A semiconductor device includes: a semiconductor chip; a case having a frame portion that has an inner wall portion surrounding an housing area in which the semiconductor chip is disposed; a buffer member provided on at last part of the inner wall portion of the case on a side of the housing area; a low expansion member provided on said at least part of the inner wall portion with the buffer member interposed therebetween on the side of the housing area; and a sealing member that seals the housing area, wherein the buffer member has a smaller elastic modulus than the case and the sealing member, and wherein the low expansion member has a smaller linear expansion coefficient than the case and the sealing member.

A semiconductor device includes: a semiconductor chip; a case having a frame portion that has an inner wall portion surrounding an housing area in which the semiconductor chip is disposed; a buffer member provided on at last part of the inner wall portion of the case on a side of the housing area; a low expansion member provided on said at least part of the inner wall portion with the buffer member interposed therebetween on the side of the housing area; and a sealing member that seals the housing area, wherein the buffer member has a smaller elastic modulus than the case and the sealing member, and wherein the low expansion member has a smaller linear expansion coefficient than the case and the sealing member.

A die and substrate assembly is disclosed for a die with electronic circuitry and a substrate. A sintered bonding layer of sintered metal is disposed between the die and the substrate. The sintered bonding layer includes a plurality of zones having different sintered metal densities. The plurality of zones are distributed along one or more horizontal axes of the sintered bonding layer, along one or more vertical axes of the sintered bonding layer or along both one or more horizontal and one or more vertical axes of the sintered bonding layer.

A die and substrate assembly is disclosed for a die with electronic circuitry and a substrate. A sintered bonding layer of sintered metal is disposed between the die and the substrate. The sintered bonding layer includes a plurality of zones having different sintered metal densities. The plurality of zones are distributed along one or more horizontal axes of the sintered bonding layer, along one or more vertical axes of the sintered bonding layer or along both one or more horizontal and one or more vertical axes of the sintered bonding layer.

This member connection method includes: a cutting step of forming cutting lines C in an adhesive layer at predetermined intervals at least in a width direction of an adhesive tape and making segments of the adhesive layer divided by the cutting lines C continuous at least in a lengthwise direction of the adhesive tape; a transfer step of disposing the segments to face a connection surface of one member to be connected, pressing a heating and pressing tool having an arbitrary pattern shape against the adhesive tape from a separator side and selectively transferring the segments to the one member to be connected; and a connection step for connecting another member to be connected to the one member to be connected via the segments transferred to the one member to be connected.

This member connection method includes: a cutting step of forming cutting lines C in an adhesive layer at predetermined intervals at least in a width direction of an adhesive tape and making segments of the adhesive layer divided by the cutting lines C continuous at least in a lengthwise direction of the adhesive tape; a transfer step of disposing the segments to face a connection surface of one member to be connected, pressing a heating and pressing tool having an arbitrary pattern shape against the adhesive tape from a separator side and selectively transferring the segments to the one member to be connected; and a connection step for connecting another member to be connected to the one member to be connected via the segments transferred to the one member to be connected.

A semiconductor device includes: a semiconductor chip; a case having a frame portion that has an inner wall portion surrounding an housing area in which the semiconductor chip is disposed; a buffer member provided on at last part of the inner wall portion of the case on a side of the housing area; a low expansion member provided on said at least part of the inner wall portion with the buffer member interposed therebetween on the side of the housing area; and a sealing member that seals the housing area, wherein the buffer member has a smaller elastic modulus than the case and the sealing member, and wherein the low expansion member has a smaller linear expansion coefficient than the case and the sealing member.

A semiconductor device includes: a semiconductor chip; a case having a frame portion that has an inner wall portion surrounding an housing area in which the semiconductor chip is disposed; a buffer member provided on at last part of the inner wall portion of the case on a side of the housing area; a low expansion member provided on said at least part of the inner wall portion with the buffer member interposed therebetween on the side of the housing area; and a sealing member that seals the housing area, wherein the buffer member has a smaller elastic modulus than the case and the sealing member, and wherein the low expansion member has a smaller linear expansion coefficient than the case and the sealing member.

Invention compositions are a replacement for high melting temperature solder pastes and preforms in high operating temperature and step-soldering applications. In the use of the invention, a mixture of metallic powders reacts below 350 degrees C. to form a dense metallic joint that does not remelt at the original process temperature.

Invention compositions are a replacement for high melting temperature solder pastes and preforms in high operating temperature and step-soldering applications. In the use of the invention, a mixture of metallic powders reacts below 350 degrees C. to form a dense metallic joint that does not remelt at the original process temperature.