A semiconductor package includes a first semiconductor chip mounted on the package substrate, a second semiconductor mounted on the package substrate and set apart from the first semiconductor chip in a horizontal direction thereby forming a gap between the first semiconductor chip and the second semiconductor chip. The semiconductor package further includes a first thermal interface material layer formed in the gap and having a first modulus of elasticity and a second thermal interface material layer formed on each of the first semiconductor chip and the second semiconductor chip and having a second modulus of elasticity, wherein the first modulus of elasticity is less than the second modulus of elasticity.

A semiconductor guide pin is disclosed. Specific implementations may include a heatsink, one or more substrates coupled together, one or more pressfit pins coupled to the one or more substrates, and two or more guide pins coupled to the one or more substrates, where the two or more guide pins may have a height greater than the one or more pressfit pins.

A semiconductor guide pin is disclosed. Specific implementations may include a heatsink, one or more substrates coupled together, one or more pressfit pins coupled to the one or more substrates, and two or more guide pins coupled to the one or more substrates, where the two or more guide pins may have a height greater than the one or more pressfit pins.

Methods, systems, apparatus, and articles of manufacture to control load distribution of integrated circuit packages are disclosed. An example apparatus includes a carrier plate including a first surface to face a heatsink; a second surface opposite the first surface, and an aperture extending between the first and second surfaces, the aperture dimensioned to surround a semiconductor device, and a spring carried by the carrier plate, the spring to contact a surface of the semiconductor device proximate an outer edge of the semiconductor device.

A semiconductor apparatus includes: a semiconductor module; a cooler including flow paths through which a refrigerant flows; a casing including a bottom surface; at least one first fixing member fixing the cooler to the bottom surface; and at least one second fixing member fixing the cooler to the bottom surface. The cooler includes: an outer surface directed to the bottom surface of the casing; an inner surface that is a part of wall surfaces of the flow paths on an opposite side to the outer surface; an outer wall to which the at least one first fixing member is connected; and an outer wall that is on an opposite side to the outer wall and to which the at least one second fixing member is connected. The semiconductor module is positioned between the bottom surface of the casing and the outer surface of the cooler, and is pressed by these two surfaces.

A semiconductor apparatus includes: a semiconductor module; a cooler including flow paths through which a refrigerant flows; a casing including a bottom surface; at least one first fixing member fixing the cooler to the bottom surface; and at least one second fixing member fixing the cooler to the bottom surface. The cooler includes: an outer surface directed to the bottom surface of the casing; an inner surface that is a part of wall surfaces of the flow paths on an opposite side to the outer surface; an outer wall to which the at least one first fixing member is connected; and an outer wall that is on an opposite side to the outer wall and to which the at least one second fixing member is connected. The semiconductor module is positioned between the bottom surface of the casing and the outer surface of the cooler, and is pressed by these two surfaces.

A semiconductor package includes a semiconductor die, a first thermal conductive pattern and a second thermal conductive pattern. The semiconductor die is encapsulated by an encapsulant. The first thermal conductive pattern is disposed aside the semiconductor die in the encapsulant. The second thermal conductive pattern is disposed over the semiconductor die, wherein the first thermal conductive pattern is thermally coupled to the semiconductor die through the second thermal conductive pattern and electrically insulated from the semiconductor die.

In one general aspect, an apparatus can include a first module including a first semiconductor die, and a first heatsink coupled to the first module where the first heatsink includes a substrate and a first plurality of protrusions. The apparatus can also include a second module including a second semiconductor die, and a second heatsink coupled to the second module and including a second plurality of protrusions. The apparatus can also include a cover defining a channel where the first plurality of protrusions of the first heatsink and the second plurality of protrusions of the second heatsink are disposed within the channel.

A power conversion device includes a plurality of semiconductor modules, a plurality of coolers, and a frame. The frame pressurizes and holds a stacked body in which the semiconductor modules and the coolers are alternately stacked. The frame includes a first frame and a second frame that sandwich the stacked body therebetween. The first frame is a plate material bent to surround the stacked body from three directions, and includes a pair of side walls extending in the stacking direction of the stacked body, and an abutting wall extending between the side walls and abutting the stacked body. The abutting wall is bent outward from the frame. Each of the side walls is bent inward from the frame.

A power conversion device includes a plurality of semiconductor modules, a plurality of coolers, and a frame. The frame pressurizes and holds a stacked body in which the semiconductor modules and the coolers are alternately stacked. The frame includes a first frame and a second frame that sandwich the stacked body therebetween. The first frame is a plate material bent to surround the stacked body from three directions, and includes a pair of side walls extending in the stacking direction of the stacked body, and an abutting wall extending between the side walls and abutting the stacked body. The abutting wall is bent outward from the frame. Each of the side walls is bent inward from the frame.