Embodiments are directed to a method of forming a semiconductor chip package and resulting structures having a mixed under-bump metallization (UBM) size and pitch on a single die. A first set of UBMs having a first total plateable surface area is formed on a first region of a die. A second set of UBMs having an equal total plateable surface area is formed on a second region of the die. A solder bump having a calculated solder height is applied to a plateable surface of each UBM. The solder height is calculated such that a volume of solder in the first region is equal to a volume of solder in the second region.

A core material has a core; a solder layer provided outside the core and being a solder alloy containing Sn and at least any one element of Ag, Cu, Sb, Ni, Co, Ge, Ga, Fe, Al, In, Cd, Zn, Pb, Au, P, S, Si, Ti, Mg, Pd, and Pt; and a Sn layer provided outside the solder layer. The solder layer has a thickness of 1 μm or more on one side. The Sn layer has a thickness of 0.1 μm or more on one side. A thickness of the Sn layer is 0.215% or more and 36% or less of the thickness of the solder layer.

The present disclosure provides a semiconductor structure and a method for preparing it. After planarization of the Cu layer, by means of wet etch process, Cu residues near an edge of a Cu post can be effectively removed, and a first height difference is configured to be between the Cu post and an insulating layer. Further, an Si substrate is then dry etched, so that a second height difference is configured to be between the Si substrate and the insulating layer, and the second height difference is arranged to be greater than the first height difference. In this way, a connection of Cu inside and outside the insulating layer may be further avoided, thereby effectively avoiding an influence on electrical properties of a device.

An embodiment bump on trace (BOT) structure includes a contact element supported by an integrated circuit, an under bump metallurgy (UBM) feature electrically coupled to the contact element, a metal ladder bump mounted on the under bump metallurgy feature, the metal ladder bump having a first tapering profile, and a substrate trace mounted on a substrate, the substrate trace having a second tapering profile and coupled to the metal ladder bump through direct metal-to-metal bonding. An embodiment chip-to-chip structure may be fabricated in a similar fashion.

An integrated circuit package may be formed including at least one die side integrated circuit device having an active surface electrically attached to an electronic interposer, wherein the at least one die side integrated circuit device is at least partially encased in a mold material layer and wherein a back surface of the at least one die side integrated circuit device is in substantially the same plane as an outer surface of the mold material layer. At least one stacked integrated circuit device may be electrically attached to the back surface of the at least one die side integrated circuit through an interconnection structure formed between the at least one die side integrated circuit device and the at least one stacked integrated circuit device.

An integrated circuit package may be formed including at least one die side integrated circuit device having an active surface electrically attached to an electronic interposer, wherein the at least one die side integrated circuit device is at least partially encased in a mold material layer and wherein a back surface of the at least one die side integrated circuit device is in substantially the same plane as an outer surface of the mold material layer. At least one stacked integrated circuit device may be electrically attached to the back surface of the at least one die side integrated circuit through an interconnection structure formed between the at least one die side integrated circuit device and the at least one stacked integrated circuit device.

An embodiment bump on trace (BOT) structure includes a contact element supported by an integrated circuit, an under bump metallurgy (UBM) feature electrically coupled to the contact element, a metal ladder bump mounted on the under bump metallurgy feature, the metal ladder bump having a first tapering profile, and a substrate trace mounted on a substrate, the substrate trace having a second tapering profile and coupled to the metal ladder bump through direct metal-to-metal bonding. An embodiment chip-to-chip structure may be fabricated in a similar fashion.

In one example, a semiconductor device can comprise (a) an electronic device comprising a device top side, a device bottom side opposite the device top side, and a device sidewall between the device top side and the device bottom side, (b) a first conductor comprising, a first conductor side section on the device sidewall, a first conductor top section on the device top side and coupled to the first conductor side section, and a first conductor bottom section coupled to the first conductor side section, and (c) a protective material covering the first conductor and the electronic device. A lower surface of the first conductor top section can be higher than the device top side, and an upper surface of the first conductor bottom section can be lower than the device top side. Other examples and related methods are also disclosed herein.

In one example, a semiconductor device can comprise (a) an electronic device comprising a device top side, a device bottom side opposite the device top side, and a device sidewall between the device top side and the device bottom side, (b) a first conductor comprising, a first conductor side section on the device sidewall, a first conductor top section on the device top side and coupled to the first conductor side section, and a first conductor bottom section coupled to the first conductor side section, and (c) a protective material covering the first conductor and the electronic device. A lower surface of the first conductor top section can be higher than the device top side, and an upper surface of the first conductor bottom section can be lower than the device top side. Other examples and related methods are also disclosed herein.

A semiconductor package includes a semiconductor chip having at least one chip pad disposed on one surface thereof; a wiring pattern disposed on top of the semiconductor chip and having at least a portion thereof in contact with the chip pad to be electrically connected to the chip pad; and a solder bump disposed on outer surface of the wiring pattern to be electrically connected to the chip pad through the wiring pattern.