A printed circuit board includes a first insulating layer having a cavity, a metal pattern including a first shielding pattern disposed on an inner wall of the cavity and a second shielding pattern spaced apart from the first shielding pattern and covering the first shielding pattern, an electronic device positioned in the cavity and surrounded by the first shielding pattern and the second shielding pattern, and a second insulating layer stacked on the first insulating layer and embedding the electronic device therein.

A fiber composite component with integrated active electromagnetic shielding includes a fiber composite layer having reinforcing fibers, and an electric conductor, which extends on the fiber composite layer along the fiber composite layer and produces an electromagnetic field during operation, wherein a proportion of the reinforcing fibers is designed as conduction fibers, which are arranged to follow the electric conductor within the fiber composite layer and are designed to produce an opposing electromagnetic field during operation which attenuates the electromagnetic field of the electric conductor.

A high frequency module includes a plurality of components on an upper surface of a multilayer wiring substrate, a sealing resin layer on the upper surface of the multilayer wiring substrate, a shield wall surrounding one of the components within the sealing resin layer, and a shield film on an upper surface of the sealing resin layer. The shield film covers a portion of the upper surface of the sealing resin layer that overlaps the one of the components but not the other components viewed from a direction perpendicular to the upper surface of the multilayer wiring substrate. An upper end of the shield wall is exposed from the upper surface of the sealing resin layer to be connected to the shield film, and a lower end thereof is exposed from a lower surface of the sealing resin layer to be connected to the multilayer wiring substrate.

A high frequency flexible flat cable includes a first metal isolation layer, a first low-k dielectric adhesive layer attached to one side of the first metal isolation layer, a second low-k dielectric adhesive layer attached another side of the first metal isolation layer and at least two conductor layers respectively attached to the first low-k dielectric adhesive layer and the second low-k dielectric adhesive layer. In addition, the high frequency flexible flat cable further includes a third low-k dielectric adhesive layer, a fourth low-k dielectric adhesive layer, a second metal isolation layer and a third metal isolation layer. The second metal isolation layer and the third metal isolation layer are respectively adhered to outsides of the conductor layers by using the third low-k dielectric adhesive layer and the fourth low-k dielectric adhesive layer to adjust the impedance of the high frequency flexible flat cable according to requirements.

A wiring substrate includes: a plurality of wiring layers; and a plurality of insulating layers. The wiring substrate includes: a mounting region on which an electronic component is to be mounted; and a non-mounting region on which no electronic component is to be mounted and which is configured to be bent in a first direction. At least one of the wiring layers comprises a shield pattern. The shield pattern disposed in the non-mounting region is defined by a plurality of through holes arranged at predetermined intervals. Each of the through holes has a bent portion bent in plan view.

An embodiment provides a printed circuit board and an electronic component package including the same, the printed circuit board comprising: a data line layer; a ground layer disposed on the data line layer; a power line layer disposed on the ground layer; and insulation layers disposed between the data line layer and the ground layer and between the ground layer and the power line layer, respectively, wherein the ground layer comprises a common ground and a chassis ground electrically insulated from the common ground.

A printed circuit board assembly (PCBA) controls an electrically initiated device (EID) in an electric field. The PCBA includes a conductive layer, a dielectric layer, and a trans-conductive layer (TCL). The conductive layer of the PCBA designated protected areas. An electrical current with a predetermined current density is impressed in the conductive layer when the PCBA is in the electric field. The TCL is a nickel-metal composite metamaterial positioned between the conductive and dielectric layers and configured to change in shape or thickness in the electric field such that the impressed current is steered away from the conductive layer and into the dielectric layer to prevent premature activation of the EID. A system includes an outer housing, power supply, an EID such as a sonobuoy or medical device, and the PCBA, all of which are encapsulated in the housing. A method is also disclosed for manufacturing the PCBA.

The present disclosure provides a flexible circuit board and a display panel. The flexible circuit board is in a non-display region of a display panel and provided with a driving circuit for driving the display panel thereon. The flexible circuit board includes a first main body portion, a second main body portion, and a foldable portion, and the foldable portion is between the first main body portion and the second main body portion. The foldable portion is capable of being bent to fold the second main body portion such that the second main body portion overlaps the first main body portion.

An electronic device is provided. The electronic device includes a display panel, a flexible printed circuit board electrically connected to the display panel, a first connection part disposed on the flexible printed circuit board, at least one electronic component disposed on the flexible printed circuit board so as to be adjacent to the first connection part, and a connecting member including a second connection part that is coupled to the first connection part so as to be electrically connected to the flexible printed circuit board. The connecting member includes an extension part that is formed so as to cover the at least one electronic component disposed on the flexible printed circuit board.

A flexible wiring circuit board includes a first insulating layer, a wire disposed at one side in a thickness direction of the first insulating layer, a second insulating layer disposed at one side in the thickness direction of the wire, a shield layer disposed at one side in the thickness direction of the second insulating layer, and a third insulating layer disposed at one side in the thickness direction of the shield layer. The shield layer includes an electrically conductive layer and two barrier layers sandwiching the electrically conductive layer therebetween in the thickness direction. The electrically conductive layer is selected from a metal belonging to a group 11, and the fourth period and the fifth period in the periodic table, and the barrier layer is selected from a metal belonging to groups 4 to 10, and the fourth to the sixth periods in the periodic table.