An electronic device according to the present disclosure includes a component, an electrode placed on the component, a conductor which includes a first conductor section, including an electrode contact surface in contact with the electrode, and two second conductor sections, electrically connected to two respective facing edges of the first conductor section to extend in respective directions away from the electrode and including respective inclined surfaces inclined in directions toward a central axis passing through a center of the electrode and perpendicular to the surface of the electrode, an insulator which is in contact with the two second conductor sections from sides opposite to the central axis and encloses the conductor and the electrode, and a case housing the component, the electrode, the conductor, and the insulator. A space without the insulator is defined between the two second conductor sections.

An attachment for an electronic communications device including a conducting element that is coated on one side with layers of material and securely affixed to a nonconducting substrate such that the overall dimensions and thickness of the attachment are sufficiently small that it may be attached to a surface of an electronic communications device whilst allowing the use of any protective casing preferred by the user.

There are provided a rigid flexible printed circuit board and a method of manufacturing the same. The rigid flexible printed circuit board according to an exemplary embodiment of the present disclosure includes: a flexible board including a flexible region, a first rigid region formed at one side of the flexible region, and a second rigid region formed at the other side of the flexible region; a first rigid board formed on the flexible board and formed in the first rigid region and the second rigid region; and a second rigid board formed below the flexible board and formed in the first rigid region.

An organic light-emitting display apparatus includes a flexible substrate having a display region and a non-display region located at an outer region of the display region, the non-display region being folded with respect to the display region; at least one organic light-emitting diode (OLED) on the display region of the flexible substrate; and an encapsulation member encapsulating the display region.

An electronic module is provided, comprising an electronic chip arranged in the electronic module and comprising an input terminal and an output terminal; a first current path electrically connected to the input terminal; a second current path electrically connected to the output terminal; and an insulation arranged between the first current path and the second current path, wherein the first current path and the second current path extend in the same direction and arranged in close proximity to each other.

A method for automatically mounting a connector-housing with a contact-part attached to an electrical line includes holding the contact-part, determining an actual-rotational-position of the contact-part, comparing the actual-rotational-position with a predetermined-rotational-position, and performing a rotational-position-correction thereby aligning the connector-part to the connector-housing. The connector-housing is fixed to a holder and the contact-part is inserted into a cavity of the connector-housing by means of a movable-gripper.

In a mark forming step in a manufacturing method for a component incorporated substrate in which an electronic component is positioned with reference to a mark formed in a copper layer, when an imaginary line extending from a search center of a search range of a sensor, to an edge side of the search range is represented as a search reference line and an imaginary line extending, in a state in which a mark center, is matched with the search center, from the mark center in the same direction as the search reference line to an outer ridgeline of the mark is represented as a mark reference line, the mark formed in a shape in which the outer ridgeline of the mark is present in a position where a length of the mark reference line is in a range of 30% or more of the search reference line.

A toothbrush having a pressure sensor. In one embodiment, the invention can comprise a body comprising a handle portion and a head portion having a basin; a cleaning assembly comprising: a head plate; a plurality of tooth cleaning elements, each of the plurality of tooth cleaning elements comprising a cleaning portion extending from a front surface of the head plate and a base portion extending from a rear surface of the head plate; the base portions of the plurality of tooth cleaning elements melted together to form a melt matte adjacent the rear surface of the head plate; the head plate of the cleaning element assembly positioned in the basin and connected to the head portion; a pressure sensor adjacent a rear surface of the melt matte; and an indicator operably coupled to the pressure sensor for generating a user perceptive signal upon the pressure sensor sensing a pressure that exceeds a predetermined threshold.

A placement apparatus for an optical component includes: a suction nozzle that includes a nozzle main body having a suction surface having a suction port, an optical component being sucked to the suction port, a plurality of nozzle electrodes disposed on the suction surface, each of the nozzle electrodes being brought into contact with a corresponding one of a plurality of component electrodes provided on the optical component so as to establish electrical conduction between each of the plurality of nozzle electrodes and a corresponding one of the plurality of component electrodes.

A component mounting machine includes a head having a holding member configured to hold the component, and a control device. The control device performs a pre-mounting inspection for inspecting a state of a component held in the holding member, and controls the head so that the component held in the holding member is mounted on the board in a case where a determination of normality is made in the pre-mounting inspection. In addition, the control device performs a post-mounting inspection for inspecting a state of the component already mounted on the board by the head in a case where a determination of abnormality is made in the pre-mounting inspection or in a case where a determination of abnormality suspicion is made which is within an allowable range determined to be normal but is suspected to be abnormal in the pre-mounting inspection.