A protective enclosure for an electrically-conductive element disposed along a component surface includes a base, a first side with an electrical connector, and a second side with an aperture for receiving a potting material. The base, the first side, and the second side at least partially define an internal void, and the internal void communicates with an external environment via the aperture.

According to aspects of the present disclosure, a method of environmentally sealing an electrical joint formed between an electrical connection element and an electrical conductor disposed on a transparent pane is described. The method includes adhering a mechanically protective enclosure to the transparent pane to define an internal volume therebetween and filling at least a portion of the internal volume with a sealing material that inhibits ingress of liquid into the volume and provides a fluidic environmental barrier about the electrical joint. The electrical joint is disposed within the internal volume and spaced from the enclosure.

A control module for actuating at least one electrically operable actuator includes an actuator housing, a housing part, a casting space, a circuit carrier, and an electronic control circuit. The actuator housing accommodates the electrically operable actuator. The housing part is formed as one piece on the actuator housing. The casting space is formed on the housing part. The circuit carrier is introduced into the casting space. The electronic control circuit is arranged on the circuit carrier. The circuit carrier is surrounded with a casting mass in the casting space and embedded therein, and electrical connection elements of the circuit carrier are guided outwards out of the casting space.

A method for producing a handle apparatus includes providing an elongate handle base body which has a central receiving space in which electronic components are arranged, applying a sealing joint around the central receiving space and attaching a handle cover to the elongate handle base body. When the handle cover is attached, the sealing joint is compressed so that the central receiving space is sealed via the sealing joint. An inlet opening and an outlet opening are formed on opposite ends of the central receiving space. The handle apparatus is oriented vertically and filled with a liquid sealing compound via the inlet opening, wherein gases which are present in the central receiving space are discharged via the outlet opening. A corresponding handle apparatus is also disclosed.

A method for manufacturing a housing is described. The methods includes: providing a cover body defining a slot; filling a first material into the slot; and filling a second material into the slot to fill up the slot. A housing and a mobile terminal including the housing are further provided.

Electronic component unit (20) is received in inside of housing (1) prepared by joining base (2) and cover (3). Sealing groove (24) for sealing material (24a) is formed on joining surface (21) of base (2). Protruding rib (35) fittable into seal groove (24) is formed on joining surface (33) of cover (3). Furthermore, spring hook portion (4) is provided to be positioned outside of the joining surfaces (21, 33) on an outer peripheral side of housing (1). Spring hook portion (4) is structured to include flexible portion (41) that extends to span between outer peripheral surfaces of base (2) and cover (3) and that is formed into a beam supported at only one end thereof on the outer peripheral surface of cover (3), and engaging portion (40) that is formed on a tip end side of flexible portion (41) and is engaged with the outer peripheral surface of base (2).

Pressure-isolating bulkhead structures with integrated selective electronic switches circuitry are provided. The pressure-isolating bulkhead structure may be a single unit having the integrated electronic switch circuitry, as well as an electrical connector that includes at least one of a wire and a pin contact. Such integrated selective electronic switch circuitry may be fashioned within a self-contained, inner pressure-isolating enclosure body. Such inner pressure-isolating enclosure body may be produced about the selective electronic switch circuitry such that the inner pressure-isolating enclosure body and switch circuitry are produced as a unit, which can be easily placed within a variety of bulkhead structures, and subsequently within a perforating gun.

A motor drive or bus supply power conversion system includes a rectifier with at least one rectifier switch module for rectifying AC input power. A DC bus is connected to the rectifier and supplies DC output power. An optional inverter is connected to the DC bus and includes at least one inverter switch module for inverting the DC bus voltage to an AC output power. The at least one rectifier switch module and the at least one inverter switch module each include a base plate and a housing connected to the base plate. The housing defines an interior space that contains at least one semiconductor switch. Anti-corrosion features are provided including a conformal coating on printed circuit board assemblies, removable connector covers, dielectric grease coated connections, nano-coated fiber optic transceivers, and an exterior protective film wrap.

A housing assembly includes a housing, a printed circuit board (PCB) contained in a housing, and a cup-shaped cap having an interior and a flange portion. A tall component extending from the PCB is covered by the cap such that the tall component is disposed in the interior of the cap and the flange portion of the cap engages the PCB. A vacuum is applied and while maintaining the vacuum, an encapsulant is introduced into the housing to a level so as to cover the PCB and certain other components not the relatively taller component(s). When the vacuum is released, a pressure differential between the environmental pressure and the vacuum remaining in the cap interior forces encapsulant into the cap interior to a level higher than that outside of the cap. A multi-level height potting process is achieved.

The invention relates to an electrical device (10), notably intended to control an electric machine, comprising: a first zone filled with an insulating material (A) and comprising a first electronic unit (12) embedded in the insulating material (A); a second zone filled with an insulating material (B) and comprising a second electronic unit (18) embedded in the insulating material (B); and a third zone filled with an insulating material (B) and comprising at least one electrical connection element (22) embedded in the insulating material (B), the at least one electrical connection element (22) connecting the first electronic unit (12) with the second electronic unit (18);
in which the first and the second zone are each in contact with the third zone so that the electrical device comprises at least one space extending around the third zone and between the first and the second zone.