A circuit board includes a multilayer body including a main surface, a mounted conductor, and a signal conductor at an intermediate position in the lamination direction of the multilayer body, and a ground conductor on the main surface. The multilayer body includes a connection portion including a portion overlapping the mounted conductor and overlapping an external board joined via a conductive joint material through use of the mounted conductor, and a circuit portion. A first region, which is the region of a circuit portion of the ground conductor, includes opening holes and a second region, which is the region of a connection portion of the ground conductor, includes opening holes. The ratio of the opening area of the opening holes to that of the second region is larger than the ratio of the opening area of the opening holes to that of the first region.

The present disclosure is directed to a system that is configured to eject fluid vertically away from a thermal microfluidic die for use with scented oils or other fluids. The die is coupled to a rigid planar support board that separates the die from a reservoir of the fluid. The support board includes an opening that is lined with an inert liner that protects an interior surface of the support board from the fluid. The support board includes contact to an external power supply and contacts to the die on a first surface. The die is coupled to this first surface such that the second surface remains free of electrical connections.

A computing device includes a printed circuit board, a base, and a heater apparatus. The printed circuit board is secured to the base. The heater apparatus includes a heater component and a plurality of heater wires, and the heater component is disposed between the printed circuit board and the base.

A computing device includes a peripheral component interconnect (PCI) card and a heater apparatus. The heater apparatus is located proximate to the PCI card and configured to heat the PCI card.

A circuit board for a non-combustion flavor inhaler includes a substrate and an electrically conductive ink pattern printed on the substrate. The substrate includes paper. A percentage weight loss of the paper from room temperature to 290° C. is less than 20% of a percentage weight loss of the paper from room temperature to 900° C. under a condition that allows air to flow at a flow rate of 100 mL/min while elevating a temperature of the air at a speed of 10° C./min.

A circuit-including film comprising: a resin film (1); and a conductive fine wire circuit (A) and a conductive circuit (B) independent of the conductive fine wire circuit (A), which are arranged on one surface of the resin film (1), wherein the resin film (1) contains at least one resin selected from the group consisting of a polyvinyl acetal resin, an ionomer resin and an ethylene-(vinyl acetate) copolymer resin.

Embodiments include a reflowable grid array (RGA) interposer, a semiconductor packaged system, and a method of forming the semiconductor packaged system. The RGA interposer includes a substrate having vias and zones, where the zones have embedded heaters. The heaters may include first traces, second traces, and via filament interconnects. The vias may have a z-height greater than a z-height of the heaters, and each of the zones may have a grid pattern. The RGA interposer may include first and second layers in the substrate, where the first layer includes the first traces, the second layer includes the second traces, and the second layer is over the first layer. The grid pattern may have parallel first traces orthogonal to parallel second traces to form a pattern of squares, where the pattern of squares has the first traces intersect the second traces substantially at right angles.

The present invention provides a conductive fabric comprising base cloth and a conductive metallic circuit structure formed on the surface of the base cloth. The conductive metallic circuit structure comprises at least one metallic seed layer and at least one chemical-plating layer. The metallic seed layer is an evaporation-deposition layer or a sputter-deposition layer and has a circuit pattern. The chemical-plating layer is applied over the surface of the metallic seed layer. The conductive fabric has improved conductivity and heat generation efficiency.

A circuit board has: an insulating substrate formed by plural ceramic insulating layers being layered on one another and having a first surface and a second surface on the opposite side to the first surface; a circuit conductor passing through the inside of the insulating substrate and positioned in a region from the first surface to the second surface; and at least one heating wire positioned in the insulating substrate. The heating wire is positioned in, among plural interlayer regions between the ceramic insulating layers, at least one interlayer region between the ceramic insulating layers and has a mesh shape having plural first through holes through which a portion of the circuit conductor passes and having plural second through holes through which the circuit conductor does not pass.

According to an embodiment, an electronic device may include a first printed circuit board (PCB), a second PCB having a shape corresponding to the first PCB, and an interposer surrounding a space between the first PCB and the second PCB and including multiple pads, wherein the interposer may include a first surface in contact with the first PCB, a second surface in contact with the second PCB, a first lateral surface facing the space, and a second lateral surface opposite to the first lateral surface, and a first point exposed through the second lateral surface, a second point exposed through one of the first lateral surface or the second lateral surface, and a heat conduction pattern disposed on the first surface in an area between the multiple pads to connect the first point and the second point.