A device includes a first die, a second die, one or more redistribution layers (RDLs) electrically connected to the first die, a plurality of connectors on a surface of the one or more RDLs and a package substrate electrically connected to the first die and the second die. The package substrate is electrically connected to the first die through the one or more RDLs and the plurality of connectors. The package substrate comprises a cavity, and the second die is at least partially disposed in the cavity.

An integrated electronic device includes a semiconductor body and a passivation structure including a frontal dielectric layer bounded by a frontal surface. A conductive region forms a via region, extending into a hole through the frontal dielectric layer. An overlaid redistribution region extends over the frontal surface. A barrier structure includes at least a first barrier region extending into the hole and surrounding the via region. The first barrier region extends over the frontal surface. A first coating layer covers the top and the sides of the redistribution region and a second coating layer covers the first coating layer. A cavity extends between the redistribution region and the frontal surface and is bounded on one side by the first coating layer and on the other by the barrier structure.

Some features pertain to a substrate that includes a first portion of the substrate including a first plurality of metal layers, a second portion of the substrate including a second plurality of metal layers, and a plurality of insulating layers configured to separate the first plurality of metal layers and the second plurality of metal layers. A first plurality of posts and a plurality of interconnects are coupled together such that the first plurality of posts and the plurality of interconnects couple the first portion of the substrate to the second portion of the substrate.

Some features pertain to a substrate that includes a first portion of the substrate including a first plurality of metal layers, a second portion of the substrate including a second plurality of metal layers, and a plurality of insulating layers configured to separate the first plurality of metal layers and the second plurality of metal layers. A first plurality of posts and a plurality of interconnects are coupled together such that the first plurality of posts and the plurality of interconnects couple the first portion of the substrate to the second portion of the substrate.

A package includes a first package including a device die, a molding compound molding the device die therein, a through-via penetrating through the molding compound, and a first plurality of Redistribution Lines (RDLs) and a second plurality of RDLs on opposite sides of the molding compound. The through-via electrically couples one of the first plurality of RDLs to one of the second plurality of RDLs. The package further includes a second package bonded to the first package, a spacer disposed in a gap between the first package and the second package, and a first electrical connector and a second electrical connector on opposite sides of the spacer. The first electrical connector and the second electrically couple the first package to the second package. The spacer is spaced apart from the first electrical connector and the second electrical connector.

A semiconductor package and a manufacturing method for the semiconductor package are provided. The semiconductor package at least has chip and a redistribution layer. The redistribution layer is disposed on the chip. The redistribution layer includes joining portions having first pads and second pads surrounding the chip. The first pads are arranged around a location of the chip and the second pads are arranged over the location of the chip. The second pads located closer to the chip are narrower than the first pads located further away from the chip.

An integrated fan-out package including an integrated circuit, an insulating encapsulation, and a redistribution circuit structure is provided. The integrated circuit includes an antenna region. The insulating encapsulation encapsulates the integrated circuit. The redistribution circuit structure is disposed on the integrated circuit and the insulating encapsulation. The redistribution circuit structure is electrically connected to the integrated circuit, and the redistribution circuit structure includes a redistribution region and a dummy region including a plurality of dummy patterns embedded therein, wherein the antenna region includes an inductor and a wiring-free dielectric portion, and the wiring-free dielectric portion of the antenna region is between the inductor and the dummy region.

Disclosed is a semiconductor package comprising a semiconductor chip, an external connection member on the semiconductor chip, and a dielectric film between the semiconductor chip and the external connection member. The semiconductor chip includes a substrate, a front-end-of-line structure on the substrate, and a back-end-of-line structure on the front-end-of-line structure. The back-end-of-line structure includes metal layers stacked on the front-end-of-line structure, a first dielectric layer on the uppermost metal layer and including a contact hole that vertically overlaps a pad of an uppermost metal layer, a redistribution line on the first dielectric layer and including a contact part in the contact hole and electrically connected to the pad, a pad part, and a line part that electrically connects the contact part to the pad part, and an upper dielectric layer on the redistribution line.

A system, method and apparatus for measuring carrier lifetime of a device comprises subjecting a test device to a voltage via a voltage source associated with the test system, disconnecting the test device from the voltage source, measuring the voltage as a function of time, measuring the current as a function of time, and determining a carrier lifetime of the test piece according to the slope of the measured voltage and the measured current.

A package structure and method of forming the same are provided. The package structure includes a die, a TIV, an encapsulant, a RDL structure, an underfill layer, a protection layer, and a cap. The TIV is aside the die. The encapsulant laterally encapsulates the die and the TIV. The RDL structure is electrically connected to the die. The underfill layer is disposed between the die and the RDL structure and laterally encapsulated by the encapsulant. The protection layer is overlying the die and the encapsulant. The cap covers a top surface of the TIV and laterally aside the protection layer. A top surface of the cap is higher than a top surface of the encapsulant and lower than a top surface of the protection layer.