Semiconductor devices, methods of manufacture thereof, and semiconductor device packages are disclosed. In one embodiment, a semiconductor device includes an insulating material layer having openings on a surface of a substrate. One or more insertion bumps are disposed over the insulating material layer. The semiconductor device includes signal bumps having portions that are not disposed over the insulating material layer.

Semiconductor devices, methods of manufacture thereof, and semiconductor device packages are disclosed. In one embodiment, a semiconductor device includes an insulating material layer having openings on a surface of a substrate. One or more insertion bumps are disposed over the insulating material layer. The semiconductor device includes signal bumps having portions that are not disposed over the insulating material layer.

A method of forming an electronic device structure includes providing an electronic component having a first major surface, an opposing second major surface, a first edge surface, and an opposing second edge surface. A substrate having a substrate first major surface and an opposing substrate second major surface is provided. The second major surface of the first electronic component is placed proximate to the substrate first major surface and providing a conductive material adjacent the first edge surface of the first electronic component. The conductive material is exposed to an elevated temperature to reflow the conductive material to raise the first electronic component into an upright position such that the second edge surface is spaced further away from the substrate first major surface than the first edge surface. The method is suitable for providing electronic components, such as antenna, sensors, or optical devices in a vertical or on-edge.

A method of forming an electronic device structure includes providing an electronic component having a first major surface, an opposing second major surface, a first edge surface, and an opposing second edge surface. A substrate having a substrate first major surface and an opposing substrate second major surface is provided. The second major surface of the first electronic component is placed proximate to the substrate first major surface and providing a conductive material adjacent the first edge surface of the first electronic component. The conductive material is exposed to an elevated temperature to reflow the conductive material to raise the first electronic component into an upright position such that the second edge surface is spaced further away from the substrate first major surface than the first edge surface. The method is suitable for providing electronic components, such as antenna, sensors, or optical devices in a vertical or on-edge.

Semiconductor devices, methods of manufacture thereof, and semiconductor device packages are disclosed. In one embodiment, a semiconductor device includes an insulating material layer having openings on a surface of a substrate. One or more insertion bumps are disposed over the insulating material layer. The semiconductor device includes signal bumps having portions that are not disposed over the insulating material layer.

Semiconductor devices, methods of manufacture thereof, and semiconductor device packages are disclosed. In one embodiment, a semiconductor device includes an insulating material layer having openings on a surface of a substrate. One or more insertion bumps are disposed over the insulating material layer. The semiconductor device includes signal bumps having portions that are not disposed over the insulating material layer.

A stacked semiconductor device encompasses a mother-plate having a mounting-main surface and a bottom-main surface, an onboard-element having a connection face facing to the mounting-main surface, a parent bump provided on the mother-plate, having a mother-site wall made of a layer of conductor, mother-site wall is perpendicular to the mounting-main surface, and a repair bump provided on the onboard-element at a side of the connection face, having a repair-site wall made of a layer of conductor having different hardness from the mother-site wall, the repair-site wall is perpendicular to the connection face, configure to bite each other with the parent bump at an intersection between the mother-site wall and the repair-site wall conductor.

An electronic device structure includes a substrate having a substrate first major surface, an opposing substrate second major surface, and a first conductive pattern adjacent to the substrate first major surface. A first electronic component is coupled to the substate and includes a first component first side and a first device structure adjacent to the first component first side. A second electronic component is adjacent to the substate second major surface and includes a second component first side and a second device structure adjacent to the second component first side. A third electronic component is coupled to the substrate. The first electronic component is generally orthogonal to the substrate and the first device structure is oriented in a first direction, and the second device structure is oriented in a second direction different than the first direction.

An electronic device structure includes a substrate having a substrate first major surface, an opposing substrate second major surface, and a first conductive pattern adjacent to the substrate first major surface. A first electronic component is coupled to the substate and includes a first component first side and a first device structure adjacent to the first component first side. A second electronic component is adjacent to the substate second major surface and includes a second component first side and a second device structure adjacent to the second component first side. A third electronic component is coupled to the substrate. The first electronic component is generally orthogonal to the substrate and the first device structure is oriented in a first direction, and the second device structure is oriented in a second direction different than the first direction.

A stacked semiconductor device encompasses a mother-plate having a mounting-main surface and a bottom-main surface, an onboard-element having a connection face facing to the mounting-main surface, a parent bump provided on the mother-plate, having a mother-site wall made of a layer of conductor, mother-site wall is perpendicular to the mounting-main surface, and a repair bump provided on the onboard-element at a side of the connection face, having a repair-site wall made of a layer of conductor having different hardness from the mother-site wall, the repair-site wall is perpendicular to the connection face, configure to bite each other with the parent bump at an intersection between the mother-site wall and the repair-site wall conductor.