Provided is an electronic control device capable of suppressing failure of an electronic component due to static electricity. The electronic control device 100 includes a substrate 10, an electronic component 1 mounted on the substrate 10, an insulating case 20 that holds the substrate 10, a conductive cover 30 that covers the insulating case 20, a conductive base 40 that holds the insulating case 20, and a conductive fixture 21 that fixes the insulating case 20 to the conductive base 40. A distance L1 between the conductive cover 30 and the conductive fixture 21 is equal to or less than a distance L2 between the conductive cover 30 and a conductive terminal 1a of the electronic component 1.

A vehicle control apparatus is disposed inside a housing for accommodating a transmission. The vehicle control apparatus includes a metal base, a resin case, a printed circuit board on which an electronic component mounts, an oil-tight seal member, and a breathable filter. The metal base is made of metal. The resin case is attached to the metal base to form an interior space. The resin case includes a part having a connector penetrating inside and outside of the housing. The printed circuit board is disposed in the interior space. The oil-tight seal member is placed between the metal base and the resin case to surround the printed circuit board. The connector has a ventilation hole. The breathable filter is disposed at a location where the ventilation hole faces outside.

A circuit board (3) is provided with a first rigid part (11) having a power system electronic component mounted thereon, a second rigid part (12) having a control system electronic component mounted thereon, and a thin flexible part (13) connecting the first and second rigid parts to each other. The flexible part (13) is provided with a plurality of conductive wires (27) conducted with the electronic components of the first and second rigid parts (11, 12). A non-conductive metal pattern (33) that is a dummy pattern is formed along an outer edge (13a) of the flexible part (13). By the non-conductive metal pattern (33), the disconnection of the conductive wires (27) due to cracking is suppressed.

An electronic control device includes a conductive casing; a circuit board which is provided in the casing, and on which an electronic component including an integrated circuit is mounted; and a conductive conductor component that is provided on the circuit board, is disposed at a position higher than the electronic component, and has an elongated shape, in which a distance between the conductor component and the casing is shorter than a distance between the conductor component and the circuit board.

An intelligent power adaptor includes a housing, a circuit board, a holder and a detachable intelligent current adaptor. The housing has an internal space and an insertion through hole. The circuit board is disposed within the internal space. The circuit board includes a plurality of first connecting terminals. The holder is coupled to the circuit board. Also, the holder is disposed above the circuit board and within the internal space. In addition, the holder includes an opening for encompassing the plurality of first connecting terminals. The detachable intelligent current adaptor is detachably coupled to the holder via the opening and externally coupled to the housing via the insertion through hole. The detachable intelligent current adaptor includes a plurality of second connecting terminals that are detachably docked with and electrically coupled to the plurality of first connecting terminals in one-by-one correspondence.

A landscape control box includes a base portion and a facepack. The facepack supports a rotary shaft extending along an axis in a first direction. A cover has a hole aligned with the rotary shaft. A knob has a receptacle and a first portion of an interacting structure. The receptacle engages with the rotary shaft so as to transfer rotational motion of the knob to the rotary shaft. The first portion of the interacting structure engages with a second portion of the interacting structure on the cover so as to inhibit movement of the knob. The control box can receive one or more modules for enhancing functionality of the control box and/or superseding station programming stored by the control box or input by the user. The control box includes openings that are sized and shaped to allow attachment of different sized pipes and conduits to the control box.

The present disclosure discloses a mobile terminal, including a case forming a portion of an appearance; a circuit board disposed inside the case; a flexible printed circuit board electrically connected to the circuit board; a first connector mounted on the circuit board; a second connector mounted on the flexible printed circuit board and fastened to the first connector; and a first antenna having array elements mounted on the flexible printed circuit board, wherein the first antenna is disposed to face a side surface of the case to radiate beam-formed wireless signals through the side surface adjacent to one side of the circuit board.

A body of a power feed control device includes a housing recess to house a module including a holder, the first sub-bus bar, the second sub-bus bar, the third sub-bus bar, and a zero-phase-sequence current transformer. Lengths of respective extended pieces of the first sub-bus bar, the second sub-bus bar, and the third sub-bus bar are different from each other. The holder includes a rod portion, a post portion, and an extended portion. The extended portion covers the respective extended pieces of the first sub-bus bar, the second sub-bus bar, and the third sub-bus bar.

Provided is an inexpensive charger which is compact and which yet provides favorable heat dissipation performance. The charger includes a charging circuit board comprised of an input/output interface component and a charging circuit component mounted on a substrate having a first face and a second face which are in parallel and front/back relationship with each other and a housing including a first housing body to which the charging circuit board is fixed and a second housing body engageable with the first housing body to form together an inner space in which the charging circuit board is to be accommodated. The second face of the substrate mounts thereon a heat generating component included in the circuit component. A heat dissipation pattern is formed at a part of the first face overlapped with at least a part of the heat generating component mounted on the second face as seen in a direction perpendicular to the first face.

An electronic apparatus includes a movable cylinder, a support cylinder configured to support the movable cylinder rotatably around a panning rotation axis, a flexible wire connecting to a panning control circuit board in the support cylinder, and a storage area communicating with the movable cylinder and the support cylinder and containing the flexible wire. The flexile wire includes a first fixed part on the movable cylinder and a second fixed part on the support cylinder. In the storage area, the first fixed part is fixed to a first fixing part of the movable cylinder. In the storage area, the second fixed part is fixed to a second fixing part of the support cylinder.