A semiconductor device has a leadframe and a first electrical component disposed over the leadframe. A clip bond is disposed over the first electrical component. The clip bond has a plurality of recesses each having a different depth. A first recess is proximate to a first distal end of the first electrical component, and a second recess is proximate to a second distal end of the first electrical component opposite the first distal end of the first electrical component. A depth of the first recess is different from a depth of the second recess. A third recess is over a surface of the first electrical component. A depth of the third recess is different from the depth of the first recess and the depth of the second recess. A second electrical component is disposed over the leadframe. The clip bond extends over the second electrical component.

A semiconductor device has a leadframe and a first electrical component disposed over the leadframe. A clip bond is disposed over the first electrical component. The clip bond has a plurality of recesses each having a different depth. A first recess is proximate to a first distal end of the first electrical component, and a second recess is proximate to a second distal end of the first electrical component opposite the first distal end of the first electrical component. A depth of the first recess is different from a depth of the second recess. A third recess is over a surface of the first electrical component. A depth of the third recess is different from the depth of the first recess and the depth of the second recess. A second electrical component is disposed over the leadframe. The clip bond extends over the second electrical component.

A semiconductor device includes a semiconductor substrate having a semiconductor device on an active surface thereof. The semiconductor substrate has a quadrangular plane. An insulating layer is on the active surface of the semiconductor substrate. A passivation layer is on the insulating layer. The insulating layer includes an insulating layer central portion having a side surface extending in parallel with a side surface of the semiconductor substrate. The side surface of the insulating layer central portion is spaced apart from the side surface of the semiconductor substrate by a first size. An insulating layer corner portion is at each corner of the insulating layer central portion and protrudes from the side surface of the insulating layer central portion in a horizontal direction. The passivation layer covers the insulating layer central portion.

A semiconductor device includes a semiconductor substrate having a semiconductor device on an active surface thereof. The semiconductor substrate has a quadrangular plane. An insulating layer is on the active surface of the semiconductor substrate. A passivation layer is on the insulating layer. The insulating layer includes an insulating layer central portion having a side surface extending in parallel with a side surface of the semiconductor substrate. The side surface of the insulating layer central portion is spaced apart from the side surface of the semiconductor substrate by a first size. An insulating layer corner portion is at each corner of the insulating layer central portion and protrudes from the side surface of the insulating layer central portion in a horizontal direction. The passivation layer covers the insulating layer central portion.

A semiconductor device includes a semiconductor substrate configured to include a first electrode layer, and a first barrier layer provided on the first electrode layer and bonded to a metal layer, and a circuit substrate configured to include a second electrode layer, and a second barrier layer provided on the second electrode layer and bonded to the metal layer, wherein the semiconductor substrate including a semiconductor element, and the circuit substrate are bonded via the metal layer containing Sn, a linear expansion coefficient of the first barrier layer is larger than that of the circuit substrate, and a linear expansion coefficient of the second barrier layer is smaller than that of the circuit substrate.

An SiC semiconductor device includes an SiC chip having a first main surface at one side and a second main surface at another side, a first main surface electrode including a first Al layer and formed on the first main surface, a pad electrode formed on the first main surface electrode and to be connected to a lead wire, and a second main surface electrode including a second Al layer and formed on the second main surface.

An SiC semiconductor device includes an SiC chip having a first main surface at one side and a second main surface at another side, a first main surface electrode including a first Al layer and formed on the first main surface, a pad electrode formed on the first main surface electrode and to be connected to a lead wire, and a second main surface electrode including a second Al layer and formed on the second main surface.

One aspect of the invention is a method of manufacturing a connection structure, including disposing an adhesive layer between a first electronic member including a first substrate and a first electrode formed on the first substrate and a second electronic member including a second substrate and a second electrode formed on the second substrate, and pressure-bonding the first electronic member and the second electronic member via the adhesive layer such that the first electrode and the second electrode are electrically connected to each other, wherein the first electronic member further including an insulating layer formed on a side of the first electrode opposite to the first substrate, and the adhesive layer including: a first conductive particle being a dendritic conductive particle; and a second conductive particle being a conductive particle other than the first conductive particle and having a non-conductive core and a conductive layer provided on the core.

One aspect of the invention is a method of manufacturing a connection structure, including disposing an adhesive layer between a first electronic member including a first substrate and a first electrode formed on the first substrate and a second electronic member including a second substrate and a second electrode formed on the second substrate, and pressure-bonding the first electronic member and the second electronic member via the adhesive layer such that the first electrode and the second electrode are electrically connected to each other, wherein the first electronic member further including an insulating layer formed on a side of the first electrode opposite to the first substrate, and the adhesive layer including: a first conductive particle being a dendritic conductive particle; and a second conductive particle being a conductive particle other than the first conductive particle and having a non-conductive core and a conductive layer provided on the core.

A method for manufacturing a semiconductor device includes: providing a semiconductor substrate having first and second sides; forming at least one doping region at the first side; forming a first metallization structure at the first side on and in contact with the at least one doping region; and subsequently forming a second metallization structure at the second side, the second metallization structure forming at least one silicide interface region with the semiconductor substrate and at least one non-silicide interface region with the semiconductor substrate.