A method of repairing a display panel and a repaired display panel are provided. The display panel includes a panel substrate, a plurality of micro LEDs arranged on the panel substrate, and a molding member covering the plurality of micro LEDs. The molding member includes a first molding member and a second molding member disposed in a region surrounded by the first molding member. The second molding member has a composition or a shape different from that of the first molding member, and the second molding member surrounds at least one side surface of the plurality of micro LEDs.

Provided is a method for manufacturing an electronic device. The method for manufacturing the electronic device includes mapping good elements and defective elements on a substrate, providing a first transparent structure including a first adhesive layer on the substrate, selectively providing first laser light to the defective elements to cure the first adhesive layer on the defective elements and separate the defective elements from the substrate, providing a second transparent structure including a second adhesive layer, which adheres to new elements replaced for the defective elements, on the substrate, and selectively providing second laser light to the new elements to bond the new elements to the substrate.

The application discloses a light-emitting device including a carrier which includes an insulating layer, an upper conductive layer formed on the insulating layer, a plurality of conducting vias passing through the insulating layer, and a lower conductive layer formed under the insulating layer; four light-emitting elements arranged in rows and columns flipped on the carrier; and a light-passing unit formed on the carrier and covering the four light-emitting elements; wherein each of the light-emitting elements including a first light-emitting bare die emitting a first dominant wavelength, a second light-emitting bare die emitting a second dominant wavelength, and a third light-emitting bare die emitting a third dominant wavelength; and wherein two adjacent first light-emitting bare die in a row has a first distance W1, two adjacent first light-emitting bare die in a column has a second distance W2, and W1 is the same as W2.

A display panel including a circuit board having first pads, a plurality of light emitting devices disposed on the circuit board and having second pads, at least one of the light emitting devices including a repaired light emitting device, and a metal bonding layer bonding the first pads and the second pads, in which the metal bonding layer of the repaired light emitting device has at least one of a thickness and a composition different from that of the metal bonding layer of the remaining light emitting devices.

A device is provided. The device includes one or more of a singular die, one of another die, a printed circuit board, and a substrate, and one or more solder balls. The singular die includes one or more reconditioned die pads, which include die pads of the singular die with a plurality of metallic layers applied. The other die, printed circuit board, and the substrate include one or more bond pads. The one or more solder balls are between the one or more reconditioned die pads and the one or more bond pads.

A light emitting diode includes a first semiconductor layer, a second semiconductor layer, a first pad, a second pad, and a protection bump. The first semiconductor layer and the second semiconductor layer are overlapping with each other. An area of a first surface of the first semiconductor layer is larger than an area of a second surface of the second semiconductor layer. The first surface faces the second surface. The first pad is electrically connected to the first semiconductor layer. The second pad is electrically connected to the second semiconductor layer. The protection bump is located between the first pad and the second pad.

A mounting method is a method for mounting a diced semiconductor chip having a first face that is held on a carrier substrate and a second face that is an opposite face of the first face on a circuit board placed on a mounting table. The mounting method includes affixing the second face of the semiconductor chip to an adhesive sheet, removing the carrier substrate from the semiconductor chip, reducing an adhesive strength of the adhesive sheet, and mounting the semiconductor chip on the circuit board by holding a first face side of the semiconductor chip with a head to separate the semiconductor chip from the adhesive sheet, and joining a second face side of the semiconductor chip to the circuit board.

A stacked semiconductor device encompasses a mother-substrate, rectangular chips mounted on the mother-substrate, and bump-connecting mechanisms connecting the mother-substrate and the chips by a non-provisional joint-process with a height lower than the height of a provisional joint-process jointing the mother-substrate and the chips. The mother-substrate has unit elements arranged in each of unit-element areas assigned to a first lattice defined on a first main surface of the mother-substrate, the first main surface is divided into chip-mounting areas along a second lattice having a smaller number of meshes than the first lattice. The bump-connecting mechanisms are arranged along a third lattice corresponding to the arrangement of the unit elements, and transmit signals from the unit elements independently to each of the circuits merged in the chips. After the provisional joint-process, the bump-connecting mechanisms can be separated into substrate-side and chip-side connection-elements.

Wire removal systems and methods for packaging applications. In some embodiments, a method of manufacturing a module can include receiving by an automated wire cutting apparatus a packaging substrate including a die mounted thereon and a defective wire coupled thereto, positioning one or both of a wire cutting instrument of the automated wire cutting apparatus and the packaging substrate relative to the other based on predetermined instructions, and detaching the defective wire from the packaging substrate using the wire cutting instrument.

A method for a heating device suitable for heating at least one soldered joint between an electronic component including at least a first contact mound and a printed circuit board. The soldered joint on the one hand securing the electronic component to the printed circuit board and on the other hand, while providing electrical continuity, the electronic component also having an electronic-component width, and an electronic-component thickness, wherein it includes an electrical-connection suitable for being coupled to an electrical power supply and a heater suitable for reaching a temperature at least equal to the melting point of the solder.