A method for producing a connection contact for a sensor or an actuator of a vehicle, the method including: providing a printed circuit board having at least one electronic component arranged thereon and having an opening; inserting a contact bushing into the opening; and combined soldering the at least one component to the printed circuit board and the contact bushing to the printed circuit board in one task. Also described are a related circuit board and a vehicle control unit.

A connector unit includes: a housing including a guide rail inside the housing; a terminal block including a flange and configured to hold a terminal having one end exposed in an opening of the housing, the terminal block being housed inside the housing with the flange supported by the guide rail; and a board connected with the other end of the terminal and housed in the housing with the board suspended from the terminal block through the terminal.

This application relates to the field of electronic technologies, and provides a printed circuit board and a manufacturing method thereof, and an electronic device. The printed circuit board has target holes that penetrate through the printed circuit board, and an area that is not provided with the target holes has blocking structures (B) for blocking liquid flow, where the area is on at least one side that is of the printed circuit board and that is connected to the target holes.

An electrical connector includes an insulation body, a seat, and a positioning plug. The seat is disposed on an outer peripheral surface of the insulation body. The seat includes a tunnel defined through the seat to form an inlet and an outlet. The outlet and a front surface of the insulation body face the same side. The seat further includes a slit and one or more first bumps disposed on an inner wall of the slit. The positioning plug includes a sliding block and rib. The sliding block movably disposed in the tunnel via the inlet with the rib movably disposed in the slit. The positioning plug further includes a second bump disposed on a lateral side of the rib facing the first bump. When the sliding block moves to an installation position, the first bump stops the second bump to fix the sliding block at the installation position.

Provided is a vehicle camera module including a lens, circuit board having an image sensor, front housing, and rear housing. The lens has a lens barrel and lens elements assembled. The front housing has front and rear sides to which the lens and the circuit board are assembled, respectively. The rear housing is coupled rearwardly of the front housing to seal the lens and circuit board. The front housing includes posts protruding rearward and a pin protruding distally of the post and having a smaller cross-sectional area than the post. The circuit board includes a plated through-hole configured to at least partially receive the pin. The front housing and circuit board are pre-assembled such that pin and plated through-hole have an assembly clearance, the io lens and image sensor are optically aligned in a pre-assembled state, and the assembly clearance is fixedly soldered through a laser solder-jet bonding process.

The disclosure relates to an implant comprising a housing, in which there are arranged an energy store and an electronics module, wherein a feedthrough to an electrode connection device is formed on the housing, wherein a first contact forms an electrical connection between the energy store and the electronics module, wherein a second contact forms an electrical connection between the electronics module and the feedthrough, and wherein the first contact and the second contact are oriented in the same contact direction. A method for assembling an implant is also disclosed.

A circuit board includes two first insertion holes, a second insertion hole located on one side of the two first insertion holes, a third insertion hole located on the other side of the two first insertion holes, and a number of grounding points. The grounding points are distributed on a periphery of the first insertion holes. The grounding points, the second insertion hole and the third insertion hole together form a shielding layer surrounding the periphery of the first insertion holes. The present disclosure also relates to a backplane connector assembly having a backplane connector and the circuit board. Compared with the prior art, the circuit board disclosed in the present disclosure improves the shielding effect of differential signal terminals, reduces crosstalk and improves the quality of signal transmission.

A backplane connector includes a housing and a number of wafers assembled to the housing. Each wafer includes a number of conductive terminals, an insulating frame and a metal shield. The housing includes an insulating housing and a metal shell fixed to the insulating housing. The insulating housing includes a number of slots for positioning the wafers. The metal shell is provided with a mating surface and a number of terminal receiving grooves. The contact portions of the conductive terminals are exposed in the corresponding terminal receiving grooves. The present disclosure improves the structural strength of the backplane connector and reduces the risk of damage the mating surface due to the push or collision of a mating connector.

A backplane connector includes a number of wafers and a spacer for assembling the wafers together. Each wafer includes an insulating frame and a number of conductive terminals fixed to the insulating frame. The insulating bracket includes a first protrusion and a second protrusion. The spacer includes a first body portion and a second body portion. The first body portion includes a first clamping slot for clamping the first protrusion. The second body portion includes a second clamping slot for clamping the second protrusion. The present disclosure increases the ability of the spacer to resist external forces and improves the structural stability of the backplane connector.

A backplane connector assembly includes a first backplane connector and a second backplane connector. The first backplane connector includes a number of first conductive terminals, a first insulating frame, a first metal shield and a second metal shield. The first metal shield includes a first elastic piece, and the second metal shield includes a second elastic piece. The second backplane connector includes a number of second differential signal terminals, an insulating block sleeved on the second differential signal terminals, and a metal shell sleeved on the insulating block. When the first backplane connector is mated with the second backplane connector, the first elastic piece and the second elastic piece are in contact with the metal shell to increase the grounding shielding area, reduce crosstalk and improve the quality of signal transmission.