A device includes a redistribution layer (RDL) substrate. The device also includes a passive component in the RDL substrate proximate a first surface of the RDL substrate. The device further includes a first die coupled to a second surface of the RDL substrate, opposite the first surface of the RDL substrate.

A device includes a redistribution layer (RDL) substrate. The device also includes a passive component in the RDL substrate proximate a first surface of the RDL substrate. The device further includes a first die coupled to a second surface of the RDL substrate, opposite the first surface of the RDL substrate.

An electronic structure, an electronic package structure and method of manufacturing an electronic device are provided. The electronic structure includes a carrier and a protection layer. The carrier includes a first pad, a second pad and a first dielectric layer. The first pad is at a side of the carrier and configured to bond with a conductive pad. The second pad is at the side of carrier and configured to electrically connect an exterior circuit. The first dielectric layer includes a first portion around the first pad and a second portion around the second pad, wherein a top surface of the first portion and a top surface of the second portion are substantially coplanar. The protection layer is on the second pad and covers the second pad.

An electronic structure, an electronic package structure and method of manufacturing an electronic device are provided. The electronic structure includes a carrier and a protection layer. The carrier includes a first pad, a second pad and a first dielectric layer. The first pad is at a side of the carrier and configured to bond with a conductive pad. The second pad is at the side of carrier and configured to electrically connect an exterior circuit. The first dielectric layer includes a first portion around the first pad and a second portion around the second pad, wherein a top surface of the first portion and a top surface of the second portion are substantially coplanar. The protection layer is on the second pad and covers the second pad.

A system includes a semiconductor substrate having a first cavity. The semiconductor substrate forms a pedestal adjacent the first cavity. A device overlays the pedestal and is bonded to the semiconductor substrate by metal within the first cavity. A plurality of second cavities are formed in a surface of the pedestal beneath the device, wherein the second cavities are smaller than the first cavity. In some of these teachings, the second cavities are voids. In some of these teachings, the metal in the first cavity comprises a eutectic mixture. The structure relates to a method of manufacturing in which a layer providing a mask to etch the first cavity is segmented to enable easy removal of the mask-providing layer from the area over the pedestal.

A system includes a semiconductor substrate having a first cavity. The semiconductor substrate forms a pedestal adjacent the first cavity. A device overlays the pedestal and is bonded to the semiconductor substrate by metal within the first cavity. A plurality of second cavities are formed in a surface of the pedestal beneath the device, wherein the second cavities are smaller than the first cavity. In some of these teachings, the second cavities are voids. In some of these teachings, the metal in the first cavity comprises a eutectic mixture. The structure relates to a method of manufacturing in which a layer providing a mask to etch the first cavity is segmented to enable easy removal of the mask-providing layer from the area over the pedestal.

A chip scale package structure is provided. The chip scale package structure includes an image sensor chip and a chip. The image sensor chip includes a first redistribution layer including a conductive wire and a conductive pad formed on the conductive wire, wherein the conductive pad is exposed from the surface of the first redistribution layer. The chip includes a plurality of through silicon via (TSV) and a second redistribution layer including a conductive wire and a conductive pad formed on the conductive wire, wherein the conductive pad is exposed from the surface of the second redistribution layer. The area of the chip is smaller than that of the image sensor chip. The second redistribution layer of the chip bonds to the first redistribution layer of the image sensor chip.

A chip scale package structure is provided. The chip scale package structure includes an image sensor chip and a chip. The image sensor chip includes a first redistribution layer including a conductive wire and a conductive pad formed on the conductive wire, wherein the conductive pad is exposed from the surface of the first redistribution layer. The chip includes a plurality of through silicon via (TSV) and a second redistribution layer including a conductive wire and a conductive pad formed on the conductive wire, wherein the conductive pad is exposed from the surface of the second redistribution layer. The area of the chip is smaller than that of the image sensor chip. The second redistribution layer of the chip bonds to the first redistribution layer of the image sensor chip.

A semiconductor module includes a power element, a signal wiring, and a heat sink. The signal wiring is connected to a signal pad of the power element. The heat sink cools the power element. The power element has an active area provided by a portion where the signal pad is formed. The signal pad is thermally connected to the heat sink via the signal wiring.

A semiconductor module includes a power element, a signal wiring, and a heat sink. The signal wiring is connected to a signal pad of the power element. The heat sink cools the power element. The power element has an active area provided by a portion where the signal pad is formed. The signal pad is thermally connected to the heat sink via the signal wiring.