A piezoelectric transformer includes a piezoelectric element. Two primary side electrodes exist on the primary side of the piezoelectric element. The primary side electrodes are coupled by a resistor formed from a conductive coating. A discharge current is discharged via the resistor to protect a semiconductor component from the discharge current. Since neither a short-circuit terminal nor conductive jig is required, electrostatic discharge damage to a semiconductor component can be prevented by a low-cost arrangement.

An electronic system may include a printed circuit board (PCB), a component affixed to the PCB, and a conformal coating layer on the PCB and the component. The conformal coating layer may include parylene. Furthermore, the electronic system may include an underfill layer adjacent to the conformal coating layer, filling a gap between the PCB and the component. Other embodiments may be described and/or claimed.

An electronic apparatus includes a first electronic part with a first terminal, a second electronic part with a second terminal opposite the first terminal, and a joining portion which joins the first terminal and the second terminal. The joining portion contains a pole-like compound extending in a direction in which the first terminal and the second terminal are opposite to each other. The joining portion contains the pole-like compound, so the strength of the joining portion is improved. When the first terminal and the second terminal are joined, the temperature of one of the first electronic part and the second electronic part is made higher than that of the other. A joining material is cooled and solidified in this state. By doing so, the pole-like compound is formed.

An electronic apparatus includes a first electronic part with a first terminal, a second electronic part with a second terminal opposite the first terminal, and a joining portion which joins the first terminal and the second terminal. The joining portion contains a pole-like compound extending in a direction in which the first terminal and the second terminal are opposite to each other. The joining portion contains the pole-like compound, so the strength of the joining portion is improved. When the first terminal and the second terminal are joined, the temperature of one of the first electronic part and the second electronic part is made higher than that of the other. A joining material is cooled and solidified in this state. By doing so, the pole-like compound is formed.

A printed circuit board includes: a printed wiring board including an insulating layer wherein a recessed part is provided on a top surface of the insulating layer, and a printed conductor provided inside the recessed part; a bare chip part mounted in the recessed part and electrically connected to the printed conductor; an electronic part mounted on the top surface of the printed wiring board other than the recessed part; and a cap fixed to the top surface of the printed wiring board and hollow-sealing the bare chip part mounted in the recessed part, wherein using a height of the top surface of the printed wiring board as a reference, a height of a top surface of the cap is equal to or below a maximum height of a top surface of the electronic part.

A heating apparatus includes a gas supply for providing a base gas, a generator configured to excite the base gas to produce a metastable gas mixture that includes a metastable gas, and a housing. The housing includes a wall shaped to contain the metastable gas mixture and selectively enclose a reactive element of a target component. Interaction between the metastable gas and at least one of a coupling material and the reactive element transfers energy to selectively heat the at least one of the coupling material and the target component.

An apparatus, system and method of providing a tray suitable for holding an optoelectronic device during printed circuit board manufacturing processes. The apparatus, system and method includes a tray body having an inset for receiving the optoelectronic device; a plurality of positioners for the optoelectronic device within the inset; and a guide channel about a perimeter of the tray body suitable for receiving optical fibers of the optoelectronic device when the optoelectronic device is received in the inset, the guide channel comprising at least one retainer for retaining received ones of the optical fibers therewithin.

A method for connecting or terminating wires to a printed circuit is disclosed. The method includes applying layers, such as a first layer and a second layer, to the printed circuit. The first layer is applied over several active components on the printed circuit, and provides a sealant against ingress of contaminants in the active components. The second layer is a rigid layer applied over the first layer. When the printed circuit is placed in a fixture, a metallic element, such as a thermode or hot bar, presses against the wires to hold the wires against several terminals on the printed circuit. The metallic element is heated to melt solder between the wires and the terminals. The second layer is configured to resist compressive forces from the metallic element and the fixture, such that the printed circuit and the active components are not damaged during the connection process.

A formed graphite sheet is shaped and sized as a protective shield positioned over an electronic component coupled to a PCB. The formed graphite sheet is used to protect a body of the electronic component from heat applied during the assembly of the electronic component to the PCB, such as the heating steps used in SMT and through-hole technology. The formed graphite sheet is shaped to selective direct impinging heat. The heat can be directly away from the entire electronic component. Alternatively, the heat can be selectively directed away from some portions of the electronic component and toward other portions of the electronic component.

An electronic device may be provided with integrated circuits and electrical components such as capacitors that are soldered to printed circuit boards. Liquid polymer adhesive such as encapsulant and underfill materials may be deposited on the printed circuit. Electrical components such as capacitors may be coated with the encapsulant. The underfill may be deposited adjacent to an integrated circuit, so that the underfill wicks into a gap between the integrated circuit and the printed circuit board. The encapsulant may be more viscous than the underfill and may therefore prevent the flowing underfill from reaching the electrical components. Some of the encapsulant may be located between the electrical components and the printed circuit board. The encapsulant can be cured to form an elastomeric material covering the electrical components that helps damp vibrations. The elastomeric material may be less stiff than the underfill.