The present description concerns an electronic device comprising: an electronic chip comprising an active area on a first surface, and a second surface opposite to the first surface; a substrate, the first surface of said chip being mounted on a third surface of said substrate; and a thermally-conductive cover comprising a transverse portion extending at least above the second surface of said electronic chip, wherein the electronic device further comprises at least one thermally-conductive pillar coupling the second surface of the electronic chip to said transverse portion of said thermally-conductive cover.

A sheet for thermal bonding which has a tensile modulus of 10 to 3,000 MPa and contains fine metal particles in an amount in the range of 60-98 wt % and which, when heated from 23° C. to 400° C. in the air at a heating rate of 10° C./min and then examined by energy dispersive X-ray spectrometry, has a carbon concentration of 15 wt % or less.

An integrated circuit package can contain a semiconductor die and provide electrical connections between the semiconductor die and additional electronic components. The integrated circuit package can reduce stress placed on the semiconductor die due to movement of the integrated circuit package due to, for example, temperature changes and/or moisture levels. The integrated circuit package can at least partially mechanically isolate the semiconductor die from the integrated circuit package.

An integrated circuit package can contain a semiconductor die and provide electrical connections between the semiconductor die and additional electronic components. The integrated circuit package can reduce stress placed on the semiconductor die due to movement of the integrated circuit package due to, for example, temperature changes and/or moisture levels. The integrated circuit package can at least partially mechanically isolate the semiconductor die from the integrated circuit package.

A composition exhibits excellent heat resistance and mounting reliability when bonding a semiconductor power element to a metal lead frame, which is also free of lead and thereby places little burden on the environment. An electrically conductive composition contains at least a sulfide compound represented by R—S—R′ (wherein R is an organic group containing at least carbon; R′ is an organic group that is the same as or different from R; and R and R′ may be bonded to each other to form a so-called cyclic sulfide) and metal particles containing at least Cu, Sn or Ni as its essential component. Further, a conductive paste and a conductive bonding film each are produced using the electrically conductive composition. A dicing die bonding film is obtained by bonding the conductive bonding film with an adhesive tape.

A die for a semiconductor chip package includes a first surface including an integrated circuit formed therein. The die also includes a backside surface opposite the first surface. The backside surface has a total surface area defining a substantially planar region of the backside surface. The die further includes at least one device formed on the backside surface. The at least one device includes at least one extension extending from the at least one device beyond the total surface area.

A semiconductor device has a U terminal with an internal joint portion at one end that is joined to a circuit board, an intermediate portion that is embedded in a case, and an external joint portion at another end that is exposed from the case, the U terminal being provided with a shock absorbing portion that is positioned between an inner surface of the case and the internal joint portion and absorbing stress that acts upon the internal joint portion. Due to the presence of the shock absorbing portion, even when the entire semiconductor device deforms or there is local deformation such that stress becomes concentrated at the joined surfaces of the internal joint portion and the circuit board, the stress is absorbed by the shock absorbing portion.

A semiconductor device has a U terminal with an internal joint portion at one end that is joined to a circuit board, an intermediate portion that is embedded in a case, and an external joint portion at another end that is exposed from the case, the U terminal being provided with a shock absorbing portion that is positioned between an inner surface of the case and the internal joint portion and absorbing stress that acts upon the internal joint portion. Due to the presence of the shock absorbing portion, even when the entire semiconductor device deforms or there is local deformation such that stress becomes concentrated at the joined surfaces of the internal joint portion and the circuit board, the stress is absorbed by the shock absorbing portion.

A relay substrate in which a circuit pattern and an external electrode are integrated on a insulating plate is used in the semiconductor device. Such configuration makes it possible to reduce a resistance in a current path while preventing the problems occurring when the external electrode is soldered on the semiconductor chip.

A relay substrate in which a circuit pattern and an external electrode are integrated on a insulating plate is used in the semiconductor device. Such configuration makes it possible to reduce a resistance in a current path while preventing the problems occurring when the external electrode is soldered on the semiconductor chip.