Certain aspects of the present disclosure provide apparatus and techniques for connecting packages for integrated circuits or packaged assemblies with other packages or modules using flex cables. An example packaged assembly for integrated circuits includes: a first integrated circuit (IC) package, a second IC package disposed above the first IC package, and a flex cable, wherein an end of the flex cable is connected to at least one of the first IC package or the second IC package.

A method of forming a quilt package nodule includes forming a trench in a microchip substrate, forming a metal layer on the bottom, the first and second sides of the trench, and on a top surface of the microchip substrate proximate the first and second sides. forming a mask layer on the metal layer, removing portions of the mask and metal layers on the bottom of the trench, etching the bottom of the trench to increase the depth of the bottom of the trench, removing remaining portions of the mask layer from the metal layer to define the quilt package nodules that protrude beyond edges of the first and second sides, and removing the remaining portion of the trench bottom thereby separating the first and second sides from each other, whereupon each side includes at least one quilt package nodule protruding from the side.

A substrate assembly includes a first microchip including a first interconnecting structure and a second microchip including a second interconnecting structure, wherein the first and second interconnecting structures have keyed complementary, interlocking shapes. The first interconnecting structure is interlocked with the second interconnecting structure. Quilt package nodules on edges of the first and second microchips electrically connect circuitry formed on or supported by the first and second microchips.

A power semiconductor module may include a first plate, a second plate configured to include first and second device receiving portions thereinside, and coupled to one side of the first plate, first and second power semiconductor devices arranged in the first and second device receiving portions, first and second input bus bars coupled to an outside of the second plate, a third plate configured to include third and fourth device receiving portions thereinside, and coupled to the other side of the first plate, third and fourth power semiconductor devices arranged in the third and fourth device receiving portions, and third and fourth input bus bars coupled to an outside of the third plate.

A semiconductor structure includes a semiconductor package and a connector. The semiconductor package includes a die and a redistribution structure. The redistribution structure is disposed over the die, and includes a plurality of conductive patterns stacking on one another and electrically connected to the die. The connector is disposed on the redistribution structure, and includes a connecting element. The connecting element penetrates the conductive patterns and is electrically connected to the die.

A packaged electronic device includes a package structure with opposite first and second sides spaced apart from one another along a first direction, and opposite third and fourth sides spaced apart from one another along a second direction, as well as first and second leads. The first lead includes a first portion that extends outward from the third side of the package structure and extends downward toward a plane of the first side and away from a plane of the second side. The second lead includes a first portion that extends outward from the third side of the package structure, and the second lead extends upward toward the plane of the second side and away from the plane of the first side to allow connection to another circuit or component, such as a second packaged electronic device, a passive circuit component, a printed circuit board, etc.

An electronic system supports superior coupling by implementing a communication mechanism that provides at least for horizontal communication for example, on the basis of wired and/or wireless communication channels, in the system. Hence, by enhancing vertical and horizontal communication capabilities in the electronic system, a reduced overall size may be achieved, while nevertheless reducing complexity in printed circuit boards coupled to the electronic system. In this manner, overall manufacturing costs and reliability of complex electronic systems may be enhanced.

Semiconductor devices and semiconductor structures are disclosed. One of the semiconductor device includes a semiconductor package and a connector. The semiconductor package includes at least one die in a die region, an encapsulant in a periphery region aside the die region and a redistribution structure in the die region and the periphery region. The encapsulant encapsulates the at least one die. The redistribution structure is electrically connected to the die. The connector is disposed on the redistribution structure in the periphery region. The connector includes a plurality of connecting elements, wherein the connector is electrically connected to the redistribution structure through the plurality of connecting elements.

A semiconductor package includes upper and lower semiconductor chip packages, and a redistribution wiring layer pattern interposed between the packages. The lower package includes a molding layer in which at least one chip is embedded, and has a top surface and an inclined sidewall surface along which the redistribution wiring layer pattern is formed. The upper and lower packages are electrically connected to through the redistribution wiring layer pattern. A first package may be formed by a wafer level packaging technique and may include a redistribution wiring layer as a substrate, a semiconductor chip disposed on the redistribution wiring layer, and a molding layer on which the lower package, redistribution wiring layer pattern and upper package are disposed.

Packaged semiconductor assemblies including interconnect structures and methods for forming such interconnect structures are disclosed herein. One embodiment of a packaged semiconductor assembly includes a support member having a first bond-site and a die carried by the support member having a second bond-site. An interconnect structure is connected between the first and second bond-sites and includes a wire that is coupled to at least one of the first and second bond-sites. The interconnect structure also includes a third bond-site coupled to the wire between the first and second bond-sites.