A electronic component including a first protective layer covering the substrate and the conductive tract, a second protective layer covering at least a portion of the first protective layer, wherein the second protective layer includes Parylene, and a third protective layer covering at least a portion of the second protective layer.

An electronic device module includes a substrate, a first component disposed on a first surface of the substrate, a sealing portion disposed on the first surface of the substrate, a second component disposed on the first surface of the substrate and embedded in the sealing portion, and a shielding wall at least partially disposed between the first component and the second component and including a portion having a height, with respect to the first surface of the substrate, that is lower than a height of the sealing portion.

An electronic device includes a package substrate, at least one integrated circuit (IC) die including a substrate having a semiconductor surface including circuitry electrically coupled to bond pads positioned onto contact pads on a top surface of a package substrate. At least one surface mount device (SMD) component including at least a first terminal and a second terminal is on the package substrate positioned lateral to the IC die. There is at least one SMD interconnect electrically connecting to at least one of the first terminal and the second terminal to the bond pads. The SMD interconnect includes a portion of a tie bar that extends to an outer edge of the electronic device.

A circuit board water-proofing coating composition is provided comprising: at least one passivating agent, preferably containing a molecule comprising a thio-functional group, desirably a thiol group, an azolic moiety, or an azole, and combinations thereof; at least one binder component comprising an organic or inorganic film-forming polymer, and/or one or more polymer pre-cursors polymerizable on a substrate surface; and optionally one or more additive(s); also provided are methods of making and using the coating composition and coated circuit boards.

Provided is a method for manufacturing a display device. The method includes forming a display unit including a bending area on a first surface of a mother substrate, aligning a mask in which a mask opening is defined on a second surface of the mother substrate, plasma treating the second surface of the mother substrate, removing the mask and attaching a protective film to the second surface of the mother substrate, and removing a portion of the protective film to form a film opening corresponding to the bending area. The mask opening corresponds to the bending area.

A high-frequency module (1) includes a component (3a) mounted on an upper surface (2a) of a substrate (2), a second sealing resin layer (4) stacked on the upper surface (2a) of the substrate (2), a component (3b) mounted on a lower surface (2b) of the substrate (2), a first sealing resin layer (5) stacked on the lower surface (2b) of the substrate (2), and a first terminal assembly (6) and a second terminal assembly (7) that are mounted on the lower surface (2b) of the substrate (2). The first terminal assembly (6) is mounted on a four-corner portion of the substrate (2) and includes a connection conductor (6a) thicker than a connection conductor (7a) of the second terminal assembly (7).

A method for repairing a fine line is provided. Nano metal particles are filled in a defect of a circuit board. The nano metal particles in the defect are irradiated by a laser, or heated, such that the nano metal particles in the defect are metallurgically bonded to an original line of the circuit board. A surface of the circuit board is cleaned to remove residual nano metal particles on parts of the circuit board where metallurgical bonding is not performed, thereby completing line repairing of the circuit board.

Apparatus related to conformal coating implemented with surface mount devices. In some embodiments, a radio-frequency (RF) module includes a packaging substrate configured to receive a plurality of components. The RF also includes a surface mount device (SMD) mounted on the packaging substrate, the SMD including a metal layer that faces upward when mounted. The RF module further includes an overmold formed over the packaging substrate, the overmold dimensioned to cover the SMD. The RF module further includes an opening defined by the overmold at a region over the SMD, the opening having a depth sufficient to expose at least a portion of the metal layer. The RF module further includes a conformal conductive layer formed over the overmold, the conformal conductive layer configured to fill at least a portion of the opening to provide an electrical path between the conformal conductive layer and the metal layer of the SMD.

A device for removing a portion of cover is provided, which includes a lower platform and an upper platform oppositely disposed, a cover jig between the lower and upper platforms, a feed roller and a receiving roller oppositely disposed, and an adhesive film. The upper platform includes a plurality of protrusions, and each of the protrusions extends toward the lower platform. The cover jig includes a plurality of through holes, and each of the through holes is disposed opposite to each of the protrusions, so that each of the protrusions can be inserted through each of the through holes. One end of the adhesive film is connected to the feed roller, and the other end of the adhesive film is connected to the receiving roller, and a portion of the adhesive film between the two ends is located between the upper platform and the cover jig.

A method of removing a conformal coating from a circuit board coated with said conformal coating, the method comprising: subjecting the circuit board to a jet comprising dry-ice ejected from a nozzle, to remove said conformal coating from said circuit board.