Implementations of a semiconductor package may include two or more die, each of the two more die coupled to a metal layer at a drain of each of the two more die, the two or more die and each metal layer arranged in two parallel planes; a first interconnect layer coupled at a source of each of the two more die; a second interconnect layer coupled to a gate of each of the two or more die and to a gate package contact through one or more vias; and an encapsulant that encapsulates the two or more die and at least a portion of the first interconnect layer, each metal layer, and the second interconnect layer.

An integrated circuit die includes a semiconductor substrate, an interconnect layer including bonding pads, and a passivation layer covering the interconnect layer and including openings at the bonding pads. A conductive redistribution layer including conductive lines and conductive vias is supported by the passivation layer. An insulating layer covers the conductive redistribution layer and the passivation layer. Channels formed in an upper surface of the insulating layer delimit pedestal regions in the insulating layer. A through via extends from an upper surface of each pedestal region through the pedestal region and the insulating layer to reach and make contact with a portion of the conductive redistribution layer. A metal pad is formed at the upper surface of each pedestal region in contact with its associated through via. The metal pads for leads of a quad-flat no-lead (QFN) type package.

An apparatus is provided which comprises: a first die having a first surface and a second surface, the first die comprising: a first layer formed on the first surface of the first die, and a second layer formed on the second surface of the first die; a second die coupled to the first layer; and a plurality of structures to couple the apparatus to an external component, wherein the plurality of structures is coupled to the second layer.

A microelectronic device is formed to include an embedded die substrate on an interposer; where the embedded die substrate is formed with no more than a single layer of transverse routing traces. In the device, all additional routing may be allocated to the interposer to which the embedded die substrate is attached. The embedded die substrate may be formed with a planarized dielectric formed over an initial metallization layer supporting the embedded die.

A semiconductor package includes: a support substrate; a first semiconductor chip on the support substrate, the first semiconductor chip including one or more first chip pads; a second semiconductor chip spaced apart from the first semiconductor chip, the second semiconductor chip including one or more second chip pads; a third semiconductor chip on the first semiconductor chip and the second semiconductor chip, the third semiconductor chip comprising one or more third chip pads; one or more first conductive structures on the one or more first chip pads; one or more second conductive structures on the one or more second chip pads; and a redistribution layer on the one or more first conductive structures, the one or more second conductive structures, and the one or more third chip pads.

A semiconductor package may include: a package substrate; a base semiconductor chip above the package substrate, the base semiconductor chip including a base pad in contact with the package substrate; at least one stacked semiconductor chip above the base semiconductor chip, the at least one stacked semiconductor chip including a chip pad connected to the package substrate; and an organic layer between the package substrate and the at least one stacked semiconductor chip in a first direction perpendicular to a surface of the package substrate; at least one connection structure in the organic layer, the at least one connection structure connecting the package substrate and the chip pad of the at least one stacked semiconductor chip, wherein the at least one connection structure includes a filling layer and a surface layer surrounding at least a portion of the filling layer.

A semiconductor structure includes a functional die, a dummy die, a conductive feature, a seal ring and an alignment mark. The dummy die is electrically isolated from the functional die. The conductive feature is electrically connected to the functional die. The seal ring is disposed aside the conductive feature. The alignment mark is disposed between the seal ring and the conductive feature, and the alignment mark is electrically isolated from the dummy die, the conductive feature and the seal ring.

A display panel includes a circuit substrate, pixel structures and a molding layer. The circuit substrate has first pad structures and second pad structures. The pixel structures are disposed above a display region of the circuit substrate. Each of at least a portion of the pixel structures includes a first light emitting diode, a first conductive block, and a first conductive connection structure. The first light emitting diode is disposed on a corresponding first pad structure. The first conductive block is disposed on a corresponding second pad structure. The first conductive connection structure electrically connects the first light emitting diode to the first conductive block. The molding layer is located above the circuit substrate and surrounds the first light emitting diode and the first conductive block. The first conductive connection structure is located on the molding layer.

A semiconductor package includes a redistribution structure, at least one semiconductor device, a heat dissipation component, and an encapsulating material. The at least one semiconductor device is disposed on and electrically connected to the redistribution structure. The heat dissipation component is disposed on the redistribution structure and includes a concave portion for receiving the at least one semiconductor device and an extending portion connected to the concave portion and contacting the redistribution structure, wherein the concave portion contacts the at least one semiconductor device. The encapsulating material is disposed over the redistribution structure, wherein the encapsulating material fills the concave portion and encapsulates the at least one semiconductor device.

A semiconductor package includes: a substrate; a chip stack on the substrate; a first interface, in a first region of the substrate and having a first circuit layer; a second interface, in a second region of the substrate and having a second circuit layer, and the chip stack between the first and second interface; a first bonding wire, connected to a first chip and having a first contact point; a second bonding wire, connected to a second chip and having a second contact point; an encapsulation layer, surrounding the chip stack, the first and second interface, the first and second bonding wire on the substrate, and exposing the first and second contact point, and the first and second circuit layer; and a redistribution layer, on the encapsulation layer and connecting the first contact point and the second contact point to the first circuit layer and the second circuit layer.