A module includes a substrate, which has a polygonal shape in a plan view, an electronic component and an electronic component, which are mounted on a main surface of the substrate, and side electrodes, which are provided on at least two side surfaces of a plurality of side surfaces that form the polygonal shape of the substrate. A conductor film coupled to the electronic component and a conductor film coupled to the electronic component are provided on the substrate. The conductor film extends to reach a side surface of the at least two side surfaces to be coupled to a side electrode provided on the side surface. The conductor film extends to reach a side surface of the at least two side surfaces, which is different from the side surface, to be coupled to a side electrode provided on the side surface.

A module includes a substrate, which has a polygonal shape in a plan view, an electronic component and an electronic component, which are mounted on a main surface of the substrate, and side electrodes, which are provided on at least two side surfaces of a plurality of side surfaces that form the polygonal shape of the substrate. A conductor film coupled to the electronic component and a conductor film coupled to the electronic component are provided on the substrate. The conductor film extends to reach a side surface of the at least two side surfaces to be coupled to a side electrode provided on the side surface. The conductor film extends to reach a side surface of the at least two side surfaces, which is different from the side surface, to be coupled to a side electrode provided on the side surface.

A first device includes a rectangular substrate having a first width and a first length and a first pattern of electrical interface nodes at first, second and third sides with a first set of electrical interface nodes at the fourth side. A second device includes a second rectangular substrate having a second width equal to the first width, a second length and a median line extending in the direction of the second width. A second pattern of electrical interface nodes for the second device includes two unmorphed replicas of the first pattern arranged mutually rotated 180° on opposite sides of the median line as well as two second sets of electrical interface nodes formed by two smaller morphed replicas of the first set of electrical interface nodes arranged mutually rotated 180° on opposite sides of said median line.

A first device includes a rectangular substrate having a first width and a first length and a first pattern of electrical interface nodes at first, second and third sides with a first set of electrical interface nodes at the fourth side. A second device includes a second rectangular substrate having a second width equal to the first width, a second length and a median line extending in the direction of the second width. A second pattern of electrical interface nodes for the second device includes two unmorphed replicas of the first pattern arranged mutually rotated 180° on opposite sides of the median line as well as two second sets of electrical interface nodes formed by two smaller morphed replicas of the first set of electrical interface nodes arranged mutually rotated 180° on opposite sides of said median line.

Electrical circuitry is produced on the surface of an organic polymer. The electrical circuitry is produced on a support, and a polymerizable composition is brought into contact with the support and the circuitry. The polymerizable composition is polymerized while in contact with support and the circuitry to produce a solid, organic polymer. The electrical circuitry becomes adhered to and partially embedded in a surface of the solid organic polymer. The support may be removed subsequent to the polymerization step to expose the circuitry at the surface of the solid organic polymer.

Some embodiments relate to a package. The package includes a first substrate, a second substrate, and an interposer frame between the first and second substrates. The first substrate has a first connection pad disposed on a first face thereof, and the second substrate has a second connection pad disposed on a second face thereof. The interposer frame is arranged between the first and second faces and generally separates the first substrate from the second substrate. The interposer frame includes a plurality of through substrate holes (TSHs) which pass entirely through the interposer frame. A TSH is aligned with the first and second connection pads, and solder extends through the TSH to electrically connect the first connection pad to the second connection pad.

Some embodiments relate to a package. The package includes a first substrate, a second substrate, and an interposer frame between the first and second substrates. The first substrate has a first connection pad disposed on a first face thereof, and the second substrate has a second connection pad disposed on a second face thereof. The interposer frame is arranged between the first and second faces and generally separates the first substrate from the second substrate. The interposer frame includes a plurality of through substrate holes (TSHs) which pass entirely through the interposer frame. A TSH is aligned with the first and second connection pads, and solder extends through the TSH to electrically connect the first connection pad to the second connection pad.

A semiconductor device includes: an insulating substrate; a semiconductor chip; a base plate; a first heat dissipating material; and a case. The semiconductor chip and a sealing material for sealing the semiconductor chip are housed in the case. The insulating substrate includes an insulating layer and a conductor pattern provided on an upper surface of the insulating layer. The semiconductor chip is joined onto the conductor pattern by a joining material. A lower surface of the insulating substrate and an upper surface of the base plate are in contact with each other with interposition of the first heat dissipating material. The insulating substrate and the base plate are not fixed to each other.

A semiconductor package includes: a semiconductor chip including a front end of line (FEOL) layer and a first back end of line (BEOL) layer disposed on the FEOL layer; and a printed circuit board including a wiring layer and a second BEOL layer disposed on the wiring layer, wherein the semiconductor chip is mounted on the printed circuit board so that the first and second BEOL layers are connected to each other while facing each other, and the second BEOL layer includes a wiring for power transmission.

A semiconductor device of an embodiment includes: a wiring board; a semiconductor chip mounted on the wiring board; and a resin-containing layer bonded on the wiring board so as to fix the semiconductor chip to the wiring board. The resin-containing layer contains a resin-containing material having a breaking strength of 15 MPa or more at 125° C.