A surface mounted electronic component is provided. The component includes a first and a second connection portion for performing connection to a mounting board. The first connection portion includes a joint region arranged on a lower surface. The second connection portion includes a lower surface region arranged on the lower surface, and a side surface region connected to the lower surface region and arranged on a side surface. In a direction along the side, the lower surface region is arranged apart from the joint region, a length of the lower surface region in the direction is longer than a length of the joint region, a length of the side surface region in the direction is shorter than the length of the lower surface region, and the side surface region is spaced apart from an end of the side surface.

The invention provides a printed circuit board (10) including a first electrically conductive track (210), wherein the printed circuit board (10) comprises a set (15) of two printed circuit board areas (100) both comprising a part of the first electrically conductive track (210), wherein printed circuit board (10) further comprises a perforation line (300) between the two printed circuit board areas (100) for customizing the printed circuit board (10) into two physically separated printed circuit board area comprising parts (1100), wherein the perforation line (300) is configured as a non-straight line, wherein the perforation line (300) comprises relative to one of the printed circuit board areas (100), and in a plane of the printed circuit board (10), a first projecting part (311) and a first recessed part (312), wherein the first recessed part (312) is recessed relative to the first projecting part (311), wherein the first electrically conductive track (210) is intercepted by the perforation line (300) at the first recessed part (312).

An imaging module of the invention includes: an imaging element; and a substrate positioned on a rear surface opposite to an imaging surface of the imaging element and provided to extend from the rear surface to a side opposite to the imaging surface. An electrode pad provided on the rear surface of the imaging element and a front end portion of an electrode pad provided on a main surface of the substrate at a position close to the imaging element are electrically connected via a conductive connecting material portion. A notch portion recessed from a distal end of the front end portion is formed at the front end portion of the electrode pad of the substrate.

Electronic modules having complex contact structures may be formed by encapsulating panels containing pluralities of electronic modules delineated by cut lines and having conductive interconnects buried within the panel along the cut lines. Holes defining contact regions along the electronic module sidewall may be cut into the panel along the cut lines to expose the buried interconnects. The panel may be metallized, e.g. by a series or processes including plating, on selected surfaces including in the holes to form the contacts and other metal structures followed by cutting the panel along the cut lines to singulate the individual electronic models. The contacts may be located in a conductive grove providing a castellated module.

A blind plug, in particular an RJ45 blind plug, includes at least one data plug unit, which is configured for a connection to a counter data plug unit, in particular an RJ45 plug socket, wherein the data plug unit includes an output unit, which is configured to indicate a power supply capability of the counter data plug unit.

A two part connector for the temporary connection of an external periphery device to a printed circuit board (PCB). When coding or diagnostics need to be performed on much of todays electronic or electronic controlled equipment, an external unit needs to be physically connected to the microprocessor on the PCB of the equipment. Until now equipment manufacturers either install a socket onto the PCB, or form a mating part of connector directly on the surface of PCB, that is electronically connected to the microprocessor through electrical trace paths. This device eliminates the need for a socket and forms an intermediary element between the external unit and the PCB, that connects to the PCB with a set of vertical pins that matingly connect to a series of cutouts on the PCB. This device connects to a plethora of external devices and takes zero space on the surface of the PCB.

A touch display device includes a printed circuit board and a cover. The printed circuit board has a top surface, a bottom surface and soldering points. The printed circuit board includes a first printed circuit, a light element and a second printed circuit. A part of the first printed circuit is on the top surface or the bottom surface and connected with the corresponding soldering point. The light emitting element is on the top surface and electrically connected to the first printed circuit. On the top surface, the second printed circuit does not overlap with the first printed circuit. The cover covers the printed circuit board. The cover has light transmission areas which are aligned with the light elements. The second printed circuit is configured to provide a capacitance value coupled to a capacitive sensing element coupled between the second printed circuit and the cover.

An example sensor interposer employing castellated through-vias formed in a PCB includes a planar substrate defining a plurality of castellated through-vias; a first electrical contact formed on the planar substrate and electrically coupled to a first castellated through-via; a second electrical contact formed on the planar substrate and electrically coupled to a second castellated through-via, the second castellated through-via electrically isolated from the first castellated through-via; and a guard trace formed on the planar substrate, the guard trace having a first portion formed on a first surface of the planar substrate and electrically coupling a third castellated through-via to a fourth castellated through-via, the guard trace having a second portion formed on a second surface of the planar substrate and electrically coupling the third castellated through-via to the fourth castellated through-via, the guard trace formed between the first and second electrical contacts to provide electrical isolation between the first and second electrical contacts.

A printed circuit board includes a first transmission line provided on an insulating base, a first ground conductor, a notch portion that exposes a part of the first ground conductor, a conductor provided in the notch portion and electrically connected to the first ground conductor, and a first electrode exposed on a main surface of the insulating base facing a flexible board and electrically connected to the first transmission line. The flexible board includes a second transmission line provided on an insulating sheet, a second ground conductor, a second electrode exposed on a main surface of the insulating sheet facing the printed circuit board and connected to the second transmission line, and a third electrode exposed on the main surface of the insulating sheet and connected to the second ground conductor. The conductor and the third electrode are connected by solder.

The present disclosure relates to the field of circuit testing technologies and discloses a flexible circuit board and a test fixture. The flexible circuit board comprises: a flexible body which has a first crimping portion and an extension portion, the first crimping portion being used to be laminated with a second crimping portion of a substrate to be tested; a first electrically connected structure which is located on a first side of the flexible body, arranged on the first crimping portion, and used to be laminated with a second electrically connected structure on the second crimping portion; a support structure which is located on the first side of the flexible body and includes a first support portion and a second support portion; the first support portion is arranged on the extension portion and configured to support the extension portion in the laminating state.