A method of attaching a semiconductor chip on a lead frame includes A) providing a semiconductor chip, B) applying a solder metal layer sequence to the semiconductor chip, wherein the solder metal layer sequence includes a first metallic layer including indium or an indium-tin alloy, C) providing a lead frame, D) applying a metallization layer sequence to the lead frame, wherein the metallization layer sequence includes a fourth layer including indium and/or tin arranged above the lead frame and a third layer including gold arranged above the fourth layer, E) forming an intermetallic intermediate layer including gold and indium, gold and tin or gold, tin and indium, G) applying the semiconductor chip to the lead frame via the solder metal layer sequence and the intermetallic intermediate layer, and H) heating the arrangement produced in G) to attach the semiconductor chip to the lead frame.

A semiconductor device according to an embodiment includes a semiconductor layer, a metal layer, and a bonding layer provided between the semiconductor layer and the metal layer, the bonding layer including a plurality of silver particles, and the bonding layer including a region containing gold existing between the plurality of silver particles.

A semiconductor device according to an embodiment includes a semiconductor layer, a metal layer, and a bonding layer provided between the semiconductor layer and the metal layer, the bonding layer including a plurality of silver particles, and the bonding layer including a region containing gold existing between the plurality of silver particles.

A semiconductor module includes: a first conductive portion; a second conductive portion spaced from the first conductive portion in a first direction; first semiconductor elements electrically bonded to the first conductive portion and mutually spaced in a second direction perpendicular to the first direction; and second semiconductor elements electrically bonded to the second conductive portion and mutually spaced in the second direction. The semiconductor module further includes: a first input terminal electrically connected to the first conductive portion; a second input terminal of opposite polarity to the first input terminal; and an output terminal opposite from the two input terminals in the first direction and electrically connected to the second conductive portion. The semiconductor module further includes: a first conducting member connected to the first semiconductor elements and second conductive portion; and a second conducting member connected to the second semiconductor elements and second input terminal.

A power semiconductor element and a support member are stacked with an intermediate structure being interposed between the power semiconductor element and the support member. The intermediate structure includes a first metal paste layer and at least one first penetrating member. The first metal paste layer contains a plurality of first metal particles. The at least one first penetrating member penetrates the first metal paste layer. At least one first vibrator attached to the at least one first penetrating member penetrating the first metal paste layer is vibrated. The first metal paste layer is heated so that the plurality of first metal particles are sintered or fused.

The present disclosure provides a method of creating a bond between a first object and a second object. For example, at least one insert may be provided at a location in a space formed between the first object and the second object. In additional, a filler material may be provided proximal to the location. An inter-diffusion layer may be formed, wherein a first portion of the inter-diffusion layer is formed by diffusion between the filler material and the at least one insert, wherein a second portion of the inter-diffusion layer is formed between the filler material and the first object, wherein a third portion of the inter-diffusion layer is formed between the filler material and the second object, wherein the first portion is coadunate with each of the second portion and third portion.

The present disclosure provides a method of creating a bond between a first object and a second object. For example, at least one insert may be provided at a location in a space formed between the first object and the second object. In additional, a filler material may be provided proximal to the location. An inter-diffusion layer may be formed, wherein a first portion of the inter-diffusion layer is formed by diffusion between the filler material and the at least one insert, wherein a second portion of the inter-diffusion layer is formed between the filler material and the first object, wherein a third portion of the inter-diffusion layer is formed between the filler material and the second object, wherein the first portion is coadunate with each of the second portion and third portion.

A method for producing a stable sandwich arrangement of two components with solder situated therebetween, comprising the steps:

(1) providing two components, each having at least one contact surface, and a free solder preform,
(2) producing a sandwich arrangement of the components and a solder preform arranged between them and thus not yet connected to them by bringing into contact (i) each one of the contact surfaces, (ii) each of the single contact surface of the components or (iii) one of the contact surfaces of one component and a single contact surface of the other component, with the contact surfaces of the free solder preform, and
(3) hot-pressing the sandwich arrangement produced in step (2) so as to form the stable sandwich arrangement at a temperature being at 10 to 40% below the melting temperature of the solder metal of the solder preform, expressed in ° C.

A method for producing a stable sandwich arrangement of two components with solder situated therebetween, comprising the steps:

(1) providing two components, each having at least one contact surface, and a free solder preform,
(2) producing a sandwich arrangement of the components and a solder preform arranged between them and thus not yet connected to them by bringing into contact (i) each one of the contact surfaces, (ii) each of the single contact surface of the components or (iii) one of the contact surfaces of one component and a single contact surface of the other component, with the contact surfaces of the free solder preform, and
(3) hot-pressing the sandwich arrangement produced in step (2) so as to form the stable sandwich arrangement at a temperature being at 10 to 40% below the melting temperature of the solder metal of the solder preform, expressed in ° C.

A method for producing a component bonded to a solder preform, comprising the following steps: (1) providing a component having at least one contact surface, and a free solder preform, (2) producing an assembly of the component and the solder preform, which is not yet bonded to said component, by bringing a contact surface, or the sole contact surface, of the component into contact with a contact surface of the free solder preform, and (3) forming the component bonded to the solder preform by hot pressing the assembly produced in step (2) at a temperature that is 10 to 40% lower than the melting temperature of the soldering metal of the solder preform, expressed in ° C., and with a combination of pressing force and pressing duration that will effect a reduction of 10% in the original thickness of the originally free solder preform.