A circuit board assembly for a control unit of a motor vehicle has a multi-layer circuit board and a plug connector with a housing faceplate. The circuit board, which includes conductor paths for conducting signals, has a first section, a second section, and a flexible third section with a lower stiffness between the first and second sections. The first section encloses an angle with the second section. The plug connector has a multiplicity of connection elements, each with an attachment part and a contact pin. The housing faceplate has first and second side panels each enclosing an angle with the first panel central plane and an angle with the second panel central plane. A first detent element prevents a change in the angle in a first direction of rotation. A second detent element prevents a change in the angle in a second direction of rotation.

Provided is an inexpensive and highly reliable resin sealed-type onboard electronic control device is mounted in a vehicle such as an engine control unit and a control unit for automatic transmission, which have a heat dissipation structure for dissipating heat generated from an electronic component such as a semiconductor element. The onboard control device includes a circuit board, a member provided to face the circuit board, a heat generating electronic component mounted between the circuit board and the member, a heat dissipating material provided between the heat generating electronic component and the member, and a sealing resin to seal the circuit board and the heat generating electronic component. And a space between the member and the circuit board is at least a part of a range where the heat dissipating material is not provided, and is narrower than a range where the heat dissipating material is provided.

A remote control is provided. The remote control includes a housing, a fixing part installed in a keyway disposed at the housing and a determination piece and a direction piece which are installed on the fixing part. A direction key, a determination key and a program writing piece each extending to the fixing part are installed in the housing. The program writing piece is provided with a first through-hole through which the determination key extends to the fixing part. The fixing part is further provided with a second through-hole through which the direction key extends and a third through-hole through which the program writing piece extends.

A method for producing an electronic assembly includes providing a printed circuit board with a first face, a second face facing away from the first face, and a first component arranged on the first face. The method further includes arranging the circuit board such that the second face lies on a reference surface, and applying a sealing material which is substantially not flowable prior to being cured onto the first face. The sealing material surrounds a sub-region of the first face of the circuit board. The method further includes arranging a second component at least partly on the reference surface such that the second component is pressed into the sealing material, electrically connecting the second component to the circuit board via an electric connection line, and applying a covering material onto the circuit board first face sub-region surrounded by the sealing material and onto the first component.

A control box includes a housing defining an interior, the housing including a cover and a stiffener, the stiffener removably connected in contact with the cover, the stiffener including an outer frame and at least one cross-member. The control box further includes a heat sink removably connected in contact with the stiffener. The control box further includes a first circuit board disposed within the interior, the first circuit board positioned between the stiffener and the heat sink, and a second circuit board disposed within the interior, the second circuit board positioned between the cover and the stiffener. The cover, stiffener, and heat sink are stacked along a transverse direction.

A SOM circuit board includes a main body having a first face surface, an opposing second face surface, a first side surface, an opposing second side surface, a first end surface, and an opposing second end surface. The first and second side surfaces have maximum lengths along a longitudinal direction which are greater than maximum lengths of the first and second end surfaces along a lateral direction. The SOM circuit board further includes a plurality of computing components, each of the plurality of computing components mounted on one of the first face surface or the second face surface. The SOM circuit board further includes an input/output connector mounted on the second face surface. The SOM circuit board further includes a plurality of mounting holes extending along the transverse direction through and between the first face surface and the second face surface.

The disclosure relates to a mechatronic assembly. The assembly includes a supporting circuit board with at least one populated flat side. A multiplicity of electronic components are arranged on the at least one populated flat side. In addition, at least one mechanical insert part for the mechanical fixing of at least one electronic component is also arranged on the at least one populated flat side. An encapsulation of one-piece design is provided which, in form-fitting and cohesive fashion, surrounds all of the components arranged on the at least one populated flat side of the supporting circuit board. The disclosure also relates to a method for producing the mechatronic assembly.

A circuit unit (10) includes a circuit body (11) having a resin portion (12) covering a circuit, first terminals (15) projecting from one edge of the resin portion (12) and second terminals (16) projecting from another edge part of the resin portion (12). A fixing member (20) made of metal is configured to fix the circuit body (11) to a base member (BM) by being mounted on the base member (BM) while being held in contact with the resin portion (12). A cover (30) having receptacles (35, 36) is fit to mating connectors (50A, 50B) while covering the first and second terminals (15, 16). The cover (30) is configured to cover the circuit body (11) and the fixing member (20). The cover (30) is formed with an opening (33) for exposing the fixing member (20) to outside.

A printed circuit board for electronic function control for a vehicle is created, comprising at least one actuator connection, of which a first part is attached to the printed circuit board and a second part extends away from the printed circuit board, and a connecting element, of which a first part is attached to the printed circuit board and a second part extends away from the printed circuit board, characterized in that the printed circuit board is coated, such that the printed circuit board and the first parts of the at least one actuator connection and the connecting element are protected, such that a seal against external effects acting on the printed circuit board is obtained. Furthermore, a system having a printed circuit board according to the disclosure is created.

Provided is an electronic control device that is easily assembled and with which it is possible to reduce the effects of vibration and external force applied from a connector. Electronic components are installed on a substrate. A base covers a surface of the substrate. A cover covers a surface of the substrate. A first connector, which is installed on the surface, connects to a connector fixed to an on-board transmission. A second connector, which is installed on the surface, connects to a connector of a harness. First vibration-suppressing parts, which are provided to the inside surface of the base facing the end surface of the first connector on the surface side, suppress the vibration of the first connector.