An electronic device module includes a first board including a first side and a second side facing in opposite directions, the first side of the first board being configured to have a first electronic device mounted thereon; a second board adhered to the second side of the first board, and including a device accommodating portion that is a space formed by removing a central portion of the second board; a second electronic device disposed in the device accommodating portion and mounted on the second side of the first board so that the second electronic device is adjacent to an internal edge side of the second board defining a boundary of the device accommodating portion; and a bonding layer disposed in a gap between the first board and the second board and extending into a gap between the second side of the first board and the second electronic device, the bonding layer bonding the second board and the second electronic device to the first board.

The present disclosure relates to a semiconductor chip that includes a substrate, a metal layer, and a number of component portions. Herein, the substrate has a substrate base and a number of protrusions protruding from a bottom surface of the substrate base. The substrate base and the protrusions are formed of a same material. Each of the protrusions has a same height. At least one via hole extends vertically through one protrusion and the substrate base. The metal layer selectively covers exposed surfaces at a backside of the substrate and fully covers inner surfaces of the at least one via hole. The component portions reside over a top surface of the substrate base, such that a certain one of the component portions is electrically coupled to a portion of the metal layer at the top of the at least one via hole.

The present disclosure relates to a semiconductor chip that includes a substrate, a metal layer, and a number of component portions. Herein, the substrate has a substrate base and a number of protrusions protruding from a bottom surface of the substrate base. The substrate base and the protrusions are formed of a same material. Each of the protrusions has a same height. At least one via hole extends vertically through one protrusion and the substrate base. The metal layer selectively covers exposed surfaces at a backside of the substrate and fully covers inner surfaces of the at least one via hole. The component portions reside over a top surface of the substrate base, such that a certain one of the component portions is electrically coupled to a portion of the metal layer at the top of the at least one via hole.

Each of a plurality of semiconductor elements included in a semiconductor package includes a front-surface electrode being provided on a semiconductor substrate on a side opposite to a conductor substrate, a back-surface electrode being joined to the conductor substrate, a control pad configured to control current flowing between the front-surface electrode and the back-surface electrode, a frame being electrically connected to the front-surface electrode, a portion of the frame being exposed from a surface of a sealing material from which a lower surface of the conductor substrate is exposed, and a plurality of terminal blocks being electrically connected to a plurality of first pads, a portion of the plurality of terminal blocks being exposed from a surface of the sealing material, the surface being provided on a side opposite to the surface of the sealing material from which the lower surface of the conductor substrate is exposed.

Each of a plurality of semiconductor elements included in a semiconductor package includes a front-surface electrode being provided on a semiconductor substrate on a side opposite to a conductor substrate, a back-surface electrode being joined to the conductor substrate, a control pad configured to control current flowing between the front-surface electrode and the back-surface electrode, a frame being electrically connected to the front-surface electrode, a portion of the frame being exposed from a surface of a sealing material from which a lower surface of the conductor substrate is exposed, and a plurality of terminal blocks being electrically connected to a plurality of first pads, a portion of the plurality of terminal blocks being exposed from a surface of the sealing material, the surface being provided on a side opposite to the surface of the sealing material from which the lower surface of the conductor substrate is exposed.

The semiconductor device includes a semiconductor element, a plurality of terminal electrodes, internal wiring, and a sealing material. The semiconductor element is mounted on a circuit pattern provided on an insulating substrate. The plurality of terminal electrodes are provided on a case in which the insulating substrate and the semiconductor element are contained. The internal wiring connects the semiconductor element and the plurality of terminal electrodes. The sealing material fills a space in the case. The internal wiring includes a plurality of circuit patterns, a plurality of metal blocks, and metal wire. The plurality of metal blocks are electrically connected to the respective circuit patterns. The metal wire connects the plurality of metal blocks and is bonded to the plurality of metal blocks at positions closer to an upper surface of the sealing material than surfaces of the plurality of circuit patterns.

The semiconductor device includes a semiconductor element, a plurality of terminal electrodes, internal wiring, and a sealing material. The semiconductor element is mounted on a circuit pattern provided on an insulating substrate. The plurality of terminal electrodes are provided on a case in which the insulating substrate and the semiconductor element are contained. The internal wiring connects the semiconductor element and the plurality of terminal electrodes. The sealing material fills a space in the case. The internal wiring includes a plurality of circuit patterns, a plurality of metal blocks, and metal wire. The plurality of metal blocks are electrically connected to the respective circuit patterns. The metal wire connects the plurality of metal blocks and is bonded to the plurality of metal blocks at positions closer to an upper surface of the sealing material than surfaces of the plurality of circuit patterns.

An electronic device module includes a first board including a first side and a second side facing in opposite directions, the first side of the first board being configured to have a first electronic device mounted thereon; a second board adhered to the second side of the first board, and including a device accommodating portion that is a space formed by removing a central portion of the second board; a second electronic device disposed in the device accommodating portion and mounted on the second side of the first board so that the second electronic device is adjacent to an internal edge side of the second board defining a boundary of the device accommodating portion; and a bonding layer disposed in a gap between the first board and the second board and extending into a gap between the second side of the first board and the second electronic device, the bonding layer bonding the second board and the second electronic device to the first board.

An electronic device module includes a first board including a first side and a second side facing in opposite directions, the first side of the first board being configured to have a first electronic device mounted thereon; a second board adhered to the second side of the first board, and including a device accommodating portion that is a space formed by removing a central portion of the second board; a second electronic device disposed in the device accommodating portion and mounted on the second side of the first board so that the second electronic device is adjacent to an internal edge side of the second board defining a boundary of the device accommodating portion; and a bonding layer disposed in a gap between the first board and the second board and extending into a gap between the second side of the first board and the second electronic device, the bonding layer bonding the second board and the second electronic device to the first board.

According to one embodiment, a semiconductor device includes a support and a stacked body on the support. The stacked body is formed of a plurality of semiconductor chips that are stacked on each other. The stacked body has a lower surface facing the support and an upper surface facing away from the support. A first wire is connected to one of the semiconductor chips in the stack and extends upward from the semiconductor chip to at least the height of the upper surface of the stacked body. A second wire is connected to the support and extends upward from the support to at least the height of the upper surface of the stacked body.