An electronic component mounting substrate includes an electronic component and a substrate that are electrically connected at a plurality of places on a bottom surface of the electronic component. At least two places of the plurality of places are electrically connected by bonding using a conductive adhesive, and places other than the at least two places of the plurality of places are electrically connected by soldering using a paste solder.

A method of forming a bonding element including a first transient liquid phase (TLP) bonding element including a first material and a second material, the first material having a higher melting point than the second material, a ratio of a quantity of the first material and the second material in the first TLP bonding element having a first value, and a second TLP bonding element including the first material and the second material, a ratio of a quantity of the first material and the second material in the second TLP bonding element having a second value different from the first value.

A fastener for securing a circuit board to a housing and/or a second circuit board. The fastener includes a locking mechanism that ensures the circuit board is reliably mounted within the housing such that the circuit board is not thermally or physically damaged because of vibrational loosening or overheating.

An electronic component embedded substrate includes: a substrate that includes an insulating layer and has a first principal surface and a second principal surface; an electronic component that is embedded in the substrate and has at least one first terminal, at least one second terminal, and a capacity part; at least one via conductor that are formed in the insulating layer and electrically connected to the second terminal; and an adhesion layer that is in contact with the second terminal on an end face of the second terminal which are close to the second principal surface. The electronic component is laminated with the insulating layer, and adhesion strength between the adhesion layer and the insulating layer is higher than that between the second terminal and the insulating layer.

An item may include fabric having insulating and conductive yarns or other strands of material. The conductive strands may form signal paths. Electrical components can be mounted to the fabric. Each electrical component may have an electrical device such as a semiconductor die that is mounted on an interposer substrate. The interposer may have contacts that are soldered to the conductive strands. A protective cover may encapsulate portions of the electrical component. To create a robust connection between the electrical component and the fabric, the conductive strands may be threaded through recesses in the electrical component. The recesses may be formed in the interposer or may be formed in a protective cover on the interposer. Conductive material in the recess may be used to electrically and/or mechanically connect the conductive strand to a bond pad in the recess. Thermoplastic material may be used to seal the solder joint.

An electrical connector, used for electrically connecting a chip module to a circuit board, includes: an insulating body, provided with multiple accommodating grooves penetrating through the insulating body; and multiple conductive terminals, correspondingly accommodated in the accommodating grooves. Each conductive terminal includes a first terminal and a second terminal independently provided. The first terminal has a first connecting portion and an elastic arm, and the elastic arm has a contact portion to be in contact with the chip module. The second terminal has a second connecting portion and a conducting portion to be electrically connected with the circuit board. At least one fixing groove is provided on at least one of the first connecting portion and the second connecting portion, and the first terminal and the second terminal are mated and fixed along a vertical direction by the at least one fixing groove.

An LED flexible light bar, comprising a circuit board (2), LED flip chips (3) are arranged at an upper end of the circuit board (2). The LED flip chips (3) and the circuit board (2) are connected together by a plurality of solder paste bumps (16). Compared with the conventional art, the LED flexible light bar has beneficial effects of simple product structure, less investment in production equipment, reduced manpower requirements, easy implementation of assembly line production, higher production efficiency, lower production costs and the like, and is suitable for both a Flexible Printed Circuit (FPC) and a Printed Circuit Board (PCB) with a wider range of application.

A method of manufacturing a component carrier is disclosed. The method includes galvanically depositing at least part of at least one electrically conductive pillar on a component, and inserting the at least one electrically conductive pillar and an electrically insulating layer structure into one another.

A method for repairing a semiconductor chip and a device for repairing a semiconductor chip is provided, and the method for repairing a semiconductor chip includes: providing a plurality of light-emitting units, and at least one of the light-emitting units being a damaged light-emitting unit; next, removing the damaged light-emitting unit to form an unoccupied position; then, using a pick and place module to obtain a good light-emitting unit from a carrier board; then, a volatile adhesive material is formed on the bottom of the good light-emitting unit; next, the volatile adhesive material is used to adhere the good light-emitting unit to the unoccupied position; finally, the good light-emitting unit is heated so that the good light-emitting unit is fixed onto the unoccupied position.

An item may include fabric having insulating and conductive yarns or other strands of material. The conductive strands may form signal paths. Electrical components can be mounted to the fabric. Each electrical component may have an electrical device such as a semiconductor die that is mounted on an interposer substrate. The interposer may have contacts that are soldered to the conductive strands. A protective cover may encapsulate portions of the electrical component. To create a robust connection between the electrical component and the fabric, the conductive strands may be threaded through recesses in the electrical component. The recesses may be formed in the interposer or may be formed in a protective cover on the interposer. Conductive material in the recess may be used to electrically and/or mechanically connect the conductive strand to a bond pad in the recess. Thermoplastic material may be used to seal the solder joint.