A semiconductor device structure and method of manufacturing a semiconductor device. The semiconductor device may comprise a semiconductor die having a top major surface that has one or more electrical contacts formed thereon, an opposing bottom major surface, and side surfaces; a molding material encapsulating the top major surface, the bottom major surface and the side surfaces of the semiconductor die, wherein the molding material defines a package body that has a top surface and a side surface; wherein the plurality of electrical contacts are exposed on the top surface of the package body and a metal layer is arranged over and electrically connected to the electrical contacts and wherein the metal layer extends to and at least partially covers a side surface of the package body.

A multi-chip package may include a plurality of semiconductor chips and a printed circuit board (PCB). Each of the semiconductor chips may have an upper surface, a bottom surface, and a plurality of side surfaces. Circuit terminals may be arranged on the upper surface. A plurality of side bonding pads may be arranged on one or more selected side surface among the side surfaces. The semiconductor chips may be mounted on the PCB. The PCB may be configured to surround the selected side surface on which the side bonding pads may be arranged.

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.

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.

A multi-chip package may include a plurality of semiconductor chips and a printed circuit board (PCB). Each of the semiconductor chips may have an upper surface, a bottom surface, and a plurality of side surfaces. Circuit terminals may be arranged on the upper surface. A plurality of side bonding pads may be arranged on one or more selected side surface among the side surfaces. The semiconductor chips may be mounted on the PCB. The PCB may be configured to surround the selected side surface on which the side bonding pads may be arranged.

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.

A semiconductor device structure and method of manufacturing a semiconductor device. The semiconductor device may comprise a semiconductor die having a top major surface that has one or more electrical contacts formed thereon, an opposing bottom major surface, and side surfaces; a molding material encapsulating the top major surface, the bottom major surface and the side surfaces of the semiconductor die, wherein the molding material defines a package body that has a top surface and a side surface; wherein the plurality of electrical contacts are exposed on the top surface of the package body and a metal layer is arranged over and electrically connected to the electrical contacts and wherein the metal layer extends to and at least partially covers a side surface of the package body.

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.

A high-frequency circuit includes: a first substrate; a transmission line formed on the first substrate and having first and second output portions branched from an input portion; a second substrate; first and second pads formed on the second substrate; a first wire connecting the first output portion to the first pad; and a second wire connecting the second output portion to the second pad, wherein an electrical length from the input portion to an edge of the second output portion is longer than an electrical length from the input portion to an edge of the first output portion, and a length from a junction between the second wire and the second output portion to the edge of the second output portion is longer than a length from a junction between the first wire and the first output portion to the edge of the first output portion.

A semiconductor device includes a semiconductor chip having a first main surface, a second main surface opposite to the first main surface, and a side wall surface. An electrical contact area is exposed at the side wall surface of the semiconductor chip. An electrically conducting layer covers at least partially the second main surface and the electrical contact area.