Elastic bonding layers for semiconductor die assemblies, and associated systems and methods are disclosed. In an embodiment, a first semiconductor die includes an elastic bonding layer at a surface, to which a second semiconductor die can be directly bonded to form a bonding interface between the first and second semiconductor dies. At the bonding interface, a first conductive pad of the first semiconductor die can be conjoined to a second conductive pad of the second semiconductor die to form an interconnect during the direct bonding process. In some cases, there may be irregularities at the bonding interface, which may interfere with the bonding process. The elastic bonding layer may include a polymer (or organic) material configured to accommodate stress generated by the irregularities. In some embodiments, a thickness of the elastic bonding layer is predetermined based on a width of the first (or second) conductive pad.

A semiconductor packaging structure includes a die including a bond pad and a first metal layer structure disposed on the die, the first metal layer structure having a first width, the first metal layer structure including a first metal layer, the first metal layer electrically coupled to the bond pad. The semiconductor packaging structure also includes a first photosensitive material around sides of the first metal layer structure and a second metal layer structure disposed over the first metal layer structure and over a portion of the first photosensitive material, the second metal layer structure electrically coupled to the first metal layer structure, the second metal layer structure having a second width, where the second width is greater than the first width. Additionally, the semiconductor packaging structure includes a second photosensitive material around sides of the second metal layer structure.

A display backboard and a manufacturing method thereof, and a display device are provided. The display backboard includes: a driving substrate; a plurality of driving electrodes on the driving substrate; and a plurality of connection structures respectively on the plurality of driving electrodes. The connection structure includes: at least one conductive component on the driving electrode; and a restriction component on a side of the driving electrodes provided with the at least one conductive component and in at least a part of a peripheral region of the at least one conductive component. The restriction component protrudes from the driving electrode and has a first height in a direction perpendicular to the driving substrate.

A semiconductor package includes a substrate, a first insulation layer, a conductive via and a conductive trace. The substrate includes a conductive component. The first insulation layer is formed on the substrate and having a first through hole exposing the conductive component. The conductive via is formed within the first through hole. The conductive trace is directly connected to the conductive via which is located directly above the first through hole.

A semiconductor device includes: a semiconductor element that includes an element main body having an element main surface facing one side in a thickness direction, and a first electrode arranged on the element main surface; a first insulating layer that is arranged over a peripheral edge portion of the first electrode and the element main surface and includes a first annular portion formed in an annular shape when viewed in the thickness direction; and a second insulating layer that is laminated on the first insulating layer, is made of a resin material, and includes a second annular portion overlapping with the first annular portion when viewed in the thickness direction.

A semiconductor die includes a semiconductor surface including circuitry electrically connected to top-level bond pads exposed on a top surface of the semiconductor die, the top-level bond pads including inner bond pads and outer bond pads positioned beyond the inner bond pads. There is solder on at least the inner bond pads. A ring structure is positioned around a location of at least the inner bond pads.

Discussed generally herein are methods and devices including or providing a redistribution layer device without under ball metallization. A device can include a substrate, electrical interconnect circuitry in the substrate, redistribution layer (RDL) circuitry electrically connected to the electrical interconnect circuitry, a conductive bump electrically connected to the RDL circuitry, the conductive bump interfacing directly with the RDL circuitry, and a sheet molding material over the substrate.

This present application provides a semiconductor packaging method and a semiconductor packaging structure. The semiconductor packaging method includes: forming an encapsulating structure, the encapsulating structure including an encapsulation layer and a chip, the chip provided on a front side thereof with a plurality of bonding pads, the encapsulation layer covering at least side faces of the chip; forming a rewiring layer on the side of the encapsulating structure close to the front side of the chip, the rewiring layer configured for external connection of the bonding pads on the chip; forming a dielectric layer, the dielectric layer covering the rewiring layer, the dielectric layer provided therein with a through hole in which the rewiring layer is exposed; and forming a pin layer on the side of the dielectric layer away from the chip, the pin layer electrically connected to the rewiring layer through the through hole.

The invention relates to a method for connecting a power semi-conductor chip having upper-sided potential surfaces to thick wires or strips, consisting of the following steps: Providing a metal molded body corresponding to the shape of the upper-sided potential surfaces, applying a connecting layer to the upper-sided potential surfaces or to the metal molded bodies, and applying the metal molded bodies and adding a material fit, electrically conductive compound to the potential surfaces prior to the joining of the thick wire bonds to the non-added upper side of the molded body.

A semiconductor device is provided that includes a bond pad, an insulating layer, and a bonding structure. The bond pad is in a dielectric layer and the insulating layer is over the bond pad; the insulating layer having an opening over the bond pad formed therein. The bonding structure electrically couples the bond pad in the opening. The bonding structure has a height that at least extends to an upper surface of the insulating layer.