An integrated circuit package includes a transmission line structure, wire bonds, a first post and a second post. The transmission line structure runs from a printed circuit board (PCB) to an integrated circuit (IC) and includes a center transmission line between two ground lines and sealed from exposure to air. The wire bonds connect the transmission line structure to pads on the integrated circuit from where the center transmission line exits the integrated circuit package. The wire bonds are selected to have an impedance matched to impedance of the integrated circuit. The first post supports the center transmission line where the center transmission line enters the integrated circuit package from the printed circuit board. The second post supports the center transmission line where the center transmission line exits the integrated circuit package to connect to the wire bonds.

Methods, systems, and devices for enabling the use of a special, generic, or standard substrate for similar system SIP assemblies are disclosed. The required customization, which is defined by a system's interconnecting scheme, is done during package assembly by creating appropriate connections using wire bonds on pads that are placed on the substrate and intentionally left open for purpose of customization. The wire bond links can be changed as required for a given system design.

An emitter package can include: a body having a bottom member, side members extending from the bottom member, and a top surface, wherein the body defines a cavity formed into the top surface and located between the bottom member and side members; the cavity having top side walls extending from the top surface to optic shelves, middle side walls extending from the optic shelves to contact shelves, and bottom side walls extending from the contact shelves to a base surface; electrical conductive pads on the base surface in the cavity; emitter chips on the electrical conductive pads, each emitter chip having one or more light emitters; shelf contact pads on the contact shelves; and electrical connector wires connected to and extending between the emitter chips and the shelf contact pads.

Methods, systems, and devices for enabling the use of a special, generic, or standard substrate for similar system SIP assemblies are disclosed. The required customization, which is defined by a system's interconnecting scheme, is done during package assembly by creating appropriate connections using wire bonds on pads that are placed on the substrate and intentionally left open for purpose of customization. The wire bond links can be changed as required for a given system design.

An integrated circuit package includes a transmission line structure, wire bonds, a first post and a second post. The transmission line structure runs from a printed circuit board (PCB) to an integrated circuit (IC) and includes a center transmission line between two ground lines and sealed from exposure to air. The wire bonds connect the transmission line structure to pads on the integrated circuit from where the center transmission line exits the integrated circuit package. The wire bonds are selected to have an impedance matched to impedance of the integrated circuit. The first post supports the center transmission line where the center transmission line enters the integrated circuit package from the printed circuit board. The second post supports the center transmission line where the center transmission line exits the integrated circuit package to connect to the wire bonds.

An emitter package can include: a body having a bottom member, side members extending from the bottom member, and a top surface, wherein the body defines a cavity formed into the top surface and located between the bottom member and side members; the cavity having top side walls extending from the top surface to optic shelves, middle side walls extending from the optic shelves to contact shelves, and bottom side walls extending from the contact shelves to a base surface; electrical conductive pads on the base surface in the cavity; emitter chips on the electrical conductive pads, each emitter chip having one or more light emitters; shelf contact pads on the contact shelves; and electrical connector wires connected to and extending between the emitter chips and the shelf contact pads.

A method of making a semiconductor device is provided including forming a first opening and a second opening in a first surface of a substrate. A conductive material is formed in the first opening and in the second opening and over the first surface in the first region of the substrate between the openings. A thickness of the substrate may be reduced from a second surface of the substrate, opposite the first surface, to a third surface opposite the first surface which exposes the conductive material in the first opening and the conductive material in the second opening. A light emitting diode (LED) device is connected to the third surface of the substrate.

An emitter package can include: a body having a bottom member, side members extending from the bottom member, and a top surface, wherein the body defines a cavity formed into the top surface and located between the bottom member and side members; the cavity having top side walls extending from the top surface to optic shelves, middle side walls extending from the optic shelves to contact shelves, and bottom side walls extending from the contact shelves to a base surface; electrical conductive pads on the base surface in the cavity; emitter chips on the electrical conductive pads, each emitter chip having one or more light emitters; shelf contact pads on the contact shelves; and electrical connector wires connected to and extending between the emitter chips and the shelf contact pads.

An emitter package can include: a body having a bottom member, side members extending from the bottom member, and a top surface, wherein the body defines a cavity formed into the top surface and located between the bottom member and side members; the cavity having top side walls extending from the top surface to optic shelves, middle side walls extending from the optic shelves to contact shelves, and bottom side walls extending from the contact shelves to a base surface; electrical conductive pads on the base surface in the cavity; emitter chips on the electrical conductive pads, each emitter chip having one or more light emitters; shelf contact pads on the contact shelves; and electrical connector wires connected to and extending between the emitter chips and the shelf contact pads.

Methods, systems, and devices for enabling the use of a special, generic, or standard substrate for similar system SIP assemblies are disclosed. The required customization, which is defined by a system's interconnecting scheme, is done during package assembly by creating appropriate connections using wire bonds on pads that are placed on the substrate and intentionally left open for purpose of customization. The wire bond links can be changed as required for a given system design.