An electronic module has a first substrate 11; a second substrate 21 provided in one side of the first substrate 11; and a chip module 100 provided between the first substrate 11 and the second substrate 21. The chip module 100 has an electronic element 13, 23 and a connecting body 60, 70, 80 electrically connected to the electronic element 13, 23. The electronic element 13, 23 extends along a first direction that is a thickness direction of the electronic module.

An electronic module has a first substrate 11; a second substrate 21 provided in one side of the first substrate 11; and a chip module 100 provided between the first substrate 11 and the second substrate 21. The chip module 100 has an electronic element 13, 23 and a connecting body 60, 70, 80 electrically connected to the electronic element 13, 23. The electronic element 13, 23 extends along a first direction that is a thickness direction of the electronic module.

A semiconductor device A1 includes a semiconductor element 10A having an element obverse face 101 and an element reverse face 102, the element obverse face 101 having an obverse face electrode 11 formed thereon and the element reverse face 102 having a reverse face electrode 12 formed thereon, a conductive substrate 22A including an obverse face 221A opposed to the element reverse face 102, and to which the reverse face electrode 12 is conductively bonded, a conductive substrate 22B including an obverse face 221B and spaced from the conductive substrate 22A in a width direction x, and a lead member 51 extending in the width direction x, and electrically connecting the obverse face electrode 11 and the conductive substrate 22B. The lead member 51 is located ahead of the obverse face 221B in the direction in which the obverse face 221B is oriented, and bonded to the obverse face electrode 11 via a lead bonding layer 32. The conductive substrate 22A, the semiconductor element 10A, and the lead bonding layer 32 overlap with the conductive substrate 22B, as viewed in the width direction x.

The present disclosure describes a power module having a substrate, first and second pluralities of vertical power devices, and first and second terminal assemblies. The substrate has a top surface with a first trace and a second trace. The first plurality of vertical power devices and the second plurality of vertical power devices are electrically coupled to form part of a power circuit. The first plurality of vertical power devices is electrically and mechanically directly coupled between the first trace and a bottom of a first elongated bar of the first terminal assembly. The second plurality of vertical power devices are electrically and mechanically directly coupled between the second trace and a bottom of a second elongated bar of the second terminal assembly.

A semiconductor device includes an electrically conductive clip arranged in a bridge-like position between a semiconductor integrated circuit chip and an electrically conductive pad of a leadframe. The electrically conductive clip is soldered to the semiconductor integrated circuit chip and to the electrically conductive pad via soldering material applied at coupling surfaces facing towards the semiconductor integrated circuit chip and the electrically conductive pad. Prior to soldering, the clip is immobilized in the desired bridge-like position via one of welding (such as laser welding) or gluing at dedicated immobilization areas.

A semiconductor device includes an electrically conductive clip arranged in a bridge-like position between a semiconductor integrated circuit chip and an electrically conductive pad of a leadframe. The electrically conductive clip is soldered to the semiconductor integrated circuit chip and to the electrically conductive pad via soldering material applied at coupling surfaces facing towards the semiconductor integrated circuit chip and the electrically conductive pad. Prior to soldering, the clip is immobilized in the desired bridge-like position via one of welding (such as laser welding) or gluing at dedicated immobilization areas.

An electronic module has a first electronic unit having a first substrate 11, a first conductor layer 12 provided on one side of the first substrate 11, and a first electronic element 13 provided on one side of the first conductor layer 12, a first connection body 60 provided on one side of the first electronic element 13, and a second electronic unit having a second electronic element 23 provided on one side of the first connection body 60. The first connection body 60 has a first head part 61 and a plurality of support parts 65 extending from the first head part 61. The electronic module is characterized by that the support part 65 abuts on the first substrate 11 or the first conductor layer 12.

A semiconductor device A1 includes a semiconductor element 10A having an element obverse face 101 and an element reverse face 102, the element obverse face 101 having an obverse face electrode 11 formed thereon and the element reverse face 102 having a reverse face electrode 12 formed thereon, a conductive substrate 22A including an obverse face 221A opposed to the element reverse face 102, and to which the reverse face electrode 12 is conductively bonded, a conductive substrate 22B including an obverse face 221B and spaced from the conductive substrate 22A in a width direction x, and a lead member 51 extending in the width direction x, and electrically connecting the obverse face electrode 11 and the conductive substrate 22B. The lead member 51 is located ahead of the obverse face 221B in the direction in which the obverse face 221B is oriented, and bonded to the obverse face electrode 11 via a lead bonding layer 32. The conductive substrate 22A, the semiconductor element 10A, and the lead bonding layer 32 overlap with the conductive substrate 22B, as viewed in the width direction x.

An electronic module has a first substrate 11; a first electronic element 13 provided on one side of the first substrate 11; a first connection body 60 provided on the one side of the first electronic element 13; a second electronic element 23 provided on the one side of the first connection body 60; and a second connection body 70 provided on the one side of the second electronic element 23. The first electronic element 13 and the second electronic element 23 do not overlap in a plane direction.

An electronic module has a first substrate 11; a first electronic element 13 provided on one side of the first substrate 11; a first connection body 60 provided on the one side of the first electronic element 13; a second electronic element 23 provided on the one side of the first connection body 60; and a second connection body 70 provided on the one side of the second electronic element 23. The first electronic element 13 and the second electronic element 23 do not overlap in a plane direction.