An electronic component is an electronic component including a first surface, wherein a marking formed by a collection of a plurality of dot-shaped recesses is formed in the first surface, an inner surface of each of the plurality of dot-shaped recesses is a curved surface, when viewed in a direction perpendicular to the first surface, an region internal to an outline of each of the plurality of dot-shaped recesses is entirely non-flat, the electric component comprises one or more second regions internal to an outline of the marking when viewed in the direction perpendicular to the first surface, each of the one or more second regions not belonging to any of the plurality of dot-shaped recesses, each of the one or more second regions being chamfered, each of the one or more second regions being non-flat, and each of the one or more second regions is convex.

The invention relates to a marking device (02) for marking circuit boards (04) tested by means of a test device (01, 08), wherein the marking device (02) can be fixed to the test device (01, 08) in a defined target position, and wherein the marking device (02) has a marking member (06) which can engage the surface (05) of a circuit board (04), and wherein the marking member (06) can be driven by a drive mechanism (16) in order to apply a marking to the surface (05) of the circuit board (04) by an operating movement of the marking member (06) depending on the test result. The marking device (02) includes a fixation module (10) and a quick change module (11), wherein the marking device (02) can be fixed to the test device (01, 08) in the defined target position by means of the fixation module (10), and wherein the quick change module (11) includes the marking member (06) and the drive mechanism (16), and wherein the quick change module (11) can be replaced without removing the fixation module (10).

A display device includes: a display panel including panel terminals; and a wiring substrate including first substrate terminals coupled to the panel terminals. The panel terminals include panel terminals arranged in a first region and panel terminals arranged in second regions sandwiching the first region. The first substrate terminals include first substrate terminals arranged in a third region and first substrate terminals arranged in fourth regions sandwiching the third region. A gap between panel terminals is substantially constant in the first and second regions. A first width of the panel terminals in the first region is different from a second width of the panel terminals in the second regions. A width of the first substrate terminals is substantially constant in the third and fourth regions. A first gap between first substrate terminals in the third region is different from a second gap between first substrate terminals in the fourth regions.

Flexible circuits are described including markings that indicate connections between their flat-wire conductors and specific circuits of a vehicle electrical system. Wire conductors within the flexible circuit share connections with different circuits of the vehicle electrical system. To indicate a connection between a wire conductor and a vehicle circuit, the flexible circuit includes one or more human or machine-readable marks specifically indicating the connection, in some cases, at a position where the connection is to be made. The marks can include etchings or printings on the wire conductors or printings on or otherwise visible from the insulating body that protects the wire conductors.

A method for ink jet printing of a substrate, as well as an ink jet printed layer. To provide a method for ink jet printing of a substrate that is particularly fast and energy-conserving and does not require any systems with high procurement and operating costs, initially a substrate is supplied, which is then coated with a layer of a print medium on at least one surface. A labeling of the substrate is carried out by applying the same print medium to result in a different color shade of the printed layer.

An integrated circuit, a wireless communication card and a wiring structure of an identification mark are provided. The integrated circuit includes a power supply wiring, a ground wiring and at least one identification mark pattern. Each identification mark pattern has a first conductive wiring and a second conductive wiring that overlap each other, wherein the first conductive wiring is electrically connected to the power wiring, and the second conductive wiring is electrically connected to the ground wiring.

A display device includes: a display panel including a display area and a non-display area; a flexible printed circuit board overlapping and attached to the display panel; a pair of first alignment indicia disposed in the non-display area; a pair of second alignment indicia adjacent to the first alignment indicia; a pair of third alignment indicia disposed on the flexible printed circuit board.

A circuit board tape includes substrate units each including a sprocket-hole region, a layout region and a joining mark. There are odd and more than three sprocket holes on the sprocket-hole region. An imaginary line extended from the joining mark is extended to between a first layout and a second layout located on the layout region. The amount of the sprocket holes between the imaginary lines of the adjacent substrate units is odd. The circuit board tape is cut along the imaginary lines of the different substrate units so as to remove the defective substrate unit from the circuit board tape and divide the circuit board tape into a front tape and a rear tape. After joining the front and rear tapes, the region where a first layout on the front tape and a second layout on the rear tape are located is defined as a combined layout region.

An integrated circuit, a wireless communication card and a wiring structure of an identification mark are provided. The integrated circuit includes a power supply wiring, a ground wiring and at least one identification mark pattern. Each identification mark pattern has a first conductive wiring and a second conductive wiring that overlap each other, wherein the first conductive wiring is electrically connected to the power wiring, and the second conductive wiring is electrically connected to the ground wiring.

A display device may include a main flexible printed circuit including a first alignment mark and electrically connected to a first panel; and a touch flexible printed circuit including a second alignment mark and electrically connected to a second panel that is perpendicular to the first panel, wherein the main flexible printed circuit is electrically connected to the touch flexible printed circuit through a pad region, and the touch flexible printed circuit includes a first overcoat region disposed between the first alignment mark and the second alignment mark.