At least one unit transistor is arranged over a substrate. A first wiring as a path of current that flows to each unit transistor is arranged over the at least one unit transistor. An inorganic insulation film is arranged over the first wiring. At least one first opening overlapping a partial region of the first wiring in a plan view is provided in the inorganic insulation film. An organic insulation film is arranged over the inorganic insulation film. A second wiring coupled to the first wiring through the first opening is arranged over the organic insulation film and the inorganic insulation film. In a plan view, a region in which the organic insulation film is not arranged is provided outside a region in which the first wiring is arranged. The second wiring is in contact with the inorganic insulation film outside the region in which the first wiring is arranged.

Provided is a semiconductor device including a substrate, a pad, a protective layer, a plurality of convex patterns, a redistribution layer (RDL), and a bump. The pad is disposed on the substrate. The protective layer is disposed on the substrate. The protective layer has a first opening exposing a portion of a surface of the pad. The convex patterns are disposed on the protective layer. The RDL is disposed on the convex patterns. The RDL extends from the pad to the convex patterns. The bump is disposed on the convex patterns.

A method for forming a semiconductor device includes forming an insulating material layer above a semiconductor substrate and modifying at least a portion of a surface of the insulating material layer after forming the insulating material layer. Further, the method includes forming an electrical conductive structure on at least the portion of the surface of the insulating material layer after modifying at least the portion of the surface of the insulating material layer.

A package structure includes a first dielectric layer, a first semiconductor device over the first dielectric layer, a first redistribution line in the first dielectric layer, a second dielectric layer over the first semiconductor device, a second semiconductor device over the second dielectric layer, a second redistribution line in the second dielectric layer, a conductive through-via over the first dielectric layer and electrically connected to the first redistribution line, a conductive ball over the conductive through-via and electrically connected to the second redistribution line, and a molding material. The molding material surrounds the first semiconductor device, the conductive through-via, and the conductive ball, wherein a top of the conductive ball is higher than a top of the molding material.

A display panel includes a display area, a pad area adjacent to the display area, pixels disposed in the display area on a substrate, and pads disposed in the pad area on the substrate and electrically connected to pixels. Each of the pads includes a first conductive layer, at least one a first protrusion disposed on the first conductive layer, at least one second protrusion disposed on the first conductive layer and having a thickness smaller than a thickness of the at least one first protrusion, and a second conductive layer disposed on the first conductive layer and overlapping an upper surface of each of the at least one first protrusion and an upper surface of the at least one second protrusion in a plan view.

A backlight unit and a display device including the same are disclosed. More specifically, a backlight unit is disclosed that includes a plurality of light sources disposed on a glass substrate and disposed in a plurality of rows and a plurality of columns, and first and second transistors disposed on the glass substrate and spaced apart from each other, wherein each of the first transistor and the second transistor is disposed so as not to overlap the plurality of light sources disposed at points where two rows and two columns cross each other. Thus, image quality is excellent.

A chip package includes a first substrate; a first insulation layer disposed over the first substrate; a conductive structure disposed within the first insulation layer; a buffering member embedded into the first insulation layer; a redistribution layer (RDL) electrically connected with the conductive structure and disposed over the conductive structure and the buffering member; and a second insulation layer disposed over the RDL, wherein a portion of the RDL is exposed from the second insulation layer and disposed over the buffering member.

Provided is a substrate structure, including: a substrate body having a conductive contact; an insulating layer formed on the substrate body with the conductive contact exposed therefrom; and an insulating protection layer formed on a portion of a surface of the insulating layer, and having a plurality of openings corresponding to the conductive contact, wherein at least one of the openings is disposed at an outer periphery of the conductive contact. Accordingly, the insulating protection layer uses the openings to dissipate and disperse residual stresses in a manufacturing process of high operating temperatures.

A semiconductor package and a method of making a semiconductor package. As non-limiting examples, various aspects of this disclosure provide various semiconductor packages, and methods of making thereof, that comprise a conductive layer that comprises an anchor portion extending through at least one dielectric layer.

A display apparatus includes a substrate including a display region and a non-display region, a display element layer, a pad group, a touch electrode layer, and a touch insulating layer. The display element layer includes display elements provided in the display region in a plan view. The pad group may include output pads provided on substrate and provided in the non-display region in the plan view. The touch electrode layer is provided on the display element layer. The touch insulating layer is provided on the display element layer and contacts the touch electrode layer. An intaglio pattern is provided in the touch insulating layer overlapped with the non-display region, and the intaglio pattern is not overlapped with the pad group.