A package assembly includes an interposer module on a package substrate, a thermal interface material (TIM) film on the interposer module, and a package lid that includes a plate portion on the TIM film and a step region projecting away from the plate portion and located over the TIM film and over an edge region of the interposer module.

A package structure includes a semiconductor device and an adhesive pattern. The adhesive pattern surrounds the semiconductor device, wherein an angle θ is formed between a sidewall of the semiconductor device and a sidewall of the adhesive pattern, 0°<θ<90° wherein the adhesive layer has a first opening misaligned with a corner of the semiconductor device closest to the first opening.

A package structure includes a semiconductor device, a circuit substrate and a heat dissipating lid. The semiconductor device includes a semiconductor die. The circuit substrate is bonded to and electrically coupled to the semiconductor device. The heat dissipating lid is bonded to the circuit substrate and thermally coupled to the semiconductor device, where the semiconductor device is located in a space confined by the heat dissipating lid and the circuit substrate. The heat dissipating lid includes a cover portion and a flange portion bonded to a periphery of the cover portion. The cover portion has a first surface and a second surface opposite to the first surface, where the cover portion includes a recess therein, the recess has an opening at the second surface, and a thickness of the recess is less than a thickness of the cover portion, where the recess is part of the space.

A package structure includes a semiconductor device, a circuit substrate and a heat dissipating lid. The semiconductor device includes a semiconductor die. The circuit substrate is bonded to and electrically coupled to the semiconductor device. The heat dissipating lid is bonded to the circuit substrate and thermally coupled to the semiconductor device, where the semiconductor device is located in a space confined by the heat dissipating lid and the circuit substrate. The heat dissipating lid includes a cover portion and a flange portion bonded to a periphery of the cover portion. The cover portion has a first surface and a second surface opposite to the first surface, where the cover portion includes a recess therein, the recess has an opening at the second surface, and a thickness of the recess is less than a thickness of the cover portion, where the recess is part of the space.

According to the present disclosure, a semiconductor device includes a semiconductor chip, a frame, a projection projecting from the frame, a lead in which a projection insertion portion into which the projection is to be inserted is formed, and which directly contacts the frame to electrically connect the semiconductor chip to the frame and a first bonding material configured to bond the projection to the lead.

A package structure includes a circuit substrate, a semiconductor package, a thermal interface material, a lid structure and a heat dissipation structure. The semiconductor package is disposed on and electrically connected to the circuit substrate. The thermal interface material is disposed on the semiconductor package. The lid structure is disposed on the circuit substrate and surrounding the semiconductor package, wherein the lid structure comprises a supporting part that is partially covering and in physical contact with the thermal interface material. The heat dissipation structure is disposed on the lid structure and in physical contact with the supporting part of the lid structure.

When a semiconductor package is stored in a transport tray and when a semiconductor package is transported by a transport tray, the semiconductor package comes into contact with the side wall of the transport tray, so that the end face of the semiconductor package is chipped and dust is generated from the end face of the semiconductor package. Provided is a technology for a semiconductor package that includes a multilayer structure having at least a synthetic resin layer and includes an outermost edge portion such that the end face of the synthetic resin layer protrudes outward compared to the end faces of the other layers constituting the multilayer structure.

When a semiconductor package is stored in a transport tray and when a semiconductor package is transported by a transport tray, the semiconductor package comes into contact with the side wall of the transport tray, so that the end face of the semiconductor package is chipped and dust is generated from the end face of the semiconductor package. Provided is a technology for a semiconductor package that includes a multilayer structure having at least a synthetic resin layer and includes an outermost edge portion such that the end face of the synthetic resin layer protrudes outward compared to the end faces of the other layers constituting the multilayer structure.

A power module includes an insulating substrate, a case member, a power semiconductor element, a base member, a sealing member, and an adhesive member. The insulating substrate has a first surface and a second surface opposite to the first surface. The case member surrounds the insulating substrate when viewed in a direction perpendicular to the first surface. The power semiconductor element faces the first surface. The base member faces the second surface. The sealing member seals the power semiconductor element and the insulating substrate and is in contact with the case member. The adhesive member fixes the base member and the case member, and surrounds the insulating substrate when viewed in the direction perpendicular to the first surface.

A power module includes an insulating substrate, a case member, a power semiconductor element, a base member, a sealing member, and an adhesive member. The insulating substrate has a first surface and a second surface opposite to the first surface. The case member surrounds the insulating substrate when viewed in a direction perpendicular to the first surface. The power semiconductor element faces the first surface. The base member faces the second surface. The sealing member seals the power semiconductor element and the insulating substrate and is in contact with the case member. The adhesive member fixes the base member and the case member, and surrounds the insulating substrate when viewed in the direction perpendicular to the first surface.