In a soldering structure, a power module having the same, and a method for manufacturing the power module configured for constantly determining a height of a power module when the power module is manufactured, the soldering structure may include a soldering target portion; a metal layer including a bonding surface having a bonding region in which the soldering target portion is bonded by solder; and at least one wire located in the solder within the bonding region.

A foldable display device having a foldable display region includes a flexible substrate, a plurality of first light emitting units disposed on the flexible substrate in the foldable display region, and a first protector disposed on at least one of the first light emitting units. The first protector has a surface, and at least a portion of the surface has a curved profile.

A display device includes: a substrate; a pixel connected to a gate line and a data line on the substrate; a connection unit connected to one of the gate line and the data line of the substrate; and a driving integrated circuit mounted on the connection unit. The connection unit includes an output lead line, an auxiliary lead line and a first pattern, and the output lead line, auxiliary lead line and first pattern are sequentially disposed along a first direction on an output portion of the connection unit, an end portion of the first pattern is disposed on a first side of the connection unit, at least a portion of the auxiliary lead line is disposed on an input portion of the connection unit.

Solid metal foam thermal interface materials and their uses in electronics assembly are described. In one implementation, a method includes: applying a thermal interface material (TIM) between a first device and a second device to form an assembly having a first surface of the TIM in in touching relation with a surface of the first device, and a second surface of the TIM opposite the first surface in touching relation with a surface of the second device, the TIM comprising a solid metal foam and a first liquid metal; and compressing the assembly to form an alloy from the TIM that bonds the first device to the second device.

Semiconductor module having a first substrate, a second substrate and a spacer distancing the substrates from each other, wherein the spacer is formed by at least one elastic shaped metal body.

Semiconductor module having a first substrate, a second substrate and a spacer distancing the substrates from each other, wherein the spacer is formed by at least one elastic shaped metal body.

The invention relates to a bonding tool for a bonding device for bonding at least one component by adhesives to a substrate, the bonding device including a circular disc-shaped main body lying in a main plane and having an opening and a receiving head connected to the main body for receiving and holding the components, an orthogonal projection of the receiving head onto the main plane lying within the opening so that the receiving head is freely accessible through the opening. The bonding tool has a lighting unit integrated in the bonding tool for curing the adhesive. The invention also relates to a bonding device for bonding at least one component by adhesives applied to a substrate located in an assembly position, and to a bonding method for bonding components by adhesives applied to a substrate.

The present invention discloses a flexible integrated display panel module and manufacturing method thereof, the flexible integrated display panel module includes a flexible integrated display substrate, which including an integrated area, an active area and a non-display disposed at one side of the integrated area, the integrated area divided into a plurality of areas, used to defined as a corresponding functional area. The functional area includes: a display wiring functional area and a plurality of direct on-cell touch control wiring functional areas disposed on both sides of the display functional area.

A method of manufacturing a laminate, the method including: providing a film-form firing material on a support sheet, the film-form firing material containing a sinterable metal particle and a binder component and having an identical or substantially identical shape and an identical size to a shape and size of a semiconductor chip; applying, to a substrate, the film-form firing material on the support sheet; peeling off the support sheet from the substrate and the film-form firing material; applying a back surface side of the semiconductor chip to the film-form firing material on the substrate to face each other; and sinter-bonding the semiconductor chip and the substrate by heating the film-form firing material to 200° C. or higher.

A method of manufacturing a laminate, the method including: providing a film-form firing material on a support sheet, the film-form firing material containing a sinterable metal particle and a binder component and having an identical or substantially identical shape and an identical size to a shape and size of a semiconductor chip; applying a back surface side of the semiconductor chip to the film-form firing material on the support sheet to face each other; peeling off the film-form firing material and the semiconductor chip from the support sheet; applying, to a substrate, a film-form firing material side of the semiconductor chip to which the film-form firing material has been applied; and heating the film-form firing material to 200° C. or higher to sinter-bond the semiconductor chip and the substrate.