A device includes a first sealing member, a second sealing member, a first circuit member and a second circuit member. The first sealing member basically includes a first film formed with an opening and includes a frame film. At least one of the first circuit member and the second circuit member includes an exposed portion and a seal portion which surrounds the exposed portion. The frame film has a film-seal portion and a circuit-seal portion. The film-seal portion is bonded to the first film to surround the opening. The circuit-seal portion is bonded to the seal portion to surround the exposes portion. The device is formed with a closed space which is enclosed by the first sealing member and the second sealing member. The exposed portion is exposed to the outer space located outside the device.

A device comprises a first sealing member, a second sealing member, a first circuit member and a second circuit member. The first sealing member basically comprises a first film formed with an opening and comprises a frame film. At least one of the first circuit member and the second circuit member comprises an exposed portion and a seal portion which surrounds the exposed portion. The frame film has a film-seal portion and a circuit-seal portion. The film-seal portion is bonded to the first film to surround the opening. The circuit-seal portion is bonded to the seal portion to surround the exposes portion. The device is formed with a closed space which is enclosed by the first sealing member and the second sealing member. The exposed portion is exposed to the outer space located outside the device.

The invention relates to a carrier arrangement (100; 500; 600; 700; 800; 900; 1000), and a method for producing a carrier arrangement. The method comprises: producing a layer (130; 530; 630; 730; 830; 930; 1030) on a surface (120; 520; 620; 720; 820; 920; 1020) of a carrier (110; 510; 610; 710; 810; 910; 1010), the layer comprising a first region (131; 531; 631; 731; 831; 931; 1031) and a second region (132; 532; 632; 732; 832; 932; 1032) connected to the first region, the first region covering a first surface region (121; 521; 621; 721; 821; 921; 1021) of the carrier and the second region covering a second surface region (122; 722; 922) of the carrier, detaching the second region of the layer from the carrier, the first region of the layer remaining on the first surface region of the carrier and not being separated from the second region, the layer being flexible in the detached second region.

A flexible electronic circuit includes a plurality of leaves having a proximal section, a distal section, and an intermediate section. The plurality of leaves are bonded to each other within the distal section and loose within the intermediate section. The intermediate section also includes conductive connector pads for a wiring harness. A plurality of test connector pads are disposed on the plurality of leaves within the proximal section. The leaves within the proximal section may also be bonded to each other, for example in a ribbon or stepped configuration, in order to facilitate connection to testing apparatus. Once the circuit is tested, the proximal section can be severed from the intermediate section prior to installation of the circuit into a medical device, such as an intracardiac echocardiography catheter.

The present inventive concept relates to a foldable layered connection comprising: a substrate having a first major surface and an opposing second major surface; a node of connector material arranged to contact the substrate via the first major surface; a released extension comprising a core of connector material arranged to be in communicative contact with the node of connector material, and flexible material arranged to at least partially enclose the core; wherein the released extension is configured to be hingedly connected to the node and to fold towards the second major surface, and wherein a portion of the core of connector material is exposed, forming a contact of connector material, wherein the contact is electrically isolated from the second major surface and arranged such that it is facing away from the second major surface when the released extension is folded towards the second major surface.

A flexible light emitting diode (LED) circuit having a first layer, the first layer including a conductive material configured to connect to an LED die, a second layer, the second layer including an electrically insulating material, and a third layer positioned between the first and second layer, the third layer having a first terminal extended electrically connecting tab that extends outward beyond the first layer and the second layer.

A protective film of a conductive adhesive, a circuit board and a method for assembling a display device are provided. The protective film of conductive adhesive includes: a basic material layer; and a photoinduced peelable adhesive and a protective layer which are arranged on a first surface of the basic material layer in sequence, and the photoinduced peelable adhesive has a low adhesive force in the exposure of light with a first wavelength. The protective film further includes a light-shielding film located on a second surface of the basic material layer opposite to the first surface.

Methods of fabricating tamper-respondent assemblies with bond protection are provided which include at least one tamper-respondent sensor having unexposed circuit lines forming, at least in part, one or more tamper-detect network(s), and the tamper-respondent sensor having at least one external bond region. The tamper-respondent assembly further includes at least one conductive trace and an adhesive. The conductive trace(s) forms, at least in part, the one or more tamper-detect network(s), and is exposed, at least in part, on the tamper-respondent sensor(s) within the external bond region(s). The adhesive contacts the conductive trace(s) within the external bond region(s) of the tamper-respondent sensor(s), and the adhesive, in part, facilitates securing the at least one tamper-respondent sensor within the tamper-respondent assembly. In enhanced embodiments, the conductive trace(s) is a chemically compromisable conductor susceptible to damage during a chemical attack on the adhesive within the external bond region(s).

A high density region for a low density circuit. At least a first liquid dielectric layer is deposited on the first surface of a first circuitry layer. The dielectric layer is imaged to create plurality of first recesses. Surfaces of the first recesses are plated electro-lessly with a conductive material to form first conductive structures electrically coupled to, and extending generally perpendicular to, the first circuitry layer. A plating resist is applied. A conductive material is electro-plated to the first conductive structure to substantially fill the first recesses, and the plating resist is removed.

A protective film of a conductive adhesive, a circuit board and a method for assembling a display device are provided. The protective film of conductive adhesive includes: a basic material layer; and a photoinduced peelable adhesive and a protective layer which are arranged on a first surface of the basic material layer in sequence, and the photoinduced peelable adhesive has a low adhesive force in the exposure of light with a first wavelength. The protective film further includes a light-shielding film located on a second surface of the basic material layer opposite to the first surface.