Disclosed are an electronic device and a manufacturing method of an electronic device. The manufacturing method includes the following. A first substrate is provided. The first substrate includes a plurality of chips. A second substrate is provided. A transfer process is performed to sequentially transfer a first chip and a second chip among the chips to the second substrate. The second chip is adjacent to the first chip. A first angle is between a first extension direction of a first side of the first chip and an extension direction of a first boundary of the second substrate. A second angle is between a second extension direction of a second side of the second chip and the extension direction of the first boundary of the second substrate. The first angle is different from the second angle.

Disclosed are an electronic device and a manufacturing method of an electronic device. The manufacturing method includes the following. A first substrate is provided. The first substrate includes a plurality of chips. A second substrate is provided. A transfer process is performed to sequentially transfer a first chip and a second chip among the chips to the second substrate. The second chip is adjacent to the first chip. A first angle is between a first extension direction of a first side of the first chip and an extension direction of a first boundary of the second substrate. A second angle is between a second extension direction of a second side of the second chip and the extension direction of the first boundary of the second substrate. The first angle is different from the second angle.

A semiconductor device includes a substrate, a conductive part, a controller module and a sealing resin. The substrate has a substrate obverse surface and a substrate reverse surface facing away from each other in a z direction. The conductive part is made of an electrically conductive material on the substrate obverse surface. The controller module is disposed on the substrate obverse surface and electrically connected to the conductive part. The sealing resin covers the controller module and at least a portion of the substrate. The conductive part includes an overlapping wiring trace having an overlapping portion overlapping with the electronic component as viewed in the z direction. The overlapping portion of the overlapping wiring trace is not electrically bonded to the controller module.

A semiconductor device includes a substrate, a conductive part, a controller module and a sealing resin. The substrate has a substrate obverse surface and a substrate reverse surface facing away from each other in a z direction. The conductive part is made of an electrically conductive material on the substrate obverse surface. The controller module is disposed on the substrate obverse surface and electrically connected to the conductive part. The sealing resin covers the controller module and at least a portion of the substrate. The conductive part includes an overlapping wiring trace having an overlapping portion overlapping with the electronic component as viewed in the z direction. The overlapping portion of the overlapping wiring trace is not electrically bonded to the controller module.

A semiconductor package includes a semiconductor package includes first, second, third and fourth semiconductor chips sequentially stacked on one another. Each of the first, second, third and fourth semiconductor chips includes a first group of bonding pads and a second group of bonding pads alternately arranged in a first direction and input/output (I/O) circuitry selectively connected to the first group of bonding pads respectively. Each of the first, second and third semiconductor chips includes a first group of through electrodes electrically connected to the first group of bonding pads and a second group of through electrodes electrically connected to the second group of bonding pads.

A semiconductor package includes a semiconductor package includes first, second, third and fourth semiconductor chips sequentially stacked on one another. Each of the first, second, third and fourth semiconductor chips includes a first group of bonding pads and a second group of bonding pads alternately arranged in a first direction and input/output (I/O) circuitry selectively connected to the first group of bonding pads respectively. Each of the first, second and third semiconductor chips includes a first group of through electrodes electrically connected to the first group of bonding pads and a second group of through electrodes electrically connected to the second group of bonding pads.

Provided is a package-on-package (PoP). The PoP includes a lower package, an upper package on the lower package, an interposer substrate disposed between the lower package and the upper package, and a plurality of balls connecting the interposer substrate to the upper package, in which the lower package includes a first substrate, and a first die and a second die disposed side by side in a horizontal direction, on the first substrate, in which the upper package includes a second substrate, a third die on the second substrate, and a plurality of ball pads disposed on a surface of the second substrate, the interposer substrate comprises on a surface thereof a plurality of ball lands to which a plurality of balls are attached, and at least some of the plurality of ball lands overlap the first die and the second die in a vertical direction that intersects the horizontal direction.

Provided is a package-on-package (PoP). The PoP includes a lower package, an upper package on the lower package, an interposer substrate disposed between the lower package and the upper package, and a plurality of balls connecting the interposer substrate to the upper package, in which the lower package includes a first substrate, and a first die and a second die disposed side by side in a horizontal direction, on the first substrate, in which the upper package includes a second substrate, a third die on the second substrate, and a plurality of ball pads disposed on a surface of the second substrate, the interposer substrate comprises on a surface thereof a plurality of ball lands to which a plurality of balls are attached, and at least some of the plurality of ball lands overlap the first die and the second die in a vertical direction that intersects the horizontal direction.

In some implementations, a vertical cavity surface emitting laser (VCSEL) package may include a substrate. The VCSEL package may include a VCSEL disposed on a surface of the substrate. The VCSEL package may include a VCSEL driver disposed on the surface of the substrate. The VCSEL package may include an embedded capacitor electrically connected to the VCSEL and the VCSEL driver. The embedded capacitor may be formed from a subset of layers of the substrate. The capacitor may be associated with a first capacitance that is different from a second capacitance of at least one other capacitor associated with the substrate.

In some implementations, a vertical cavity surface emitting laser (VCSEL) package may include a substrate. The VCSEL package may include a VCSEL disposed on a surface of the substrate. The VCSEL package may include a VCSEL driver disposed on the surface of the substrate. The VCSEL package may include an embedded capacitor electrically connected to the VCSEL and the VCSEL driver. The embedded capacitor may be formed from a subset of layers of the substrate. The capacitor may be associated with a first capacitance that is different from a second capacitance of at least one other capacitor associated with the substrate.