A substrate is manufactured by drilling a chip containing groove in a composite inner layer circuit structure, having a component connecting end of a circuit layer protruding from a mounting side wall in the chip containing groove, mounting a chip component in the chip containing groove, and connecting the surface bonding pad to the component connecting end. The chip component in the present invention penetrates at least two circuit layers, and the surface bonding pad is bonded to the component connecting end of the circuit layer directly, reducing the occupied area of the chip component in each one of the circuit layers, and increasing the area for circuit disposing and the possible amount of chip components that may be mounted in the substrate.

An apparatus for manufacturing a display device, the apparatus including: a head portion configured to fix a driving chip; a heater portion coupled to the head portion; a booster portion connected to the head portion; a converter portion connected to the booster portion and configured to vibrate the head portion; and a cooling portion arranged at the converter portion or the booster portion and configured to cool the converter portion or the booster portion by supplying a gas to the converter portion or the booster portion.

A biocompatible electrical connection includes a substrate; a ferrule having a concentric flange at a first end of the ferrule; a first adhesive; and a second adhesive. The first adhesive adheres a first surface of the concentric flange of the ferrule to a surface of the substrate. The second adhesive fills an annular space between a hole in the substrate and the ferrule. The first adhesive or the second adhesive forms a conductive path on the surface of the substrate between the ferrule and a circuit pattern on the substrate.

A welding structure and a display module. The welding structure includes: an output carrier, arranged with a first welding area on a side edge of the output carrier; an input carrier. A first end of the input carrier is arranged with a second welding area, the second welding area being electrically connected to the first welding area; an orthographic projection of the first end of the input carrier on the output carrier is disposed beyond the first welding area; and at least one set of a first support member and a second support member. The first support member is disposed on the input carrier and at a position of the first end beyond the first welding area; the second support member is disposed on the output carrier and opposite to the first support member.

According to one embodiment of the present disclosure, an antenna device, an apparatus for manufacturing the same, and a method for manufacturing the same are disclosed. The antenna device according to one embodiment of the present disclosure comprises an antenna substrate sheet and an antenna pattern. A connecting PCB is attached on the antenna substrate sheet. The antenna pattern starts from one of a plurality of connecting terminals of the connecting PCB and ends at another one of the plurality of connecting terminals. The antenna pattern comprises a plurality of wires which functions as one line and a bridge. The plurality of wires is embedded on the antenna substrate sheet. The bridge connects the connecting PCB and a point where winding of the plurality of wires on the antenna substrate sheet is completed.

A method can be used for manufacturing a metal substrate structure for a semiconductor power module. A plurality of terminals are welded to a metal top layer. After the welding, a dielectric layer is coupled between the metal top layer and a metal bottom layer. The dielectric can be laminated or molded, as examples.

A display apparatus includes a display panel having a display substrate on which a plurality of pad terminals is disposed, and a driving unit having a plurality of driving terminals electrically connected to the plurality of pad terminals. Each of the plurality of pad terminals includes a stepped groove that faces a corresponding driving terminal of the plurality of driving terminals or each of the plurality of pad terminals includes an opening hole that faces the corresponding driving terminal of the plurality of driving terminals.

A hydrogen evolution assisted electroplating nozzle includes a nozzle tip configured to interface with a portion of a substructure. The nozzle also includes an inner coaxial tube connected to a reservoir containing an electrolyte and an anode, the inner coaxial tube configured to dispense the electrolyte through the nozzle tip onto the portion of the substructure. The nozzle also includes an outer coaxial tube encompassing the inner coaxial tube, the outer coaxial tube configured to extract the electrolyte from the portion of the substructure. The nozzle also includes at least one contact pin configured to make electrical contact with a conductive track on the substrate.

A welding structure includes: a first metal member and a second metal member that are superimposed and welded together. The first metal member has a hole. The second metal member includes a nugget portion where a part of the second metal member has been melted by heat of laser light and has re-solidified. A peripheral portion of the hole in the first metal member covers the nugget portion. A part of the nugget portion is exposed through the hole.

A welding system comprises a welding module and a moving module adapted to move the welding module to a predetermined welding position. The welding module includes a guiding device and a welding tool. The guiding device has a plurality of tubular guiding heads arranged in a row, ends of the plurality of tubular guiding heads are disposed close to joints of a plurality of cables so as to guide a plurality of welding wires to the joints of the plurality of cables. The welding tool has a plurality of tooth-shaped welding heads arranged in a row, ends of the plurality of tooth-shaped welding heads are disposed close to the joints of the plurality of cables and configured to simultaneously heat the plurality of welding wires guided to the joints of the plurality of cables, so as to simultaneously weld the joints of the plurality of cables onto a circuit board.