An apparatus and method to reliably attach an electronic module to a textile. The overall mechanical assembly of the invention includes: (a) light pipe, (b) top enclosure, (b) magnet, (c) main electronics which contains (d) the main PCB, (e) battery and (f) other electronic components, (g) bottom enclosure, which holds (h) the connector PCB, (i) module dock, (j) top textile PCB which are located above the (j) textile band and under the (k) textile pocket and the (I) bottom textile PCB and (m) fabric and laminate padding, which are located below the textile band. The invention is physically embodied by an electronic module, comprising at least one printed circuit board (PCB), comprising at least one conductive circuit and at least one electronic component; a metallic rivet, grommet or eyelet to mechanically and electrically connect the; and a textile substrate with at least one electrically conductive circuit.

Disclosed are a touch flexible printed circuit, a display panel and a display apparatus. The touch flexible printed circuit includes at least two unfoldable portions and at least one foldable portion, the foldable portion is located between and connected to adjacent unfoldable portions, and the foldable portion is configured to make the adjacent unfoldable portions at least partially overlap to form a fold portion, when the foldable portion is folded.

An electrical assembly that includes a substrate having an aperture. A flat conductor is mounted to the substrate and extends over at least a portion of the aperture, with a ring terminal in contact with the flat conductor adjacent to the aperture. A lead wire connects to the ring terminal and is spaced from the substrate, and a fastener extends through the ring terminal and flat conductor, secured in the aperture, and securing the ring terminal against the flat conductor.

There is provided a circuit board assembly constructed by stacking a first circuit board having a first contact portion and a second circuit board having a second contact portion to allow the first and second contact portions to contact each other, which is bendable along a first direction. The first circuit board has a first hole that is formed within a range in which a pair of first projection pieces are present in a second direction perpendicular to the first direction, at least part of the first hole being situated between the pair of first projection pieces in the first direction, and the second circuit board has a second hole that is formed within a range in which the pair of second projection pieces are present in the second direction, at least part of the second hole being situated between the pair of second projection pieces in the first direction.

A connector assembly comprises a main connector, a first wiring sheet and a second wiring sheet. The main connector has a receiving portion. The first wiring sheet has a first positioned portion, a first deformable portion extending from the first positioned portion and a first contact provided on the first deformable portion. The second wiring sheet has a second positioned portion, a second deformable portion extending from the second positioned portion and a second contact provided on the second deformable portion. When the connector assembly is assembled, the first positioned portion and the second positioned portion are positioned by a positioning jig. Then, the first deformable portion and the second deformable portion are pressed downward to be pushed into the receiving portion so that the first contact and the second contact are located within the receiving portion to be in contact with each other.

An electronic device is provided. The electronic device includes a first substrate on which a first electrical element and a first conductive structure, which is configured to surround the first electrical element, are disposed, a second substrate on which a second electrical element and a second conductive structure, which is separably connected to the first conductive structure, are disposed, and a connector which is disposed between the first substrate and the second substrate and electrically connects the first electrical element to the second electrical element.

According to one embodiment, an electronic device includes a casing, a flexible wiring member, and a first electrical component, for example. The casing is provided with an opening. The flexible wiring member includes an insulating film, a lead mounted on the insulating film, and a connection terminal, and extends through the opening. The sealant is filled in the opening. The first electrical component is encapsulated by the casing and electrically connected to a second electrical component outside the casing through the flexible wiring member.

A flexible printed circuit (FPC) terminal connection structure is provided. The FPC terminal connection structure includes a base material; a substrate secured to the base material, wherein the substrate includes a second terminal group on one surface thereof an FPC including a first terminal group on a first surface thereof, corresponding terminals of the first terminal group and the second terminal group being in contact with each other; a flat spring disposed on top of a first position that interferes with at least the first terminal group on a second surface of the FPC; and a fastening member for fastening the flat spring and the FPC to the base material at a second position different from the first position.

Analyte sensor connectors that connect analyte sensors, e.g., conductive members of analyte sensors, to other devices such as sensor electronics units, e.g., sensor control units, are provided. Also provided are systems that include analyte sensors, analyte sensor connectors, and analyte sensor electronics units, as well as methods of establishing and maintaining connections between analyte sensors and analyte sensor electronics units, and methods of analyte monitoring/detection. Also provided are methods of making analyte sensor connectors and systems that include analyte sensor connectors.

A wiring board includes: a flexible printed circuit board that includes: a base having a first opening; a wiring pattern formed on the base; and a cover lay that includes an adhesive layer adhering to the wiring pattern and that has a second opening; and a metal cover that covers at least a part of the first opening from below. The wiring pattern contacts the metal cover through the first opening, and is bonded to the metal cover. At least a part of the second opening overlaps the first opening in a plan view. A part of the cover lay overlaps the first opening in a plan view.