A stacking structure is applicable to manufacturing a circuit board. The stacking structure includes a transferring layer and a dielectric layer disposed on the transferring layer. The transferring layer includes a substrate and a thin film disposed on the substrate and having a plurality of recess structures thereon. The recess structures are connected as a single piece and bottom portions and top portions of the recess structures are configured to arrange in a staggered manner to form a multi-dimensional arrangement. At least a portion of the dielectric layer being is located in the recess structures, such that the dielectric layer is at least embedded with the recess structures.

The purpose of the present invention is to provide a garment-type electronic device capable of reducing discomfort during the wearing in the garment-type electronic device comprising an electrical wiring using stretchable conductor composition. In a part in contact with a body surface of a garment-type electronic device, a level difference at the boundary between the electrode portion where the conductor is exposed and the wiring portion covered with the insulating cover layer is substantially eliminated, whereby a garment type electronic device with a natural wearing feeling in which discomfort during wearing has been reduced is obtained. Furthermore, by providing the projections and the depressions in the fabric texture on its surface, a more natural wearing feeling is obtained. Such a garment-type electronic device can be produced by a printing transfer method.

A method to remove slugs from a circuitry pattern on the fly during the fabrication of a flexible printed circuit, the method includes applying a coverlay reel-to-reel onto one side of the metal foil on the fly and applying a sacrificial liner reel-to-reel onto another side of the metal foil on the fly. Then, after the slugs and circuitry patterns are created from laser ablation, the slug can be removed by applying compressed air to the slugs and/or peeling off the sacrificial liner from the circuitry pattern reel-to-reel.

A component carrier which includes a stack having at least one electrically conductive layer structure and/or at least one electrically insulating layer structure, a deformed layer connected to and/or forming part of the stack and being bent so as to define accommodation volumes for components, and the components, wherein each of the components is accommodated in a respective one of the accommodation volumes.

A method for manufacturing a circuit board includes forming recess structures on a transferring layer; forming a dielectric layer on the transferring layer to form a stacking structure, in which the dielectric layer is at least embedded with the recess structures; bonding the stacking structure a base board by pressing, such that the dielectric layer is in contact with the base board; patterning the dielectric layer, including performing an exposure process on the stacking structure through the transferring layer; and after the exposure process is finished, removing the transferring layer.

A method for embedding a component in a printed circuit board or a printed circuit board intermediate product, wherein the printed circuit board or the printed circuit board intermediate product comprises at least one insulating layer made of a prepreg material, and the component is fixed by the resin of the prepreg material, is characterized by the following steps: providing a combination of the layers of the printed circuit board, or of the printed circuit board intermediate product, wherein this combination includes at least one curable prepreg material; creating a clearance in the combination for accommodating the component to be embedded; covering at least the region of the clearance with a first temporary carrier layer on a first side of the combination; positioning the component to be embedded in the clearance by way of the first temporary carrier layer; covering at least the region of the clearance on the second side of the combination with a second temporary carrier layer; compressing the combination with the component, curing the curable prepreg material; and removing the temporary carrier layers.

A method for embedding a component in a printed circuit board or a printed circuit board intermediate product, wherein the printed circuit board or the printed circuit board intermediate product comprises at least one insulating layer made of a prepreg material, and the component is fixed by the resin of the prepreg material, is characterized by the following steps: providing a combination of the layers of the printed circuit board, or of the printed circuit board intermediate product, wherein this combination includes at least one curable prepreg material; creating a clearance in the combination for accommodating the component to be embedded; covering at least the region of the clearance with a first temporary carrier layer on a first side of the combination; positioning the component to be embedded in the clearance by way of the first temporary carrier layer; covering at least the region of the clearance on the second side of the combination with a second temporary carrier layer; compressing the combination with the component, curing the curable prepreg material; and removing the temporary carrier layers.

A component carrier includes a core having a recess, at least one electronic component arranged in the recess, wherein a vertical thickness of the at least one electronic component is larger than a vertical thickness of the core, and an electrically insulating sheet covering at least part of a top main surface of the core, covering at least part of the at least one electronic component and filling a gap between a lateral surface of the at least one electronic component and a lateral surface of the core in the recess.

A method of manufacturing a circuit board or a circuit board intermediate product, wherein the method comprises providing a carrier structure, applying a layer of flowable low-viscosity adhesive on the carrier structure over a surface area of the carrier structure which is larger than a mounting area in which an electronic component is to be mounted on the carrier structure, and pressing the electronic component into a subsection of the layer of adhesive in the mounting area so that at least part of the electronic component is immersed within the adhesive.

Provided are a stretchable wire tape for a textile that can maintain high levels in all of stretchability, electrical conductivity, durability, an insulating property, and design and can also have a reduced production cost, wearable devices, and a method for producing textiles having wires. The stretchable wire tape for the textile includes a stretchable electrically conductive wire, and stretchable insulating films each including a first face and a second face opposite to the first face, the stretchable insulating films being bonded to opposite sides of the stretchable electrically conductive wire on their first faces. Since the stretchable insulating films are bonded to the opposite sides of the stretchable electrically conductive wire via bonding layers, durability and an insulating property can be secured while stretchability and electrical conductivity of the electrically conductive wire can be maintained, and design can also be improved.