A film structure, a chip carrier assembly, and a chip carrier device are provided. The film structure includes a film and a plurality of micro-heaters. In which, the film is applied on a substrate, and the plurality of micro-heaters is disposed on top of the film or in the film. The chip carrier assembly includes a circuit substrate and the film structure. In which, the circuit substrate carries a plurality of chips. The chip carrier device includes the chip carrier assembly and a suction unit. In which, the suction unit is arranged above the chip carrier assembly to attach on and transfer the plurality of chips to the circuit substrate. The chips are disposed on the circuit substrate through solder balls, and the micro-heaters heat the solder balls that are in contact with the chips.

A film structure, a chip carrier assembly, and a chip carrier device are provided. The film structure includes a film and a plurality of micro-heaters. In which, the film is applied on a substrate, and the plurality of micro-heaters is disposed on top of the film or in the film. The chip carrier assembly includes a circuit substrate and the film structure. In which, the circuit substrate carries a plurality of chips. The chip carrier device includes the chip carrier assembly and a suction unit. In which, the suction unit is arranged above the chip carrier assembly to attach on and transfer the plurality of chips to the circuit substrate. The chips are disposed on the circuit substrate through solder balls, and the micro-heaters heat the solder balls that are in contact with the chips.

A semiconductor device manufacturing device (10) comprises: a stage (16) on which a substrate (100) is loaded; a bonding head (14) that is disposed facing the stage (16) and that bonds a semiconductor chip (110) to the substrate (100); and a controller (18). The bonding head (14) includes: an attachment (33) that holds the semiconductor chip (110) by suctioning; and a heating part (31) that detachably holds the attachment (33) and that heats the attachment (33). The heating part (31) has a first heating area (32a) and a second heating area (32b) that surrounds the first heating area (32a) in the horizontal direction. The controller (18) controls the temperatures of the first heating area (32a) and the second heating area (32b) independently.

A chip-transferring system and a chip-transferring method are provided. The chip-transferring method includes: providing a chip carrying structure carrying an electronic chip; providing a circuit substrate, wherein a soldering material is configured between the electronic chip and the circuit substrate; providing a pin structure, wherein the electronic chip is transferred from the chip carrying structure to the circuit substrate through thrust of the pin structure; approaching a conductive coil structure of an eddy current generating module toward the soldering material , so that the soldering material is heated and cured indirectly through an eddy current generated by the conductive coil structure.

A chip-carrying structure and a chip-bonding method are provided. The chip-carrying structure includes a circuit substrate for carrying a plurality of conductive materials, a plurality of micro heaters disposed on or inside the circuit substrate, and a micro heater control chip electrically connected to the micro heaters. Therefore, when a chip is disposed on two corresponding ones of the conductive materials, the micro heater control chip is configured to control a corresponding one of the micro heaters to start or stop heating the two corresponding conductive materials according to chip movement information of the chip.

An LED chip initial structure, a substrate structure for carrying the LED chip initial structure, a chip transferring method using the LED chip initial structure, and an LED image display device manufactured by the LED chip transferring method are provided. The LED chip initial structure includes an LED chip main body and a conductive electrode. One of a top side and a bottom side of the LED chip main body is a temporary electrodeless side, another one of the top side and the bottom side of the LED chip main body is a connecting electrode side, and the temporary electrodeless side has an unoccupied surface. The conductive electrode is disposed on the connecting electrode side of the LED chip main body so as to electrically connect to the LED chip main body. The LED chip initial structure is adhered to a hot-melt material through the conductive electrode.

An interposer board having heating function and an electronic device using the same are provided. The interposer board includes an insulating body, a plurality of top conductive contacts, a plurality of bottom conductive contacts, a plurality of conductive connection structures and a plurality of micro heaters. The top conductive contacts are disposed on the insulating body. The bottom conductive contacts are disposed on the insulating body. The conductive connection structures are disposed on the insulating body, and the conductive connection structures respectively electrically connected to the top conductive contacts and respectively electrically connected to the bottom conductive contacts. The micro heaters are disposed on or in the insulating body, and the micro heaters are respectively adjacent to the top conductive contacts and the bottom conductive contacts. Each of the top conductive contacts or each of the bottom conductive contacts can be heated by the corresponding micro heater.

A non-conductive film having heating function and an electronic device using the same are provided. The electronic device includes a circuit substrate, an interposer board disposed on the circuit substrate, at least one electronic chip carried by the interposer board, a first non-conductive film disposed between the interposer board and the circuit substrate, and a second non-conductive film disposed between the at least one electronic chip and the interposer board, the at least one electronic chip being electrically connected to the circuit substrate through the interposer board. One of the first non-conductive film and the second non-conductive film is a type of non-conductive film having heating function, and the non-conductive film with heating function includes a non-conductive body and a plurality of micro heaters. The shape of the non-conductive body is changeable by heating, and the micro heaters are disposed on or in the non-conductive body.

A chip interconnection structure, a chip and a chip interconnection method. The chip interconnection structure includes a first chip and at least one second chip, where a transfer surface of the first chip and a transfer surface of the second chip are disposed oppositely, at least one conductive component is further provided between the second chip and the first chip, each conductive component includes at least one conductive member, and the conductive member is connected between a pad of the second chip and a pad of the first chip. The chip interconnection structure can allow two or more than two chips to be interconnected and to communicate at a high speed.

A film structure, a chip carrier assembly, and a chip carrier device are provided. The film structure includes a film and a plurality of micro-heaters. In which, the film is applied on a substrate, and the plurality of micro-heaters is disposed on top of the film or in the film. The chip carrier assembly includes a circuit substrate and the film structure. In which, the circuit substrate carries a plurality of chips. The chip carrier device includes the chip carrier assembly and a suction unit. In which, the suction unit is arranged above the chip carrier assembly to attach on and transfer the plurality of chips to the circuit substrate. The chips are disposed on the circuit substrate through solder balls, and the micro-heaters heat the solder balls that are in contact with the chips.