A device may include a flexible substrate. The device may further include a flexible integrated circuit within the flexible substrate, the integrated circuit having at least one input electrode positioned on a surface of the flexible substrate. The device may also include an aerosol jet printed conductive ink layer disposed on the surface of the flexible substrate, the aerosol-jet printed conductive ink layer having a pattern that includes a first set of fingers interdigitated with a second set of fingers, the aerosol jet printed conductive ink layer in contact with the at least one input electrode.

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 electronic device includes a component carrier with a component carrier body, an electrically conductive layer, and an adhesive structure. The electronic device further includes an electronic component which is arranged within the component carrier body. The adhesive structure is formed between a surface of the electronic component and the electrically conductive layer and covers only a part of the surface of the electronic component. A remaining part of the surface of the electronic component is covered with the component carrier body.

Disclosed herein is a printed circuit board (PCB) including an embedded electronic component, including: a core having a cavity; an electronic component inserted into the cavity having a rough surface formed on surfaces of external electrodes provided on both lateral portions thereof, a low rough surface being formed in a portion of the rough surfaces; insulating layers laminated on upper and lower portions of the core and bonded to an outer circumferential surface of the electronic component insertedly positioned in the cavity; and an external circuit pattern provided on the insulating layers.

An integrated circuit assembly may be fabricated having an electronic substrate, an integrated circuit device having a first surface, an opposing second surface, at least one side extending between the first surface and the second surface, and at least one through-substrate via extending into the integrated circuit device from the second surface, wherein the first surface of the integrated circuit device is electrically attached to the electronic substrate; and at least one power delivery route electrically attached to the second surface of the integrated circuit device and to the electronic substrate, wherein the at least one power delivery route is conformal to the side of the integrated circuit device and the first surface of the electronic substrate.

Method for the manufacture of a circuit board containing a component and circuit board containing a component. The invention is based on first manufacturing (101-102 or 101-103) an intermediate product, which contains the insulator layer of the circuit board and the components, which are set in place inside the insulator layer, in such a way that the contact elements of the components face the surface of the intermediate product. After this, the intermediate product is transferred to the circuit-board manufacturing line, on which a suitable number of conducting-pattern layers and, if necessary, insulator layers are manufactured (104) on one or both sides of the intermediate product, in such a way that, when manufacturing the first conducting-pattern layer, the conductor material forms an electrical contact with the contact elements of the components. Alternatively, stages (101-105) can also be performed on a single manufacturing line.

An embedded electronic package includes a stretchable body that includes at least one electronic component, wherein each electronic component includes a back side that is exposed from the stretchable body; and a plurality of meandering conductors that are electrically connected to one or more of the electronic components. In some forms, the embedded electronic package includes a stretchable body that includes an upper surface and a lower surface, wherein the stretchable body includes at least one electronic component, wherein each electronic component is fully embedded in the stretchable body and the same distance from the upper surface of the stretchable body; and a plurality of meandering conductors that are electrically connected to one or more of the electronic components.

This disclosure relates generally to devices, systems, and methods for making a flexible microelectronic assembly. In an example, a polymer is molded over a microelectronic component, the polymer mold assuming a substantially rigid state following the molding. A routing layer is formed with respect to the microelectronic component and the polymer mold, the routing layer including traces electrically coupled to the microelectronic component. An input is applied to the polymer mold, the polymer mold transitioning from the substantially rigid state to a substantially flexible state upon application of the input.

There is provided a printed circuit board including: a first insulating layer; a first circuit pattern formed on a first surface of the first insulating layer; an adhesive layer provided on a second surface of the first insulating layer; and an electronic component disposed on the adhesive layer and enclosed by the first insulating layer and a second insulating layer formed on the first insulating layer.

The present invention provides an electronic device which includes an electromagnetic shield, can keep down a production cost, can be made to have a reduced thickness, and has a high degree of freedom in designing a wiring circuit. Further, the present invention provides a method for producing such an electronic device. The electronic device (1A) includes at least one high frequency functional component (21), an electrically conductive member (10) which electromagnetically shields the at least one high frequency functional component (21), and a resin molded body (23) in which at least part of the high frequency functional component (21) and at least part of the electrically conductive member (10) are embedded and fixed.