A display device includes first pixel circuit unit, second pixel circuit unit, third pixel circuit unit, and fourth pixel circuit unit spaced from one another, first pixel electrode on the first pixel circuit unit, second pixel electrode on the second pixel circuit unit, third pixel electrode on the third pixel circuit unit, fourth pixel electrode on the fourth pixel circuit unit, first light-emitting element electrically connected to the first pixel electrode, the first light-emitting element configured to emit first light, second light-emitting element electrically connected to the second pixel electrode, the second light-emitting element configured to emit second light, and third light-emitting element electrically connected to the third pixel electrode, the third light-emitting element configured to emit third light. A length of the first light-emitting element in a first direction is greater than each of a length of the second and third light-emitting elements in the first direction.

Disclosed is a flip-chip device. The flip-chip device includes a die having a plurality of under bump metallizations (UBMs); and a package substrate having a plurality of bond pads. The plurality of UBMs include a first set of UBMs having a first size and a first minimum pitch and a second set of UBMs having a second size and a second minimum pitch. The first set of UBMs and the second set of UBMs are each electrically coupled to the package substrate by a bond-on-pad connection.

A bonded assembly includes a first semiconductor die that includes first metallic bonding structures embedded within a first bonding-level dielectric layer, and a second semiconductor die that includes second metallic bonding structures embedded within a second bonding-level dielectric layer and bonded to the first metallic bonding structures by metal-to-metal bonding. One of the first metallic bonding structures a pad portion, and a via portion located between the pad portion and the first semiconductor device, the via portion having second tapered sidewalls.

A semiconductor device includes a substrate, a conductive part formed on a front surface of the substrate, a semiconductor chip disposed on the front surface of the substrate, a control unit that controls the semiconductor chip, a sealing resin that covers the semiconductor chip, the control unit and the conductive part, and a first lead bonded to the conductive part and partially exposed from the sealing resin. The conductive part includes a first pad and a second pad disposed apart from each other. The first lead is bonded to the first pad and the second pad.

Disclosed is a flip-chip device. The flip-chip device includes a die having a plurality of under bump metallizations (UBMs); and a package substrate having a plurality of bond pads. The plurality of UBMs include a first set of UBMs having a first size and a first minimum pitch and a second set of UBMs having a second size and a second minimum pitch. The first set of UBMs and the second set of UBMs are each electrically coupled to the package substrate by a bond-on-pad connection.

A semiconductor apparatus comprises first and second semiconductor component having first and second metal pads, respectively. The first and second semiconductor components are stacked on each other to be bonded to each other at a bonding face. In a plane including the bonding face, first and second ranges each having a circular contour with a diameter of 10 μm or more are definable. None of bonded portions is provided inside of each of the first and second ranges. At least a part of the bonded portions is located between the first and second ranges. The bonded portions are disposed between the first and second ranges such that any straight line passing through the first and second ranges and parallel to a direction connecting centers of the first and second ranges intersects at least one bonded portion of the bonded portions.

The embodiments of the present invention discloses an arrangement of bond pads on an integrated circuit chip. The integrated circuit chip includes: a first row of bond pads; and a second row of bond pads, wherein bond pads in the first row are positioned alternately with bond pads in the second row, and a short side of the bond pads in the first row and the second row is parallel to a long side of the integrated circuit chip. With this arrangement of bond pads on the integrated circuit chip, the bond pads may occupy a reduced area of a surface of the integrated circuit chip.

A display substrate and a display device are provided. The display substrate includes a backplane including a plurality of pixel regions; and light emitting units arranged in one-to-one correspondence with the plurality of pixel regions. Each light emitting unit includes light emitting sub-units arranged in a plurality of rows and a plurality of columns, each row of light emitting sub-units includes a plurality of light emitting sub-units arranged along a row direction, each column of light emitting sub-units includes one light emitting sub-unit, and orthographic projections of light emitting regions of two adjacent columns of light emitting sub-units on a first straight line extending along a column direction are not overlapped; and in each light emitting unit, there is no gap between orthographic projections of the light emitting regions of the two adjacent columns of light emitting sub-units on a second straight line extending along the row direction.

Provided is a semiconductor integrated circuit device including a plurality of columns of IO cells and having a configuration capable of reducing wiring delays without causing an increase in the area. The semiconductor integrated circuit device includes a first IO cell column group including an IO cell column closest to a periphery of a chip, and a second IO cell column group including an IO cell column adjacent to the first IO cell column group at the side closer to the core region. At least one of the first IO cell column group or the second IO cell column group includes two or more IO cell columns, and the two or more IO cell columns are aligned in the second direction such that the lower power supply voltage regions face each other or the higher power supply voltage regions face each other.

The embodiments of the present invention discloses an arrangement of bond pads on an integrated circuit chip. The integrated circuit chip includes: a first row of bond pads; and a second row of bond pads, wherein bond pads in the first row are positioned alternately with bond pads in the second row, and a short side of the bond pads in the first row and the second row is parallel to a long side of the integrated circuit chip. With this arrangement of bond pads on the integrated circuit chip, the bond pads may occupy a reduced area of a surface of the integrated circuit chip.