An element chip manufacturing method includes a preparation process of preparing a substrate which includes a first surface provided with a bump and a second surface and includes a plurality of element regions defined by dividing regions, a bump embedding process of adhering a protection tape having an adhesive layer to the first surface and embedding. The element chip manufacturing method includes a thinning process of grinding the second surface in a state where the protection tape is adhered to the first surface and thinning the substrate, after the bump embedding process, a mask forming process of forming a mask in the second surface and exposes the dividing regions, after the thinning process, a holding process of arranging the first surface to oppose a holding tape supported on a frame and holding the substrate on the holding tape.

An element chip manufacturing method includes a preparation process of preparing a substrate which includes a first surface provided with a bump and a second surface and includes a plurality of element regions defined by dividing regions, a bump embedding process of adhering a protection tape having an adhesive layer to the first surface and embedding. The element chip manufacturing method includes a thinning process of grinding the second surface in a state where the protection tape is adhered to the first surface and thinning the substrate, after the bump embedding process, a mask forming process of forming a mask in the second surface and exposes the dividing regions, after the thinning process, a holding process of arranging the first surface to oppose a holding tape supported on a frame and holding the substrate on the holding tape.

There is provided a conductive particle including a core particle containing a resin material, and a surface layer that covers a surface of the core particle and contains a solder material, in which a melting point of the solder material is equal to or lower than a softening point of the resin material.

There is provided a conductive particle including a core particle containing a resin material, and a surface layer that covers a surface of the core particle and contains a solder material, in which a melting point of the solder material is equal to or lower than a softening point of the resin material.

Provided is a method for transferring and bonding devices. The method includes applying an adhesive layer to a carrier, arranging a plurality of devices, attaching the arranged devices to the carrier, applying a polymer film to a substrate, aligning the carrier to which the plurality of devices are attached with the substrate, bonding the plurality of devices to the substrate by radiating laser, and releasing the carrier from the substrate to which the plurality of devices are bonded.

A semiconductor package includes: a carrier having a first side and a second side opposite the first side, the first side having a plurality of contact structures; a semiconductor die having a first side and a second side opposite the first side, the first side of the semiconductor die having a plurality of pads attached to the plurality of contact structures at the first side of the carrier; a metal plate attached to the second side of the semiconductor die, the metal plate having a size that is independent of the size of the carrier and based on an expected thermal load to be presented by the semiconductor die; and an encapsulant confined by the carrier and the metal plate and laterally surrounding an edge of the semiconductor die. Corresponding methods of production are also provided.

In accordance with some embodiments, a package-on-package (PoP) structure includes a first semiconductor package having a first side and a second side opposing the first side, a second semiconductor package having a first side and a second side opposing the first side, and a plurality of inter-package connector coupled between the first side of the first semiconductor package and the first side of the second semiconductor package. The PoP structure further includes a first molding material on the second side of the first semiconductor package. The second side of the second semiconductor package is substantially free of the first molding material.

A semiconductor package system is disclosed. The system includes a first interposer and a first integrated circuit die electrically coupled and thermally coupled to a first side of the first interposer. The system further includes a second integrated circuit die electrically coupled and thermally coupled to a second side of the first interposer. The system further includes a ring carrier electrically coupled and thermally coupled to the first interposer. The ring carrier is configured to transmit an input to the first interposer. In some embodiments, the system further includes at least one thermal spreader thermally coupled to the ring carrier and at least one of the first integrated circuit, the second integrated circuit, or the first interposer.

A semiconductor package system is disclosed. The system includes a first interposer and a first integrated circuit die electrically coupled and thermally coupled to a first side of the first interposer. The system further includes a second integrated circuit die electrically coupled and thermally coupled to a second side of the first interposer. The system further includes a ring carrier electrically coupled and thermally coupled to the first interposer. The ring carrier is configured to transmit an input to the first interposer. In some embodiments, the system further includes at least one thermal spreader thermally coupled to the ring carrier and at least one of the first integrated circuit, the second integrated circuit, or the first interposer.

A electronic module includes a printed circuit board (PCB) substrate, a controller substrate, a controller, a memory device, and a heat spreader. The controller is disposed on the controller substrate. The memory device is disposed on the PCB substrate. The heat spreader is disposed on the controller and the memory device, in which the heat spreader has a first portion on the controller and a second portion on the memory device, and the heat spreader has a first opening between the first portion and the second portion.