A semiconductor package structure and a method for making a semiconductor package. As non-limiting examples, various aspects of this disclosure provide various semiconductor package structures, and methods for making thereof, that comprise a connect die that routes electrical signals between a plurality of other semiconductor die.

Systems and methods for multi-height interconnect structures for a semiconductor device are provided herein. The multi-height interconnect structure generally includes a primary level semiconductor die having a primary conductive pillar and a secondary conductive pillar, where the primary conductive pillar has a greater height than the secondary conductive pillar. The semiconductor device may further include a substrate electrically coupled to the primary level semiconductor die through the primary conductive pillar and a secondary level semiconductor die electrically coupled to the primary level semiconductor die through the secondary conductive pillar. The multi-height pillars may be formed using a single photoresist mask or multiple photoresist masks. In some configurations, the primary and secondary conductive pillars may be arranged on only the front-side of the dies and/or substrate.

A semiconductor package includes a package substrate, a lower semiconductor device arranged on the package substrate and including first through electrodes, first lower connection bumps arranged between the package substrate and the lower semiconductor device and electrically connecting the package substrate to the first through electrodes, a connecting substrate arranged on the package substrate and including second through electrodes, second lower connection bumps arranged between the package substrate and the connecting substrate and electrically connecting the package substrate to the second through electrodes, and an upper semiconductor device arranged on the lower semiconductor device and electrically connected to the first through electrodes and the second through electrodes.

Some examples of the disclosure may include a package on package integrated package configuration including a first die located above the substrate in a first plane, a second die located above the first die in a second plane with a portion extending past the first die, a third die located above the first die in the second plane with a portion extending past the first die, a fourth die located above the second die and the third die in a third plane with a portion extending past the second die and the third die, and a fifth die located above the second die and the third die in the third plane with a portion extending past the second die and the third die.

Some examples of the disclosure may include a package on package integrated package configuration including a first die located above the substrate in a first plane, a second die located above the first die in a second plane with a portion extending past the first die, a third die located above the first die in the second plane with a portion extending past the first die, a fourth die located above the second die and the third die in a third plane with a portion extending past the second die and the third die, and a fifth die located above the second die and the third die in the third plane with a portion extending past the second die and the third die.

A semiconductor device package includes a first electronic component, a plurality of first conductive traces, a second electronic component, a plurality of second conductive traces and a plurality of first conductive structures. The first electronic component has a first active surface. The first conductive traces are disposed on and electrically connected to the first active surface. The second electronic component is stacked on the first electronic component. The second electronic component has an inactive surface facing the first active surface, a second active surface opposite the inactive surface, and at least one lateral surface connecting the second active surface and the inactive surface. The second conductive traces are electrically connected to the second active surface, and extending from the second active surface to the lateral surface. The first conductive structures are electrically connecting the second conductive traces to the first conductive traces, respectively.

An electronic component package includes: a frame, including a through-hole and a through-wiring; an electronic component disposed in the through-hole of the frame; a metal plate disposed on a first side of the electronic component and the frame; and a redistribution layer disposed on a second side of the electronic component opposing the first side and electrically connected to the electronic component.

The present invention generally relates to a radiation detector element wherein a photodiode is transversely fixed to a detector element substrate through at least one connection comprising two fused solder balls, wherein a first of the two fused solder balls contacts the photodiode and a second of the two fused solder balls (contacts the detector element substrate. The invention further relates to a method of transversally attaching two substrates, in particular constructing the above-mentioned radiation detector element. It also relates to an imaging system comprising at least one radiation detector element.

A package structure is provided comprising a die, a redistribution layer, at least one integrated passive device (IPD), a plurality of solder balls and a molding compound. The die comprises a substrate and a plurality of conductive pads. The redistribution layer is disposed on the die, wherein the redistribution layer comprises first connection structures and second connection structures. The IPD is disposed on the redistribution layer, wherein the IPD is connected to the first connection structures of the redistribution layer. The plurality of solder balls is disposed on the redistribution layer, wherein the solder balls are disposed and connected to the second connection structures of the redistribution layer. The molding compound is disposed on the redistribution layer, and partially encapsulating the IPD and the plurality of solder balls, wherein top portions of the solder balls and a top surface of the IPD are exposed from the molding compound.

A package structure is provided comprising a die, a redistribution layer, at least one integrated passive device (IPD), a plurality of solder balls and a molding compound. The die comprises a substrate and a plurality of conductive pads. The redistribution layer is disposed on the die, wherein the redistribution layer comprises first connection structures and second connection structures. The IPD is disposed on the redistribution layer, wherein the IPD is connected to the first connection structures of the redistribution layer. The plurality of solder balls is disposed on the redistribution layer, wherein the solder balls are disposed and connected to the second connection structures of the redistribution layer. The molding compound is disposed on the redistribution layer, and partially encapsulating the IPD and the plurality of solder balls, wherein top portions of the solder balls and a top surface of the IPD are exposed from the molding compound.