Embodiments include an electronic system and methods of forming an electronic system. In an embodiment, the electronic system may include a package substrate and a die coupled to the package substrate. In an embodiment, the electronic system may also include an integrated heat spreader (IHS) that is coupled to the package substrate. In an embodiment the electronic system may further comprise a thermal interface pad between the IHS and the die. In an embodiment the die is thermally coupled to the IHS by a liquid metal thermal interface material (TIM) that contacts the thermal interface pad.

Embodiments include an electronic system and methods of forming an electronic system. In an embodiment, the electronic system may include a package substrate and a die coupled to the package substrate. In an embodiment, the electronic system may also include an integrated heat spreader (IHS) that is coupled to the package substrate. In an embodiment the electronic system may further comprise a thermal interface pad between the IHS and the die. In an embodiment the die is thermally coupled to the IHS by a liquid metal thermal interface material (TIM) that contacts the thermal interface pad.

A manufacturing method of a package includes at least the following steps. Contact vias are embedded in a semiconductor carrier. The contact vias are electrically grounded. A first die and a first encapsulant are provided over the semiconductor carrier. The first encapsulant encapsulates the first die. First through insulating vias (TIV) are formed aside the first die. The first TIVs are electrically grounded through the contact vias. The first die, the first encapsulant, and the first TIVs are grinded. A second die is stacked over the first die.

A manufacturing method of a package includes at least the following steps. Contact vias are embedded in a semiconductor carrier. The contact vias are electrically grounded. A first die and a first encapsulant are provided over the semiconductor carrier. The first encapsulant encapsulates the first die. First through insulating vias (TIV) are formed aside the first die. The first TIVs are electrically grounded through the contact vias. The first die, the first encapsulant, and the first TIVs are grinded. A second die is stacked over the first die.

A light emitting device module includes a substrate, a plurality of light emitting devices mounted on the substrate, an adhesive layer interposed between the substrate and the light emitting device; and bonding wires electrically connecting the plurality of light emitting devices. The substrate includes an outer electrode in at least a partial region, and the adhesive layer has a non-conductive material.

A light emitting device module includes a substrate, a plurality of light emitting devices mounted on the substrate, an adhesive layer interposed between the substrate and the light emitting device; and bonding wires electrically connecting the plurality of light emitting devices. The substrate includes an outer electrode in at least a partial region, and the adhesive layer has a non-conductive material.

A package includes a first die, a second die, a first encapsulant, first through insulating vias (TIV), a second encapsulant, and second TIVs. The second die is stacked on the first die. The first encapsulant laterally encapsulates the first die. The first TIVs are aside the first die. The first TIVs penetrate through the first encapsulant and are electrically floating. The second encapsulant laterally encapsulates the second die. The second TIVs are aside the second die. The second TIVs penetrate through the second encapsulant and are electrically floating. The second TIVs are substantially aligned with the first TIVs.

A package includes a first die, a second die, a first encapsulant, first through insulating vias (TIV), a second encapsulant, and second TIVs. The second die is stacked on the first die. The first encapsulant laterally encapsulates the first die. The first TIVs are aside the first die. The first TIVs penetrate through the first encapsulant and are electrically floating. The second encapsulant laterally encapsulates the second die. The second TIVs are aside the second die. The second TIVs penetrate through the second encapsulant and are electrically floating. The second TIVs are substantially aligned with the first TIVs.

A light emitting device module includes a substrate, a plurality of light emitting devices mounted on the substrate, an adhesive layer interposed between the substrate and the light emitting device; and bonding wires electrically connecting the plurality of light emitting devices. The substrate includes an outer electrode in at least a partial region, and the adhesive layer has a non-conductive material.

A light emitting device module includes a substrate, a plurality of light emitting devices mounted on the substrate, an adhesive layer interposed between the substrate and the light emitting device; and bonding wires electrically connecting the plurality of light emitting devices. The substrate includes an outer electrode in at least a partial region, and the adhesive layer has a non-conductive material.