An electromagnetic interference (EMI) shielded device which includes an object to be shielded and an EMI shielding material encompassing the object. The EMI shielding material is made up of, but not limited to a broadband biopolymer or polymer dissolved in organic solvents and shielding guest material. The specific makeup of the shielding material and fabrication procedure of the shielding material is also included herein.

Provided are flexible hybrid interconnect circuits and methods of forming thereof. A flexible hybrid interconnect circuit comprises multiple conductive layers, stacked and spaced apart along the thickness of the circuit. Each conductive layer comprises one or more conductive elements, one of which is operable as a high frequency (HF) signal line. Other conductive elements, in the same and other conductive layers, form an electromagnetic shield around the HF signal line. Some conductive elements in the same circuit are used for electrical power transmission. All conductive elements are supported by one or more inner dielectric layers and enclosed by outer dielectric layers. The overall stack is thin and flexible and may be conformally attached to a non-planar surface. Each conductive layer may be formed by patterning the same metallic sheet. Multiple pattern sheets are laminated together with inner and outer dielectric layers to form a flexible hybrid interconnect circuit.

A communication module includes: a substrate; a supplementary substrate disposed to surround an electronic element mounted on a lower surface of the substrate; a molding material configured to seal an electronic element mounted on an upper surface of the substrate; and a shielding layer disposed on a side surface and an upper surface of the molding material, a side surface of the supplementary substrate, and a side surface of the substrate. The supplementary substrate includes: a plurality of first pads disposed on an upper surface of the supplementary substrate; a plurality of second pads disposed on a lower surface of the supplementary substrate; a plurality of vias connecting the plurality first pads to the plurality of second pads; and a ground pad disposed on the side surface of the supplementary substrate. The ground pad includes an extender connected to a corresponding first pad and a corresponding second pad.

An electronic device according to various embodiments of the present invention may comprise: a circuit substrate comprising a first layer including a first wire, a second wire formed at one side surface of the first wire along the first wire, and a third wire formed at the other side surface of the first wire along the first wire, a second layer including a ground plane formed along the first wire, the second wire, and the third wire and electrically connected to the second wire and the third wire, and an insulation layer disposed between the first layer and the second layer and having first permittivity; and a conductive member which is disposed above the first layer to have a dielectric-fillable interval space along the first wire and is electrically connected to the ground of the electronic device, the dielectric having second permittivity lower than the first permittivity.

A module is provided that includes a wiring substrate having a major surface, a plurality of components mounted on the major surface, and a conductor incorporated resin body mounted on the major surface. Moreover, the conductor incorporated resin body is disposed between the plurality of components and includes a conductor pattern therein that is grounded.

Apparatus and methods for tunable filtering are provided. In certain embodiments, a tunable filter is implemented using one or more controllable capacitors formed on a semiconductor die and using one or more shielded integrated inductors formed on a secondary circuit board that attaches to a carrier circuit board. Additionally, the shielded integrated inductors are formed from patterned metallization layers of the secondary circuit board, and shielding is provided on the secondary circuit board and/or the carrier circuit board to shield the inductors from the semiconductor die and/or other components.

The flat cable 10 has at one end or both ends a connector section 11 on which a connector conductor 15 electrically connectable to a ground layer of an electronic circuit board is formed. Signal conductors 12, 13 are covered by a protective shield layer 20 having a metal layer on the inside and an insulating plastic layer on the outside. The metal layer of the protective shield layer is electrically connected to the connector conductor 15 of the connector section, and a portion 17a of the metal layer of the protective shield layer is exposed to the outside of the protective shield layer 20 and functions as a ground layer.

A conductive coating material is disclosed including at least (A) 100 parts by mass of a binder component including 5 to 30 parts by mass of solid epoxy resin that is solid at normal temperature and 20 to 90 parts by mass of liquid epoxy resin that is liquid at normal temperature, (B) 200 to 1800 parts by mass of silver-coated copper alloy particles in which the copper alloy particles are made of an alloy of copper, nickel, and zinc, the silver-coated copper alloy particles have a nickel content of 0.5% to 20% by mass, and the silver-coated copper alloy particles have a zinc content of 1% to 20% by mass with respect to 100 parts by mass of the binder component (A), and (C) 0.3 to 40 parts by mass of a curing agent with respect to 100 parts by mass of the binder component (A).

A display device includes a display module including a display panel and an input sensing layer on the display panel, and a flexible circuit film connected to the display module. The flexible circuit film includes a base film, a sensor connection wire, a ground wire, an insulating layer, a first conductive layer, and a cover tape. The sensor connection wire is on the base film and is electrically connected to the input sensing layer. The ground wire is on the base film, and the insulating layer covers the sensor connection wire. The first conductive layer is on the insulating layer and is electrically connected to the ground wire, and the cover tape is on the first conductive layer and is electrically connected to the ground wire.

An electronic component module includes a substrate, an inductor element, a mounting type electronic component, a mounting type electronic component, a mounting type electronic component, and a shield film. The substrate has a first main surface and a second main surface, and the second main surface side is a side to be mounted on another circuit board. A mounting type electronic component and a mounting type electronic component are mounted on the first main surface. The shield film covers the mounting type electronic component and the mounting type electronic component and the first main surface side. The inductor element is disposed inside the substrate.