In a mounting structure in which an electronic component is mounted on a wiring board, a wiring sheet including an adhesive layer interposes between the electronic component and the wiring board and the electronic component is indirectly mounted on the wiring board. The electronic component is directly mounted on the adhesive layer of the wiring sheet and the adhesive layer of the wiring sheet is directly fitted to the wiring board. Conduction between the electronic component and the wiring board is attained by conduction between the electronic component and the wiring sheet and conduction between the wiring sheet and the wiring board.

In a mounting structure in which an electronic component is mounted on a wiring board, a wiring sheet including an adhesive layer interposes between the electronic component and the wiring board and the electronic component is indirectly mounted on the wiring board. The electronic component is directly mounted on the adhesive layer of the wiring sheet and the adhesive layer of the wiring sheet is directly fitted to the wiring board. Conduction between the electronic component and the wiring board is attained by conduction between the electronic component and the wiring sheet and conduction between the wiring sheet and the wiring board.

A semiconductor arrangement is provided. The semiconductor arrangement may include an electrically conductive plate having a surface, a plurality of power semiconductor devices arranged on the surface of the electrically conductive plate, wherein a first controlled terminal of each power semiconductor device of the plurality of power semiconductor devices may be electrically coupled to the electrically conductive plate, a plurality of electrically conductive blocks, wherein each electrically conductive block may be electrically coupled with a respective second controlled terminal of each power semiconductor device of the plurality of power semiconductor devices; and encapsulation material encapsulating the plurality of power semiconductor devices, wherein at least one edge region of the surface of the electrically conductive plate may be free from the encapsulation material.