductor devices is disclosed. In one embodiment a semiconductor substrate having a first surface, a second surface opposite to the first surface and a plurality of semiconductor components is provided. The semiconductor substrate has a device thickness. At least one metallisation layer is formed on the second surface of the semiconductor substrate. The metallisation layer has a thickness which is greater than the device thickness.
摘要:
A method for manufacturing semiconductor devices is disclosed. A semiconductor wafer is provided having a first surface and a second surface opposite to the first surface. A first glass substrate is provided which has at least one of cavities and openings at the bonding surface. The first glass substrate is bonded to the first surface of the semiconductor wafer such that the metal pads are arranged within respective cavities or openings of the first glass substrate. The second surface of the semiconductor wafer is machined. At least one metallization region is formed on the machined second surface of the semiconductor wafer.
摘要:
A semiconductor device has a semiconductor die having a plurality of die bump pad and substrate having a plurality of conductive trace with an interconnect site. A solder mask patch is formed interstitially between the die bump pads or interconnect sites. A conductive bump material is deposited on the interconnect sites or die bump pads. The semiconductor die is mounted to the substrate so that the conductive bump material is disposed between the die bump pads and interconnect sites. The conductive bump material is reflowed without a solder mask around the die bump pad or interconnect site to form an interconnect structure between the semiconductor die and substrate. The solder mask patch confines the conductive bump material within the die bump pad or interconnect site. The interconnect structure can include a fusible portion and non-fusible portion. An encapsulant is deposited between the semiconductor die and substrate.
摘要:
A method for manufacturing semiconductor devices is disclosed. A semiconductor wafer is provided having a first surface and a second surface opposite to the first surface. A first glass substrate is provided which has at least one of cavities and openings at the bonding surface. The first glass substrate is bonded to the first surface of the semiconductor wafer such that the metal pads are arranged within respective cavities or openings of the first glass substrate. The second surface of the semiconductor wafer is machined. At least one metallisation region is formed on the machined second surface of the semiconductor wafer.
摘要:
A semiconductor wafer contains a plurality of semiconductor die each having a peripheral area around the die. A first insulating layer is formed over the die. A recessed region with angled sidewall is formed in the peripheral area. A first conductive layer is formed over the first insulating layer outside the recessed region and further into the recessed region. A conductive pillar is formed over the first conductive layer within the recessed region. A second insulating layer is formed over the first insulating layer, conductive pillar, and first conductive layer such that the conductive pillar is exposed from the second insulating layer. A dicing channel partially through the peripheral area. The semiconductor wafer undergoes backgrinding to the dicing channel to singulate the semiconductor wafer and separate the semiconductor die. The semiconductor die can be disposed in a semiconductor package with other components and electrically interconnected through the conductive pillar.
摘要:
A semiconductor device has a semiconductor die with die bump pads and substrate with trace lines having integrated bump pads. A solder mask patch is formed interstitially between the die bump pads or integrated bump pads. The solder mask patch contains non-wettable material. Conductive bump material is deposited over the integrated bump pads or die bump pads. The semiconductor die is mounted over the substrate so that the conductive bump material is disposed between the die bump pads and integrated bump pads. The bump material is reflowed without a solder mask around the integrated bump pads to form an interconnect between the semiconductor die and substrate. The solder mask patch confines the conductive bump material within a footprint of the die bump pads or integrated bump pads during reflow. The interconnect can have a non-fusible base and fusible cap.