A panel (31) for assembly into a sensing head for a metal detector comprising: a. a first layer (34) for supporting at least one sensing coil (33), b. a second layer (35) for providing electromagnetic shielding, and c. a moisture resistant barrier layer (36).

A panel (31) for assembly into a sensing head for a metal detector comprising: a. a first layer (34) for supporting at least one sensing coil (33), b. a second layer (35) for providing electromagnetic shielding, and c. a moisture resistant barrier layer (36).

An electronic module that comprises a housing; a cover that is disposed over the housing to define an interior; and one or more electronic components positioned within the interior is provided. At least a portion of the housing, cover, or both contain a polymer composition that exhibits an in-plane thermal conductivity of about 1 W/m-K or more as determined in accordance with ASTM E 1461-13 and an electromagnetic shielding effectiveness of about 20 dB or more as determined at a frequency of 1 GHz in accordance with EM 2107A.

Electrical module designs are disclosed for motor vehicles. An exemplary electrical module (e.g., a junction box, etc.) may include a polymer-based housing assembly and an EMC shield that is adapted to influence an electromagnetic compatibility of the polymer-based housing assembly. The EMC shield may include a metallic foil, a metallic filler, a metallic coating, or combinations thereof.

A method of making an electronics enclosure that is light-weight, structurally sound and EMI resistant is provided. Preferably the electronics enclosure is made by covering the walls of a mold for the chassis and the lid with a metallic mesh. At least two plies of carbon prepreg are applied over the metallic mesh. The carbon prepreg and metallic mesh are then cured together at high temperature, typically in an autoclave. The wire mesh becomes integrated into the composite material during the curing process when the carbon material shrinks to the mold and the epoxy bonds with the wire mesh. The molds may then be removed leaving an electronics enclosure with superior properties.

The present invention provides a shield package having a highly distinctive pattern 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 resin layer, and a shield layer covering the package, wherein a surface of the resin layer includes a drawing area drawn with lines and/or dots by aggregation of multiple grooves, and a non-drawing area other than the drawing area, multiple depressions originating from the grooves are formed on a surface of the shield layer on the drawing area, and the depressions are aggregated to draw a pattern with lines and/or dots.

An implantable medical device (IMD) includes a heterogeneous housing configured to receive and store one or more components of the IMD. The housing includes an intrinsically non-conductive and non-magnetic base material and at least one dopant with a property of at least one of electrical conductance and magnetic permeability. The base material and the dopant form a first region of the housing including a first skin depth and a second region of the housing including a second skin depth different than the first skin depth.

An aircraft drive device (10) for creating propulsion and/or lift of an aircraft, the drive device comprising a rotating shaft (12), a rotating shaft bearing (14, 16), a rotating shaft drive machine (18) for rotationally driving the rotating shaft (12), and a housing (20), wherein the rotating shaft bearing (14,16) and the rotating shaft drive device (18) are arranged in an interior of the housing (44) and the rotating shaft (12) protrudes to the outside of the housing (20) through a housing opening (42) of the housing (20), wherein in the region of the housing opening (42) an overvoltage arrester device (52) is arranged which is designed for diverting an overvoltage present at the rotating shaft (12).

A housing is provided for an output stage with power semiconductors of a modular converter. The housing includes a stretchable hood arranged on the base plate. The housing further includes a metallic lattice formed in or on the hood and forming a Faraday cage, wherein the hood is configured to be stretchable so as to enlarge the volume enclosed by the hood in the event of an explosion of a power semiconductor as a result of the explosion energy, without destroying the hood. An output stage, a converter, and an aircraft are also provided.

A control system for a motor vehicle, in particular for an electric or hybrid vehicle, wherein the control system has at least one actuator and at least one sensor. The control system further has a protective housing comprising an interior, wherein the at least one actuator and the at least one sensor are arranged within the interior. The protective housing has an injection molded body constructed of a plastic material and comprising an interference field protective zone configured to at least partially shield electromagnetic interference fields.