A semiconductor package includes a semiconductor die, a redistribution structure and connective terminals. The redistribution structure is disposed on the semiconductor die and includes a first metallization tier disposed in between a pair of dielectric layers. The first metallization tier includes routing conductive traces electrically connected to the semiconductor die and a shielding plate electrically insulated from the semiconductor die. The connective terminals include dummy connective terminals and active connective terminals. The dummy connective terminals are disposed on the redistribution structure and are electrically connected to the shielding plate. The active connective terminals are disposed on the redistribution structure and are electrically connected to the routing conductive traces. Vertical projections of the dummy connective terminals fall on the shielding plate.

At least one transistor is arranged on a substrate. A collector layer and a base layer of the transistor compose a collector mesa having a substantially mesa shape and the collector mesa has side faces tilting with respect to the substrate so that the dimension of a top face in a first direction of a plane of the substrate is smaller than the dimension of a bottom face therein. A first insulating film covering the transistor is arranged on the substrate. A first-layer emitter line that extends from an area overlapped with the top face of the collector mesa to areas overlapped with at least part of the tilting side faces of the collector mesa in a plan view is arranged on the first insulating film. A second-layer emitter line and an emitter bump are arranged on the first-layer emitter line.

A semiconductor package includes a semiconductor die, a redistribution structure and connective terminals. The redistribution structure is disposed on the semiconductor die and includes a first metallization tier disposed in between a pair of dielectric layers. The first metallization tier includes routing conductive traces electrically connected to the semiconductor die and a shielding plate electrically insulated from the semiconductor die. The connective terminals include dummy connective terminals and active connective terminals. The dummy connective terminals are disposed on the redistribution structure and are electrically connected to the shielding plate. The active connective terminals are disposed on the redistribution structure and are electrically connected to the routing conductive traces. Vertical projections of the dummy connective terminals fall on the shielding plate.

At least one transistor is arranged on a substrate. A collector layer and a base layer of the transistor compose a collector mesa having a substantially mesa shape and the collector mesa has side faces tilting with respect to the substrate so that the dimension of a top face in a first direction of a plane of the substrate is smaller than the dimension of a bottom face therein. A first insulating film covering the transistor is arranged on the substrate. A first-layer emitter line that extends from an area overlapped with the top face of the collector mesa to areas overlapped with at least part of the tilting side faces of the collector mesa in a plan view is arranged on the first insulating film. A second-layer emitter line and an emitter bump are arranged on the first-layer emitter line.

Transistors including semiconductor regions where operating current flows are provided above a substrate. Operating electrodes of conductive material having thermal conductivity higher than the semiconductor regions and contacting the semiconductor regions to conduct operating current to the semiconductor regions are disposed. A conductor pillar for external connection contains contact regions where the semiconductor regions and the operating electrodes contact, and is electrically connected to the operating electrodes. The contact regions are disposed in a first direction. Each contact region has a planar shape long in a second direction orthogonal to the first direction. A first average distance, obtained by averaging distances in the second direction from each end portion of the contact region in the second direction to an edge of the conductor pillar across the contact regions, exceeds an average distance value in a height direction from the contact region to a top surface of the conductor pillar.

An embodiment method for forming a semiconductor package includes attaching a first die to a first carrier, depositing a first isolation material around the first die, and after depositing the first isolation material, bonding a second die to the first die. Bonding the second die to the first die includes forming a dielectric-to-dielectric bond. The method further includes removing the first carrier and forming fan-out redistribution layers (RDLs) on an opposing side of the first die as the second die. The fan-out RDLs are electrically connected to the first die and the second die.

A semiconductor device that includes a bipolar transistor, wherein a third opening, through which a pillar bump and a second wiring line, which is electrically connected to an emitter layer, contact each other, is shifted in a longitudinal direction of the emitter layer away from a position at which the third opening would be directly above the emitter layer. The third opening is arranged, with respect to the emitter layer, such that an end portion of the emitter layer in the longitudinal direction of the emitter layer and the edge of the opening of the third opening are substantially aligned with each other.

A semiconductor device that includes a bipolar transistor, wherein a third opening, through which a pillar bump and a second wiring line, which is electrically connected to an emitter layer, contact each other, is shifted in a longitudinal direction of the emitter layer away from a position at which the third opening would be directly above the emitter layer. The third opening is arranged, with respect to the emitter layer, such that an end portion of the emitter layer in the longitudinal direction of the emitter layer and the edge of the opening of the third opening are substantially aligned with each other.

An under bump metallurgy (UBM) and redistribution layer (RDL) routing structure includes an RDL formed over a die. The RDL comprises a first conductive portion and a second conductive portion. The first conductive portion and the second conductive portion are at a same level in the RDL. The first conductive portion of the RDL is separated from the second conductive portion of the RDL by insulating material of the RDL. A UBM layer is formed over the RDL. The UBM layer includes a conductive UBM trace and a conductive UBM pad. The UBM trace electrically couples the first conductive portion of the RDL to the second conductive portion of the RDL. The UBM pad is electrically coupled to the second conductive portion of the RDL. A conductive connector is formed over and electrically coupled to the UBM pad.

Methods for forming a semiconductor device structure are provided. The method includes forming a conductive feature in a first wafer, and forming a first bonding layer over the conductive feature. The method includes forming a second bonding layer over a second wafer, and bonding the first wafer and the second wafer by bonding the first bonding layer and the second bonding layer. The method also includes forming a second transistor in a front-side of the second wafer, and after forming the second transistor in the front-side of the second wafer, forming a first TSV through the second wafer, wherein the first TSV stops at the conductive feature.