Embodiments herein describe a capillary containing a eutectic conductive liquid (e.g., EGaIn) and an electrolyte (e.g., NaOH) that is integrated into a printed circuit board (PCB). In one embodiment, the capillary is formed in a through-hole in the PCB and has negative and positive electrodes at its respective ends to seal the eutectic conductive liquid and the electrolyte. The capillary further includes one or more electrodes that extend through a side of the portion of the capillary containing the liquids. The wiper electrodes also make electrical contact with respective conductive layers in the PCB. Using a DC voltage between the negative and positive electrodes, the eutectic conductive liquid forms electrical connections between the wiper electrodes, which in turn, forms electrical connections between the conductive layers in the PCB.

The present disclosure relates to a printed circuit board assembly including a first circuit board including a first footprint, the first circuit board further includes a plurality of first vertical vias extending between a first side and an opposing second side; a second circuit board including a second footprint smaller than the first footprint, the second circuit board further includes a plurality of second vertical vias extending between a subsequent first side and an opposing subsequent second side; an adhesive layer coupling the first side to the subsequent first side; and a plurality of third vertical vias extending through the first side and the subsequent first side.

An apparatus is provided which comprises: a cavity made in a substrate of a printed circuit board (PCB); a plurality of solder balls embedded in the cavity; and a horizontal trace within the substrate, wherein the horizontal trace is partially directly under the plurality of solder balls and is coupled to the plurality of solder balls and another trace or via in the substrate such that a substrate region under the plurality of solder balls is independent of a stop layer under the cavity.

A panel alignment device for a display device includes a stage supporting a panel and including a transmitting portion that includes a first region having a first thickness and a second region having a second thickness greater than the first thickness, a head disposed over the stage and supporting a driving chip, a vision camera which is disposed under the stage, captures a first alignment mark of the panel through the first region, and captures a second alignment mark of the driving chip through the second region, and a controller which controls at least one of a movement and a rotation of each of the stage and the head based on first image information related to a position of the first alignment mark and second image information related to a position of the second alignment mark.

The present application discloses a display panel and a display device. The display panel includes a display panel main body, a flexible wiring board, and a printed circuit board. The display panel main body includes a plurality of wires, and the display panel main body is connected to an end of the flexible wiring board. The printed circuit board is connected to another end of the flexible wiring board. The printed circuit board includes a driver chip, and the driver chip is electrically connected to the wires.

The present disclosure provides a power supply system and an electronic device. The power supply system is used to supply power to a load and includes a system board where the load is disposed; a substrate; at least one output capacitor surface-mounted on the second side of the system board; at least one positive output conductive-connected region disposed on the first side of the substrate, and being electrically connected to one terminal of the at least one output capacitor; at least one negative output conductive-connected region disposed on the first side of the substrate, and being electrically connected to other terminal of the at least one output capacitor; and at least one power unit disposed on the second side of the substrate, and being electrically connected to the at least one positive output conductive-connected region and the at least one negative output conductive-connected region.

A display panel includes a plastic substrate and a first inner lead bonding (ILB) electrode on the plastic substrate. The first ILB electrode includes a first bonding segment, a second bonding segment, and a first connection segment. The first bonding segment is extended in a first direction oblique to a vertical direction of the display panel. The first connection segment is configured to provide an electrical connection between the first bonding segment and the second bonding segment. The first ILB electrode is configured to be bonded to an integrated circuit chip using one of the first bonding segment or the second bonding segment.

The present disclosure provides a power supply system and an electronic device. The power supply system is used to supply power to a load and includes a system board where the load is disposed; a substrate; at least one output capacitor surface-mounted on the second side of the system board; at least one positive output conductive-connected region disposed on the first side of the substrate, and being electrically connected to one terminal of the at least one output capacitor; at least one negative output conductive-connected region disposed on the first side of the substrate, and being electrically connected to other terminal of the at least one output capacitor; and at least one power unit disposed on the second side of the substrate, and being electrically connected to the at least one positive output conductive-connected region and the at least one negative output conductive-connected region.

Antenna and power control electrical circuits are configured for use with an initialization antenna for activating and personalizing an electronic core for electronic cards. When the antenna receives an RF signal, it turns on the power and redirects additional signals to a CPU. If the signal is validated, personalization information can be downloaded or self-diagnostic QC software can be activated; if a signal is not validated, the control circuits are reset. Once initialization is completed, the antenna control circuit is deactivated, and the power control circuit electrically connects the batter to the CPU.

A display panel includes a plastic substrate and a first inner lead bonding (ILB) electrode on the plastic substrate. The first ILB electrode includes a first bonding segment, a second bonding segment, and a first connection segment. The first bonding segment is extended in a first direction oblique to a vertical direction of the display panel. The first connection segment is configured to provide an electrical connection between the first bonding segment and the second bonding segment. The first bonding segment is configured to be bonded to a first display driver integrated circuit (DDIC) chip, and the second bonding segment is configured to be bonded to a second DDIC chip configured differently from the first DDIC chip.