Plug contact set, comprising a plug contact strip (17) having several first contact elements (12, 14) that are formed as components of a circuit board (10) and are arranged in the region of a circuit board edge (19), at least one of which contact elements (12, 14) being formed in the plugging direction (S) as a checking contact (14) having a smaller length than the remaining contact elements, and having a plug connector having several second contact elements (22) that are arranged in a housing, at least one of which contact elements (22) being set up to electrically make electric contact with the checking contact (14), wherein at least one first latch element (31, 51) that is formed as part of the circuit board (10) is arranged on the circuit board edge (19) and at least one second latch element (32) is arranged on the housing, said latch elements being set up to latch with one another when the first contact elements (12, 14) are completely contacted by the second contact elements (22), and wherein a third latch element (33, 53) that is formed as part of the circuit board (10) and that is able to latch to the second latch element (32) is provided that is arranged to be spaced apart from the first latch element (31) in the plugging direction (S) in such a way that, by latching the third latch element (33, 53) to the second latch element (32), an as clearance-free as possible fixing of the housing on the circuit board (10) in the completely contacted state of the first and second plug contacts (12, 14, 22) is achieved.

An electrical connector includes an insulating base, a plurality of conductive terminals, a circuit board, at least one connection kit, an outer shell receiving the insulating base, and a shielding plate. The plurality of the conductive terminals are inserted to the insulating base. The circuit board is mounted on the insulating base. At least one portion of one end of the circuit board extends outward to form at least one tongue board. The plurality of the golden fingers are connected with the plurality of the conductive terminals. The at least one connection kit is integrally injection-molded by a metal injection molding technology. The at least one connection kit sleeves around the at least one tongue board. The shielding plate is covered on the circuit board.

Methods, systems, and devices for providing computer implemented services are disclosed. To provide the computer implemented services, hardware resources available to data processing systems may be customized. The hardware resources may be customized through addition or replacement of interchangeable hardware components. The interchangeable hardware components may include features that may improve the likelihood of successfully adding or replacing the interchangeable hardware components.

A printed circuit board composite and a method for producing same. In the method for producing the printed circuit board composite, a first printed circuit board, in particular a sensor carrier printed circuit board, is connected in a form-fitting manner to a second printed circuit board, in particular a supporting printed circuit board. There is also described a printed circuit board composite.

Various embodiments include a plug receptacle for an electrical plug-in connection for receiving a plug with electrical plug conductor comprising a contact region for electrical connection to the plug receptacle comprising: a housing with an insertion region into which the plug can be releasably inserted; an electrical plug receptacle conductor rigidly arranged in the housing; and an electrical connecting conductor floating in the housing configured to electrically connect the plug receptacle conductor to the plug conductor. The electrical connecting conductor exerts a connecting force onto the contact region of the plug conductor once inserted into the plug receptacle. The connecting force runs substantially orthogonally in relation to said contact region.

Printed circuit boards (PCBs) may include embedded lateral connectors. The embedded lateral connectors may be configured to enable components to quickly couple to or plug into a PCB, thus saving time to form connections. The embedded lateral connectors may also reduce weight and/or size by avoiding need for bulky tradition collections with conventional components (e.g., solders, external pin connectors, etc.). The connectors may include male connectors, female connectors, and/or mounting connectors. The connectors may be configured to connect multiple PCBs together, such as using a stacked configuration, which may enable reducing a volume of space needed in a housing for the PCBs.

A display device includes a display panel, a main circuit board facing a rear surface of the display panel and including a first main segment, a second main segment, and a first sub-segment disposed between the first main segment and the second main segment, and flexible printed circuit boards which electrically connects the display panel and the main circuit board. A first cut-away portion is defined between the first main segment and the second main segment, the first main segment is bent along a first bending line defining a boundary between the first main segment and the first sub-segment, and the second main segment is bent along a second bending line defining a boundary between the second main segment and the first sub-segment.

The present disclosure provides a display module and a method for coating the same, which can prevent and/or reduce the occurrence of black seam between display modules that are arranged adjacent to each other. According to an example aspect of the present disclosure, a display module includes a printed circuit board; a plurality of luminous elements arranged at predetermined intervals on the printed circuit board; and a coating layer comprising a coating disposed between the respective luminous elements, disposed around side surfaces of the respective luminous elements positioned at an outermost, and formed to have a height that is substantially equal to a height of the side surfaces of the luminous elements, the coating being configured to block side light of the respective luminous elements.

The present disclosure improves the adhesive strength of a shield film in a high-frequency module that includes a shield film that shields components from unwanted electromagnetic waves from the outside. A high-frequency module is provided with: a sealing body that includes a multilayer wiring substrate, components that are mounted on an upper surface of the multilayer wiring substrate, and a sealing resin layer that is stacked on the upper surface of the multilayer wiring substrate and covers the components; and a shield film that covers a surface of the sealing resin layer. A side surface of the sealing body has curved surface portions formed so as to have a curved surface shape, and the curved surface portions are roughened with a plurality of grooves.

Standardized photon building blocks are used to make both discrete light emitters as well as array products. Each photon building block has one or more LED chips mounted on a substrate. No electrical conductors pass between the top and bottom surfaces of the substrate. The photon building blocks are supported by an interconnect structure that is attached to a heat sink. Landing pads on the top surface of the substrate of each photon building block are attached to contact pads disposed on the underside of a lip of the interconnect structure. In a solder reflow process, the photon building blocks self-align within the interconnect structure. Conductors on the interconnect structure are electrically coupled to the LED dice in the photon building blocks through the contact pads and landing pads. The bottom surface of the interconnect structure is coplanar with the bottom surfaces of the substrates of the photon building blocks.