A chip embedded substrate includes: an insulating layer having outer layer circuit patterns provided on any one of an upper surface and a lower surface thereof; a chip embedded in the insulating layer; and internal circuit patterns included in the insulating layer and disposed between a height of a top surface of the chip and a height of a bottom surface thereof.

A substrate with an electronic component embedded therein includes: a core structure having a cavity; a metal layer disposed on a bottom surface of the cavity of the core structure; and an electronic component disposed on the metal layer in the cavity of the core structure. The substrate with the electronic component embedded therein has an excellent heat dissipation effect.

A method of forming an electronics assembly includes providing a substrate, attaching an electronics component to the substrate, disposing one or more dielectric ramps on the substrate along at least a portion of a perimeter of the electronics component, disposing a first ground plane over the substrate and the dielectric ramp(s), disposing a first dielectric over the first ground plane, disposing a stripline over the first dielectric, disposing a second dielectric over the stripline and the first dielectric, and disposing a second ground plane over the second dielectric.

A camera module is provided, including a lens driving mechanism, a lens unit, a circuit board, and an image sensor. The lens unit is disposed on the lens driving mechanism. The image sensor is disposed on the circuit board. The circuit board includes a metal member, an insulation layer, and a metal wire. The insulation layer is disposed between the metal member and the metal wire, and the metal wire is electrically connected to the image sensor. The lens driving module can drive the lens unit to move relative to the image sensor. The image sensor can catch the light through the lens unit.

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.

A circuit board includes an inorganic material insulating layer, a first circuit pattern layer formed on a surface of the inorganic material insulating layer, a first build-up insulating layer formed on the inorganic material insulating layer and formed of an organic material, and a second circuit pattern layer formed on a surface of the first build-up insulating layer.

An electrical component for embedding into a carrier comprises a ceramic main body, an electrically insulating passivation layer which is applied to the main body, and at least one inner electrode. In addition, the electrical component comprises an outer electrode which is connected to the inner electrode, wherein the outer electrode comprises a first electrode layer comprising a metal and a second electrode layer which is arranged on the latter and comprises copper.

A component carrier for carrying electronic components, wherein the component carrier comprises an at least partially electrically insulating core, at least one electronic component embedded in the core, and a coupling structure with at least one electrically conductive through-connection extending at least partially therethrough and having a component contacting end and a wiring contacting end, wherein the at least one electronic component is electrically contacted directly to the component contacting end, wherein at least an exterior surface portion of the coupling structure has homogeneous ablation properties and is patterned so as to have surface recesses filled with an electrically conductive wiring structure, and wherein the wiring contacting end is electrically contacted directly to the wiring structure.

A method of manufacturing a component carrier, includes providing a base structure having a main surface that is at least partially covered by a component fixation structure; providing a component, the component intrinsically comprising warpage; mounting the component on a surface provided on a plate structure and/or on the base structure to remove the warpage of the component at least partially; and fixating the component to the component carrier through the component fixation structure.

A component package includes a printed circuit board; a first electronic component disposed in a first region on the printed circuit board; a second electronic component disposed in a second region on the printed circuit board; and a metal wall disposed on the printed circuit board and spatially partitioning the first region and the second region on a plane. The metal wall is directly connected to the printed circuit board.