A flexible circuit board and display device including the same are disclosed. In one aspect, the flexible circuit board includes a base film including a bending area and a plurality of signal wires formed over the bending area of the base film. At least one through-hole is defined in the base film.

A display device includes a substrate, conductive pads arranged on the substrate over a plurality of rows, and a drive circuit chip including bumps arranged over a plurality of rows to be electrically connected with the conductive pads, and the conductive pads arranged in a same row are arranged in parallel, and the bumps arranged in a same row are arranged in a zigzag form so as to be partially shifted.

A method of making a component includes applying a clamping force to the component, the component coupled to a carrier strip of a panel via a polymeric tab and separating a portion of the polymeric tab from a substrate of the component, thereby causing the component to be detached from the panel.

A circuit board includes a board, first connection pads disposed on the board and arranged in a first direction, second connection pads disposed on the board and arranged in the first direction, a driving chip disposed on the board and between the first connection pads and the second connection pads, and a first adhesive layer disposed on the board and overlapping with an entirety of the first connection pads in a plan view. The second connection pads are spaced apart from the first connection pads in a second direction perpendicular to the first direction.

A film type package includes: a base film having first and second sides; a driver integrated circuit mounted on the base film; first connection pads disposed on a first area of the base film that is adjacent to the first side of the base film, and configured to be connected to a first external circuit; second connection pads disposed on a second area of the base film that is adjacent to the second side of the base film, and configured to be connected to a second external circuit; first signal lines disposed on the base film, and connecting the driver integrated circuit and the first connection pads; second signal lines disposed on the base film, and connecting the driver integrated circuit and the second connection pads; and a plurality of test lines extending from the driver integrated circuit to the first side of the base film.

A circuit board includes a board, first connection pads disposed on the board and arranged in a first direction, second connection pads disposed on the board and arranged in the first direction, a driving chip disposed on the board and between the first connection pads and the second connection pads, and a first adhesive layer disposed on the board and overlapping with an entirety of the first connection pads in a plan view. The second connection pads are spaced apart from the first connection pads in a second direction perpendicular to the first direction.

A display device includes a display panel, and a top cover disposed around a side surface of the display panel, wherein the top cover includes an accommodation portion corresponding to the side surface of the display panel, a first extension portion extending from an upper end of the accommodation portion, and a second extension portion extending from a lower end of the accommodation portion, such that the first extension portion is offset from the second extension portion.

A layout structure of flexible circuit board includes a flexible substrate, a chip and a circuit layer. A chip mounting area and a circuit area are defined on a top surface of the flexible substrate, the circuit area surrounds the chip mounting area. The chip is mounted on the chip mounting area of the top surface and includes a bump. The circuit layer is disposed on the top surface. A connection portion of the circuit layer extends across a first side of the chip mounting area and into the chip mounting area. A transmission portion of the circuit layer is located on the circuit area and electrically connected to the connection portion. A stress release portion of the circuit layer is located between the transmission portion and a second side of the chip mounting area and is a comb-shaped structure.

Systems and methods are provided for cover plates for printheads. One embodiment is an apparatus that includes a cover plate for a printhead. The cover plate includes multiple layers of electrically conductive material, a layer of nonconductive ferrite that is sandwiched between the multiple layers, and at least one connector that penetrates through the multiple layers and the layer of nonconductive ferrite to form a conductive pathway for electric current between the multiple layers through the layer of nonconductive ferrite. The cover plate also includes at least one opening that penetrates through the multiple layers and the layer of nonconductive ferrite, and that is configured to align with nozzles of the printhead.

A chip on film package includes a driving integrated circuit chip; a base substrate including: a driving integrated circuit region, and a first region at which stress is converged by the base substrate bent along a side surface of the display panel; and an electrical ground pattern structure on the base substrate in the first region thereof at which the stress is converged. The electrical ground pattern structure is connected to a first side of the driving integrated circuit chip, and the ground pattern structure includes extended from the first side of the driving integrated circuit chip: in a first portion of the first region, ground patterns each inclined in a first direction, and in a second portion of the first region, ground patterns each inclined in a second direction different from the first direction.