An electronic device which can suppress peeling off and damaging of the bonding material is provided. The electronic device includes an electronic component, a mounting portion, and a bonding material. The electronic component has an element front surface and an element back surface separated in the z-direction. The mounting portion has a mounting surface opposed to the element back surface on which the electronic component is mounted. The bonding material bonds the electronic component to the mounting portion. The bonding material includes a base portion and a fillet portion. The base portion is held between the electronic component and the mounting portion in the z-direction. The fillet portion is connected to the base portion and is formed outside the electronic component when seen in the z-direction. The electronic component includes two element lateral surface and ridges. The ridges are intersections of the two element lateral surface and extend in the z-direction. The fillet portion includes a ridge cover portion which covers at least a part of the ridges.

A semiconductor package includes a package substrate, a first semiconductor chip and a second semiconductor chip sequentially stacked on the package substrate, the first semiconductor chip and the second semiconductor chip being disposed in a form of an offset stack structure, and the second semiconductor chip including an overhang further protruding beyond a side surface of the first semiconductor chip in a first horizontal direction, an adhesive member disposed on a lower surface of the second semiconductor chip, the adhesive member including an extension extending to a lower level than an upper surface of the first semiconductor chip. The extension contacts the side surface of the first semiconductor chip, and overlaps with at least a portion of the overhang in a vertical direction.

A semiconductor package includes a circuit board, an interposer structure on the circuit board, a first semiconductor chip and a second semiconductor chip on the interposer structure, the first and the second semiconductor chips electrically connected to the interposer structure and spaced apart from each other, and a mold layer between the first and second semiconductor chips, the mold layer separating the first and second semiconductor chips. A slope of a side wall of the mold layer is constant as the side wall extends away from an upper side of the interposer structure, and an angle defined by a bottom side of the mold layer and the side wall of the mold layer is less than or equal to ninety degrees.

Implementations of an image sensor package may include an image sensor die including at least one bond pad thereon; a bond wire wirebonded to the at least one bond pad; and an optically transmissive lid coupled to the image sensor die with an optically opaque film adhesive over the at least one bond pad. The bond wire may extend through the optically opaque film adhesive to the at least one bond pad.

A lead frame includes a base comprising a bearing surface for bearing a chip. The bearing surface includes a soldering region, with a solder layer arranged in the soldering region. The solder layer is configured for fixing the chip on the bearing surface. The lead frame includes a groove provided on the bearing surface in a thickness direction of the base. The groove is located outside the soldering region and surrounds at least part of the soldering region along the outer periphery of the soldering region for receiving solder paste overflowed from the soldering region. A depth of the groove is based on a thickness of the base. A packaging structure including the lead frame and a packaging method using the lead frame are also provided.