Systems and methods for serviceable EMI shielding are provided. In one embodiment, an electronics device comprises: a circuit board; at least one component mounted to the circuit board; an electro-magnetic interference (EMI) shield that encloses the at least one component within a volume of space, wherein the EMI shield comprises: a sheet of shielding material shaped to define a shield fence and a shield cover, wherein the shield fence is mechanically attached to a surface of the circuit board and extends away from the surface; and a kiss-cut feature in the sheet of shielding material between the shield fence and the shield cover.

A structure and a device may include an electromagnetic wave generator configured to generate electromagnetic waves; a shielding structure configured to surround at least a portion of the electromagnetic wave generator; and a metal layer provided on inner surfaces of upper and side portions of the shielding structure, wherein the metal layer having a predetermined surface roughness.

A new wiring and power and communications system for an automobile that includes a plurality of devices, wherein the devices are connected to a backbone section that has an outer sheathing, a first conductor disposed within the outer sheathing, a second conductor disposed within the outer sheathing, a pair of inner sheathing members disposed within the outer sheathing and located on opposing sides of the at least one conductor, the inner sheathing members configured to electrically insulate the first conductor from the second conductor, and a shield member disposed within the outer sheathing.

Disclosed herein is an electronic circuit package includes: a substrate having a power supply pattern; an electronic component mounted on a surface of the substrate; a magnetic mold resin formed of a composite magnetic material including a thermosetting resin material and a magnetic filler, the magnetic mold resin covering the surface of the substrate so as to embed therein the electronic component; and a metal film connected to the power supply pattern and covering at least a top surface of the magnetic mold resin. A volume resistance value of the magnetic mold resin is equal to or larger than 10.sup.10Ω, and a resistance value at an interface between the top surface of the magnetic mold resin and the metal film is equal to or larger than 10.sup.6Ω.

Provided are a liner and a display device including the same. The liner includes a first liner including a first shield can protection portion, a first grip portion, and a connection portion coupling the first shield can protection portion to the first grip portion, a second liner including a second shield can protection portion and a second grip portion, and a perforated line formed along a boundary between the first liner and the second shield can protection portion.

Electrical components may be shielded using a shielding can or other shielding structure that covers the electrical components. The electrical components and the shielding structure may be mounted on a substrate such as a printed circuit board using solder or other conductive material. The shielding structure may have one or more shielding layers. The shielding layers may include high conductivity material for providing shielding for radio-frequency electromagnetic interference and magnetic material for blocking magnetic flux. Shielding structures may be formed from materials such as ferritic stainless steel, coatings that enhance solderability, corrosion resistance, and conductivity, magnetic materials printed or otherwise formed on metal layers, and other shielding structures.

A receiving device includes a shield case which is in a hollow box shape that is open on one side. The shield case reduces external interfering signals which interfere with an input signal of a broadcast wave. A printed wiring board includes a conductive portion that is electrically connected with an electronic component. A soldered portion is formed along a protrusion-free linearly extending side of an opening edge of the shield case. The soldered portion electrically connects with solder the shield case and the conductive portion.

An electronic device is provided. The electronic device includes a circuit board, a connector, a shielding frame and a shielding cover. The connector is disposed on the circuit board. The shielding frame is disposed on the circuit board, wherein the connector is disposed in the shielding frame. The shielding cover is detachably connected to the shielding frame, wherein when the shielding cover is combined with the shielding frame, an inlet is formed between the shielding frame and the shielding cover, and the shielding frame and the shielding cover are adapted to block an interference signal.

A housing (121) having an electromagnetic shielding property includes a resin molded body (101), which is a cured product of a thermosetting resin composition, and a plating layer (103) provided on a surface of the resin molded body (101) (cured product), in which the plating layer (103) includes a Cu layer (first plating layer (105)), and a thickness of the Cu layer (first plating layer (105)) is 2 μm or more and 30 μm or less.

The present invention aims to provide a shield package having a highly distinctive patterned portion formed on a surface of a shield layer. The shield package of the present invention includes a package in which an electronic component is sealed with a sealing material, and a shield layer covering the package, wherein a surface of the shield layer includes a patterned portion and a non-patterned portion other than the patterned portion, and a ratio of Sal (autocorrelation length) of the non-patterned portion to Sal of the patterned portion is as follows: (Sal of non-patterned portion)/(Sal of patterned portion)>4.0.