A device package includes a first die directly bonded to a second die at an interface, wherein the interface comprises a conductor-to-conductor bond. The device package further includes an encapsulant surrounding the first die and the second die and a plurality of through vias extending through the encapsulant. The plurality of through vias are disposed adjacent the first die and the second die. The device package further includes a plurality of thermal vias extending through the encapsulant and a redistribution structure electrically connected to the first die, the second die, and the plurality of through vias. The plurality of thermal vias is disposed on a surface of the second die and adjacent the first die.

A device package includes a first die directly bonded to a second die at an interface, wherein the interface comprises a conductor-to-conductor bond. The device package further includes an encapsulant surrounding the first die and the second die and a plurality of through vias extending through the encapsulant. The plurality of through vias are disposed adjacent the first die and the second die. The device package further includes a plurality of thermal vias extending through the encapsulant and a redistribution structure electrically connected to the first die, the second die, and the plurality of through vias. The plurality of thermal vias is disposed on a surface of the second die and adjacent the first die.

In a method for connecting components during production of power electronics modules or assemblies, surfaces of the components have a metallic surface layer upon supply, or are furnished therewith, wherein the layer has a surface that is smooth enough to allow direct bonding or is smoothed to obtain a surface that is smooth enough to allow direct bonding. The surface layers of the surfaces that are to be connected are then pressed against each other with a pressure of at least 5 MPa at elevated temperature, so that they are joined to each other, forming a single layer. The method enables simple, rapid connection of even relatively large contact surfaces, which satisfies the high requirements of power electronics modules.

In a method for connecting components during production of power electronics modules or assemblies, surfaces of the components have a metallic surface layer upon supply, or are furnished therewith, wherein the layer has a surface that is smooth enough to allow direct bonding or is smoothed to obtain a surface that is smooth enough to allow direct bonding. The surface layers of the surfaces that are to be connected are then pressed against each other with a pressure of at least 5 MPa at elevated temperature, so that they are joined to each other, forming a single layer. The method enables simple, rapid connection of even relatively large contact surfaces, which satisfies the high requirements of power electronics modules.

A method of transferring a micro device is provided. The method includes: aligning a transfer plate with the micro device thereon with a receiving substrate having a contact pad thereon such that the micro device is above or in contact with the contact pad; moving a combination of the transfer plate with the micro device thereon and the receiving substrate into a confined space with a relative humidity greater than or equal to about 85% so as to condense some water between the micro device and the contact pad; and attaching the micro device to the contact pad.

A method of transferring a micro device is provided. The method includes: aligning a transfer plate with the micro device thereon with a receiving substrate having a contact pad thereon such that the micro device is above or in contact with the contact pad; moving a combination of the transfer plate with the micro device thereon and the receiving substrate into a confined space with a relative humidity greater than or equal to about 85% so as to condense some water between the micro device and the contact pad; and attaching the micro device to the contact pad.

A method of transferring a micro device is provided. The method includes: aligning a transfer plate with the micro device thereon with a receiving substrate having a contact pad thereon such that the micro device is above or in contact with the contact pad; moving a combination of the transfer plate with the micro device thereon and the receiving substrate into a confined space with a relative humidity greater than or equal to about 85% so as to condense some water between the micro device and the contact pad; and attaching the micro device to the contact pad.

A method of transferring a micro device is provided. The method includes: aligning a transfer plate with the micro device thereon with a receiving substrate having a contact pad thereon such that the micro device is above or in contact with the contact pad; moving a combination of the transfer plate with the micro device thereon and the receiving substrate into a confined space with a relative humidity greater than or equal to about 85% so as to condense some water between the micro device and the contact pad; and attaching the micro device to the contact pad.

An electronic device includes a substrate, a first conductive pad and a chip. The first conductive pad is disposed on the substrate. The chip includes a second conductive pad electrically connected to the first conductive pad, and the first conductive pad is disposed between the substrate and the second conductive pad. The first conductive pad has a first groove.

An electronic device includes a substrate, a first conductive pad and a chip. The first conductive pad is disposed on the substrate. The chip includes a second conductive pad electrically connected to the first conductive pad, and the first conductive pad is disposed between the substrate and the second conductive pad. The first conductive pad has a first groove.