The subject matter of the present disclosure may be embodied in devices, such as flexible wiring, that include: an elongated flexible substrate; multiple electrically conductive traces arranged in an array on a first side of the elongated flexible substrate; and an electromagnetic shielding layer on a second side of the elongated flexible substrate, the second side being opposite the first side, in which the elongated flexible substrate includes a fold region between a first electronically conductive trace and a second electrically conductive trace such that the electromagnetic shielding layer provides electromagnetic shielding between the first electronically conductive trace and the second electrically conductive trace.

A method for manufacturing a circuit board comprises: a first single-sided board and an insulating structure are provided. The first single-sided board is pressed to the insulating structure and covers opposite side surfaces of the insulating structure to form a first laminated board. A second single-sided board and a third single-sided board are provided. The second single-sided board is pressed to the third single-sided board and covers opposite side walls of the third single-sided board to form a second laminated board. An inner wiring layer is formed by the second laminated board. The second laminated board with the inner wiring layer and the first laminated board are pressed to form an intermediate structure. Outer wiring layers are formed by the intermediate structure. Covering films are formed on surfaces of the outer wiring layers. Electromagnetic interference shielding layers are formed on the covering films.

A semiconductor module includes a main board and external terminals. A package substrate includes a core insulation layer, a conductive pattern disposed in the core insulation layer and electrically connected with the external terminals, an upper insulation pattern and a lower insulation pattern. At least one semiconductor chip is disposed on an upper surface of the package substrate and is electrically connected with the conductive pattern. A shielding plate is disposed on a molding member and lateral side surfaces of the package substrate and shields electromagnetic interference (EMI) emitted from the semiconductor chip. A shielding fence extends from an edge portion of a lower surface of the lower insulation pattern and directly contacts the upper surface of the main board. The shielding fence surrounds the external terminals and shields EMI emitted from the external terminals. A reinforcing member increases a strength of the shielding fence.

An electronic device including a shielding member for performing an electromagnetic interference (EMI) shielding function is provided. The electronic device includes a printed circuit board including a first area in which first electronic components having a first frequency as a driving frequency are mounted, and a second area in which second electronic components having a second frequency as a driving frequency are mounted, a shielding film disposed to cover the first area and the second area of the printed circuit board and attached to a first ground portion of the printed circuit board, and at least one conductive member formed to extend in a direction perpendicular to an extending direction of the printed circuit board. The at least one conductive member includes a first end that contacts the shielding film, and a second end that contacts a second ground portion of the printed circuit board, the second end being disposed between the first area and the second area of the printed circuit board.

An electronic device is provided. The electronic device includes a first substrate on which a first electrical element and a first conductive structure, which is configured to surround the first electrical element, are disposed, a second substrate on which a second electrical element and a second conductive structure, which is separably connected to the first conductive structure, are disposed, and a connector which is disposed between the first substrate and the second substrate and electrically connects the first electrical element to the second electrical element.

Various embodiments of the present disclosure relate to an electronic device which may include: a circuit board; at least one electronic component mounted on the upper surface of the circuit board; at least one connector mounted on the upper surface of the circuit board and electrically connected to the circuit board or the at least one electronic component; and a conductive frame which includes a side wall surrounding a space, in which the at least one electronic component and the at least one connector are disposed, and an extension part extending from one end of the side wall into the space.

A printed circuit board according to an embodiment includes: an insulating layer including a via hole; and a via disposed in the via hole of the insulating layer, wherein the via includes; a connection portion disposed in the via hole of the insulating layer; a first pad disposed on an upper surface of the insulating layer and an upper surface of the connection portion; and a second pad disposed under a lower surface of the insulating layer and a lower surface of the connection portion, wherein the upper surface of the connection portion has a concave shape in a downward direction, the lower surface of the connection portion has a concave shape in an upward direction, a lower surface of the first pad has a convex shape corresponding to the upper surface of the connection portion, and an upper surface of the second pad has a convex shape corresponding to the lower surface of the connection portion.

A module includes: a substrate having a first surface; a first component mounted on the first surface; a first sealing resin disposed to cover the first surface and the first component; a shield film covering at least a side surface of the first sealing resin; a first ground terminal mounted on the first surface; and a protruding portion formed to extend laterally at any position of the first ground terminal in a direction perpendicular to the first surface. The protruding portion is electrically connected to a portion of the shield film that covers the side surface of the first sealing resin.

A resin multilayer substrate includes a multilayer body including resin base-material layers laminated in a thickness direction and a circuit conductor therein, an end-surface ground conductor provided directly on each end surface of the multilayer body in the thickness direction, an adhesion layer on a side surface of the multilayer body, and a side-surface ground conductor on the adhesion layer. The end-surface and side-surface ground conductors are made of a ground conductor material with a coefficient of thermal expansion whose difference from a coefficient of thermal expansion of the resin base-material layers in a plane direction is smaller than a difference from a coefficient of thermal expansion of the resin base-material layers in the thickness direction. The adhesion layer is made of a material with higher adhesiveness to the side surface of the multilayer body than adhesiveness of the ground conductor material.

The flexible circuit board includes: a substrate layer; a first conductive layer; a second conductive layer; a first cover film, a second cover film, a first electromagnetic shielding layer, and a second electromagnetic shielding layer. The part of the first cover film overlapping a first conductive portion has first hollow portions. The part of the second cover film overlapping a second conductive portion has second hollow portions. The orthographic projection of each first hollow portion on the substrate layer has an overlapping area with the orthographic projection of at least one second hollow portion on the substrate layer. The first electromagnetic shielding layer is coupled to the first conductive portion through the first hollow portions. The second electromagnetic shielding layer is coupled to the second conductive portion through the second hollow portions.