A display device is provided. The display device includes a supporting film and a flexible substrate disposed on the supporting film. The display device also includes a driving layer disposed on the flexible substrate, and a conductive pad disposed on the driving layer. The display device further includes a light-emitting diode disposed on the conductive pad and electrically connected to the conductive pad, wherein the supporting film has a first hardness, the flexible substrate has a second hardness, and the first hardness is greater than or equal to the second hardness.

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.

A stacked device includes a stacked structure in which a plurality of semiconductors are electrically connected to each other, the semiconductor includes a surface on which a plurality of terminals are provided, the plurality of terminals include a terminal that bonds and electrically connects the semiconductors to each other and a terminal that bonds the semiconductors to each other and does not electrically connect the semiconductors to each other, an area ratio of the plurality of terminals on the surface of the semiconductor is 40% or higher, and an area ratio of the terminals that bond and electrically connect the semiconductors to each other among the plurality of terminals is lower than 50%.

A ring-like sealing frame (3) and a bump (4) are simultaneously formed on a main surface of a first substrate (1) by patterning a metal paste. A ring-like protrusion (8) having a smaller width than a width of the sealing frame (3) is formed on a main surface of a second substrate (5). The main surface of the first substrate (1) and the main surface of the second substrate (5) are aligned to face each other. The sealing frame (3) is bonded to the protrusion (8), and the bump (4) is electrically bonded to the second substrate (5). A height of the protrusion (8) is 0.4 to 0.7 times a distance between the first substrate (1) and the second substrate (2) after bonding.

Provided is a three-dimensional integrated circuit (3DIC) structure including a first die and a second die bonded together by a hybrid bonding structure. One of the first die and the second die has a pad and a cap layer disposed over the pad. The cap layer exposes a portion of a top surface of the pad, and the portion of the top surface of the pad has a probe mark. A bonding metal layer of the hybrid bonding structure penetrates the cap layer to electrically connect to the pad. A method of fabricating the first die or the second die of 3DIC structure is also provided.

A display apparatus is provided, including a panel including a substrate including a display area where pixels are disposed, and a pad area where a terminal portion connected to the display area is disposed, and an insulating layer disposed over a same layer as in the display area and the pad area. A thickness of the insulating layer in the display area and a thickness of the insulating layer in the pad area are of different thicknesses.

In an embodiment a composite semiconductor component includes a carrier substrate having a plurality of projecting elements projecting from a first main surface of the carrier substrate, an electrically conductive material electrically conductively connected to a contact region of the carrier substrate and located on at least one of the projecting elements, some of the projecting elements not being covered with the electrically conductive material and a semiconductor chip arranged on the carrier substrate and having at a first surface at least one contact pad electrically connected to the electrically conductive material on at least one element, wherein, at a position at which the contact pad and the electrically conductive material on the projecting element are in each case in contact with one another, the contact pad has a larger lateral extent than the projecting element in each case.

Provided is a three-dimensional integrated circuit (3DIC) structure including a first die and a second die bonded together by a hybrid bonding structure. One of the first die and the second die has a pad and a cap layer disposed over the pad. The cap layer exposes a portion of a top surface of the pad, and the portion of the top surface of the pad has a probe mark. A bonding metal layer of the hybrid bonding structure penetrates the cap layer to electrically connect to the pad. A method of fabricating the first die or the second die of 3DIC structure is also provided.

A method includes aligning a first electrical connector of a first package component to a second electrical connector of a second package component. With the first electrical connector aligned to the second electrical connector, a metal layer is plated on the first and the second electrical connectors. The metal layer bonds the first electrical connector to the second electrical connector.

An embedded-bridge substrate connector apparatus includes a patterned reference layer to which a first module and a subsequent module are aligned and the two modules are mated at the patterned reference layer. At least one module includes a silicon bridge connector that bridges to two devices, through the patterned reference layer, to the mated module.