Abstract: A component carrier includes a stack having at least one electrically conductive layer structure and/or at least one electrically insulating layer structure; a component embedded in the stack so that a gap of less than 100 ?m, in particular less than 60 ?m, remains between at least one sidewall of the component and a sidewall of an adjacent one of the layer structures or a further component embedded in the stack; and a filler medium including filler particles, wherein the filler medium at least partially fills the gap. In addition, a method of manufacturing a component carrier is provided.

Abstract: A semi-flex component carrier includes a stack with at least one electrically insulating layer structure and/or at least one electrically conductive layer structure. The stack defines at least one rigid portion and at least one semi-flexible portion, and a component embedded in the at least one rigid portion. The at least one electrically insulating layer structure of the stack has a mechanical buffer structure surrounding at least part of the component and has a lower value of the Young modulus than other electrically insulating material of the stack.

Abstract: A semi-flex component carrier includes a stack having at least one electrically insulating layer structure and/or at least one electrically conductive layer structure. The stack defines at least one rigid portion and at least one semi-flexible portion. The at least one electrically insulating layer structure forms at least part of the semi-flexible portion and includes a material having an elongation of larger than 3% and a Young modulus of less than 5 GPa.

Abstract: A method of manufacturing a component carrier is described. The method includes forming a stack with at least one electrically conductive layer structure and at least one electrically insulating layer structure, and reducing an amount of solvent in a fiber-free dielectric layer, which is directly connected to a metal layer, so that the dielectric layer with reduced amount of solvent remains at least partially uncured.

Abstract: A method of manufacturing a component carrier is described. The method includes forming a stack having at least one electrically conductive layer structure and/or at least one electrically insulating layer structure, and cutting out the component carrier from the stack along a closed circumferential laser cutting trajectory by a pulsed laser beam having a pulse length of less than 1 ns.

Abstract: A semi-flexible component carrier includes a stack having at least one electrically conductive layer structure and at least one electrically insulating layer structure The layer structures are stacked on top of each other in a stacking direction s. A recess extends from a first main surface of the stack into the stack and extends only partially into one of the at least one electrically insulating layer structure so that an electrically insulating layer structure having a stepped portion is formed. The stepped portion provides a flexible region of the stack with respect to a rigid region of the stack.

Abstract: A component carrier and a method of manufacturing a component carrier are provided. The component carrier includes a stack having a front side and a back side, the stack including a plurality of stacked electrically insulating layer structures, a through hole being narrower in its inner portion compared to its exterior portions and extending through the plurality of electrically insulating layer structures so that sidewalls of each of the electrically insulating layer structures delimit respective parts of the through hole, and an electrically conductive filling medium filling at least a part of the through hole.

Abstract: A method of manufacturing a component carrier is disclosed. The method includes providing a stack having at least one electrically conductive layer structure and/or at least one electrically insulating layer structure, embedding a component in the stack, drilling a blind hole in the stack towards the embedded component, and thereafter extending the blind hole by etching to thereby expose a surface portion of the embedded component.

Abstract: An electronic package having a base structure; a layer stack formed over the base structure; and a component embedded at least partially within the base structure and/or within the layer stack. The layer stack has a decoupling layer structure, the decoupling layer structure with a decoupling material having a Young Modulus being smaller than 1 GPa.

Abstract: A method of manufacturing a component carrier includes providing a laminated stack with at least one electrically conductive layer structure and/or at least one electrically insulating layer structure, at least partially covering a component with a transition layer having a thickness in a range from 0.5 nm to 1 ?m, and assembling the component with the stack.

Abstract: A component carrier includes a stack having at least one electrically conductive layer structure, a first electrically insulating layer structure and a second electrically insulating layer structure. The first electrically insulating layer structure is made of a material which has first physical properties. The second electrically insulating layer structure is made of another material which has second physical properties differing from the first physical properties. The first electrically insulating layer structure and the second electrically insulating layer structure are at least partially in direct physical contact with each other. A method of manufacturing a component carrier is also disclosed.

Abstract: An arrangement, a method of manufacturing component carriers and a component carrier are provided. The arrangement includes a central carrier structure having a front side and a back side, a first layer stack having a first surface structure made of another material than the interior of the first layer stack and covered by a first release layer which is attached to the front side, and a second layer stack covered by a second release layer which is attached to the back side.

Abstract: A component carrier includes a stack having at least one electrically conductive layer structure and/or at least one electrically insulating layer structure. At least part of the at least one electrically insulating layer structure comprises or consists of a material having a curing shrinkage value of less than 2%.

Abstract: A method includes providing an electrically conductive layer structure on top of an electrically insulating layer structure, forming a window in the electrically conductive layer structure and removing material of the electrically insulating layer structure below the window by a first laser beam, and subsequently removing further material of the electrically insulating layer structure below the window by a second laser beam having a smaller size than a size of the window.

Abstract: A method of processing component carriers includes supplying a plurality of arrays, each comprising a plurality of component carriers, to a human operator for optical inspection, displaying a respective array on a display, and providing a user interface enabling the human operator to input a judgment concerning a quality classification of a displayed array without a mandatory manual handling of the array by the human operator.

Abstract: A method of manufacturing component carriers is disclosed. The method includes supplying a panel with a plurality of semifinished component carriers, to an automatic optical inspection unit for automatic optical inspection by comparison of a data set indicative of an actual image of a respective semifinished component carrier with a data set indicative of a reference image, forwarding the inspected panel to an automatic judgment unit for carrying out a quality classification of the semifinished component carriers, based on a result of the automatic optical inspection, by applying artificial intelligence, and taking an action based on the quality classification.

Abstract: A component carrier includes an electrically insulating layer structure having a first main surface and a second main surface with a through hole extending through the electrically insulating layer structure between the first main surface and the second main surface. An electrically conductive bridge structure connects opposing sidewalls of the electrically insulating layer structure delimiting the through hole. A vertical thickness of the electrically insulating layer structure is not more than 200 ?m and a narrowest vertical thickness of the bridge structure is at least 20 ?m.

Abstract: A component carrier includes an electrically insulating layer structure, a first electrically conductive layer structure, a second electrically conductive layer structure, and a laser through-hole with an electrically conductive medium filling at least part of the through-hole. The first electrically conductive layer structure covers a first side of the electrically insulating layer structure and has a first window extending through the first electrically conductive layer structure formed by etching using a conformal mask. The second electrically conductive layer structure covers an opposed side of the electrically insulating layer structure and has a second window extending through the second electrically conductive layer structure formed by etching using a conformal mask. The laser through-hole extends through the electrically insulating layer structure. At least a portion of at least one sidewall of the electrically conductive layer structures delimiting the windows is tapered.

Abstract: A component carrier includes a stack with at least one electrically conductive layer structure and at least one electrically insulating layer structure, a component embedded in the stack, and a via formed in the at least one electrically insulating layer structure along a horizontal path having a length being larger than a horizontal width.

Abstract: A component carrier and a method of manufacturing a component carrier are provided. The component carrier includes a stack having a front side and a back side, the stack including a plurality of stacked electrically insulating layer structures, a through hole being narrower in its inner portion compared to its exterior portions and extending through the plurality of electrically insulating layer structures so that sidewalls of each of the electrically insulating layer structures delimit respective parts of the through hole, and an electrically conductive filling medium filling at least a part of the through hole.