Disclosed are a laser bonding apparatus and a laser bonding method capable of bonding an electronic component to a three-dimensional structure having a regular or irregular shape in a curved portion such as an automobile tail lamp or a headlamp. The laser bonding apparatus and method for a three-dimensional structure may prevent misalignment and poor bonding of the electronic component with respect to the three-dimensional structure.

A surface mounted technology (SMT) process prediction tool for intelligent decision making on PCB quality is disclosed. A data fusion tool automatically reads size parameters and component information on design conditions of a printed board to be assembled from a database and creates a design condition list for different components for a software execution layer; a printing parameter decision-making toolkit and a soldering parameter decision-making toolkit in the software execution layer perform comparisons on printing and soldering data according to design conditions of components on the printed board to be assembled, perform automatic decision making on printing and soldering parameters with a multi-objective optimization algorithm and a deep learning algorithm, predict printing quality and soldering quality, and send decided printing and soldering process parameters and corresponding predicted quality results to a human-computer interaction toolkit, to visually display the printing and soldering process parameters and the predicted quality values.

An information handling system printed circuit board includes solder pads that accept footprint compatible integrated circuits, such as charger integrated circuits that provide power with different choke circuit supporting components. Solder pads for supporting components include first and second conductive areas sized to accept a first supporting component, each of the first and second conductive areas including an intervening non-conductive area that manages positioning of a smaller second supporting component at solder reflow.

An information handling system printed circuit board includes solder pads that accept footprint compatible integrated circuits, such as charger integrated circuits that provide power with different choke circuit supporting components. Solder pads for supporting components include first and second conductive areas sized to accept a first supporting component, each of the first and second conductive areas including an intervening non-conductive area that manages positioning of a smaller second supporting component at solder reflow.

Apparatus and associated methods relate to a pick & place system that uses a magnetic core for both magnetic coupling with an assembly component and heating of the assembly component. The magnetic core has a component engagement surface configured to magnetically and thermally engage the component. A controller is configured to provide both AC current and DC current to an inductive coil wound about the magnetic core. DC current provided to the inductive coil induces a magnetic field within the magnetic core, thereby magnetically attracting the component when engaged with the component engagement surface. AC current provided to the magnetic core inductively heats the magnetic core, thereby heating the component when engaged with the component engagement surface.

Provided is a system for removing an electronic component from a printed circuit board (PCB). The system may comprise a heating well configured to hold a rework liquid. The system may further comprise a head system configured to create a liquid-tight seal around an electronic component. The system may further comprise a nozzle and a mechanical capture device disposed within the head system. The mechanical capture device may be configured to attach to the electronic component. The system may further comprise a controller. The controller may be configured to release the rework liquid through the nozzle and onto the electronic component and lift the electronic component off the PCB.

A printing parameter acquisition device includes an acquisition section and an output section. The acquisition section acquires a printing condition for specifying a member to be used when solder is printed on a board. The output section outputs a printing parameter which is associated with a printing condition corresponding to a printing condition acquired by the acquisition section and of which a reliability is a predetermined level or more, from a database that stores the printing condition, a printing parameter used for controlling driving of a printer, and the reliability of the printing parameter including inspection information on a print state of the solder inspected by a printing inspector in association with each other.

A microelectronic assembly includes a first substrate having a surface and a first conductive element and a second substrate having a surface and a second conductive element. The assembly further includes an electrically conductive alloy mass joined to the first and second conductive elements. First and second materials of the alloy mass each have a melting point lower than a melting point of the alloy. A concentration of the first material varies in concentration from a relatively higher amount at a location disposed toward the first conductive element to a relatively lower amount toward the second conductive element, and a concentration of the second material varies in concentration from a relatively higher amount at a location disposed toward the second conductive element to a relatively lower amount toward the first conductive element.

An electronic component mounting machine includes an image-capturing device and a control device. The image-capturing device captures the images of sub-fiducial marks and main fiducial marks. When the control device can read the main fiducial marks from the images captured by the image-capturing device, the control device determines the mounting positions of the electronic components with respect to a substrate with reference to the main fiducial marks. On the other hand, when the main fiducial marks cannot be read from the images due to a print defect of the main fiducial marks, the control device determines the mounting positions of the electronic components with respect to the substrate with reference to the sub-fiducial marks which are the reference sources of the image-capturing positions of the main fiducial marks.

A component mounting line includes a plurality of component mounting apparatuses, each of which mounts solder and a component other than the solder on a substrate. The component mounting line includes: a time limit management unit configured to manage an elapsed time period of a member; and a usability determiner that determines whether the member is usable based on the elapsed time period of the member. The elapsed time period is a time period that has elapsed after the member is exposed to the air, and the member comprises at least one of a substrate, solder, and a component other than the solder.