Packaging devices and methods of manufacture thereof for semiconductor devices are disclosed. In some embodiments, a packaging device includes a contact pad disposed over a substrate, and a passivation layer disposed over the substrate and a first portion of the contact pad, a second portion of the contact pad being exposed. A post passivation interconnect (PPI) line is disposed over the passivation layer and is coupled to the second portion of the contact pad. A PPI pad is disposed over the passivation layer and is coupled to the PPI line. An insulating material is disposed over the PPI line, the PPI pad being exposed. The insulating material is spaced apart from an edge portion of the PPI pad by a predetermined distance.

A method of manufacturing a semiconductor package includes the following steps. A first redistribution layer structure is formed over a circuit board structure. A through via is formed over the first redistribution layer structure. A first die is mounted onto the first redistribution layer structure aside the through via. A first encapsulant is formed to encapsulate the first die and the through via, wherein surfaces of the first encapsulant, the first die and the through via are substantially coplanar.

A microelectronic assembly includes a stack of semiconductor chips each having a front surface defining a respective plane of a plurality of planes. A chip terminal may extend from a contact at a front surface of each chip in a direction towards the edge surface of the respective chip. The chip stack is mounted to substrate at an angle such that edge surfaces of the chips face a major surface of the substrate that defines a second plane that is transverse to, i.e., not parallel to the plurality of parallel planes. An electrically conductive material electrically connects the chip terminals with corresponding substrate contacts.

A microelectronic device has bump bonds and an inductor on a die. The microelectronic device includes first lateral conductors extending along a terminal surface of the die, wherein at least some of the first lateral conductors contact at least some of terminals of the die. The microelectronic device also includes conductive columns on the first lateral conductors, extending perpendicularly from the terminal surface, and second lateral conductors on the conductive columns, opposite from the first lateral conductors, extending laterally in a plane parallel to the terminal surface. A first set of the first lateral conductors, the conductive columns, and the second lateral conductors provide the bump bonds of the microelectronic device. A second set of the first lateral conductors, the conductive columns, and the second lateral conductors are electrically coupled in series to form the inductor. Methods of forming the microelectronic device are also disclosed.