An example of a printable electronic component includes a component substrate having a connection post side and an opposing contact pad side. The component can include one or more non-planar, electrically conductive connection posts protruding from the connection post side of the component substrate. Each of the one or more connection posts can have a peak area smaller than a base area. The component can include one or more non-planar, electrically conductive exposed component contact pads disposed on (e.g., directly on, indirectly on, or in) the contact pad side of the component substrate. Multiple components can be stacked such that connection post(s) of one are in contact with non-planar contact(s) of one or more others.

Processes for automatic registration between a solid circuit die and electrically conductive interconnects, and articles or devices made by the same are provided. The solid circuit die is disposed on a substrate with contact pads aligned with channels on the substrate. Electrically conductive traces are formed by flowing a conductive liquid in the channels toward the contact pads to obtain the automatic registration.

A semiconductor package includes a semiconductor die including a sensing component, an encapsulant extending along sidewalls of the semiconductor die, a through insulator via (TIV) and a dummy TIV penetrating through the encapsulant and disposed aside the semiconductor die, a patterned dielectric layer disposed on the encapsulant and exposing the sensing component of the semiconductor die, a conductive pattern disposed on the patterned dielectric layer and extending to be in contact with the TIV and the semiconductor die, and a first dummy conductive pattern disposed on the patterned dielectric layer and connected to the dummy TIV through an alignment opening of the first patterned dielectric layer. The semiconductor die is in a hollow region of the encapsulant, and a top width of the hollow region is greater than a width of the semiconductor die.

An electronic circuit device according to the present invention includes a base substrate having a wiring layer, at least one first electronic circuit element having a first surface fixed to the base substrate and having a connection part on a second surface opposed to the first surface, a re-distribution layer including a photosensitive resin layer, the photosensitive resin layer enclosing the first electronic circuit element on the base substrate and embedding a first wiring photo via, a second wiring photo via, and a wiring, the first wiring photo via electrically connected to the connection part of the first electronic circuit element, the second wiring photo via arranged at the outer periphery of the first electronic circuit element and electrically connected to a connection part of the wiring layer, the wiring arranged on the second surface and electrically connected to the first wiring photo via and the second wiring photo via.

The present disclosure provides a semiconductor device package. The semiconductor device package includes a first semiconductor device, a first conductive layer and a second conductive layer. The first semiconductor device has a first conductive pad. The first conductive layer is disposed in direct contact with the first conductive pad. The first conductive layer extends along a direction substantially parallel to a surface of the first conductive pad. The second conductive layer is disposed in direct contact with the first conductive pad and spaced apart from the first conductive layer.

A semiconductor device package includes a substrate and an electronic component disposed on the substrate. The electronic component has an active surface facing away from the substrate. The substrate has a first conductive pad and a second conductive pad disposed thereon. The electronic component has a first electrical contact and a second electrical contact disposed on the active surface. The semiconductor device package further includes a first metal layer connecting the first electrical contact with the first conductive pad, a second metal layer connecting the second electrical contact with the second conductive pad, a first seed layer disposed below the first metal layer; and a first isolation layer disposed between the first metal layer and the second metal layer. A method of manufacturing a semiconductor device package is also disclosed.

A semiconductor device package includes a substrate and an electronic component disposed on the substrate. The electronic component has an active surface facing away from the substrate. The substrate has a first conductive pad and a second conductive pad disposed thereon. The electronic component has a first electrical contact and a second electrical contact disposed on the active surface. The semiconductor device package further includes a first metal layer connecting the first electrical contact with the first conductive pad, a second metal layer connecting the second electrical contact with the second conductive pad, a first seed layer disposed below the first metal layer; and a first isolation layer disposed between the first metal layer and the second metal layer. A method of manufacturing a semiconductor device package is also disclosed.

An electronics package includes a support substrate, an electrical component having a first surface coupled to a first surface of the support substrate, and an insulating structure coupled to the first surface of the support substrate and sidewalls of the electrical component. The insulating structure has a sloped outer surface. A conductive layer encapsulates the electrical component and the sloped outer surface of the insulating structure. A first wiring layer is formed on a second surface of the support substrate. The first wiring layer is coupled to the conductive layer through at least one via in the support substrate.

Development of smart objects with electronic functions requires integration of printed components with IC chips or dies. Conventional chip or die bonding including wire bonding, flip chip bonding, and soldering may not be applicable to chip or die attachment on low temperature plastic surfaces used in physical objects. Printing conductive connection traces requires a smooth interface between contact pads of a chip and the surface of the physical object. In order to address this issue of chip/die attachment to a physical object, this disclosure provides embodiments to construct a fixture on a chip or die for attachment and electrical connection onto a physical object by printing operations and/or ACF bonding methods.

A fan-out semiconductor package may include a support member having a through-hole, a semiconductor chip disposed in the through-hole, a component embedded structure disposed adjacent to and spaced apart from the semiconductor chip in the through-hole by a predetermined distance, an encapsulant, and a connection member. The semiconductor chip has an active surface having connection pads disposed thereon and an inactive surface opposing the active surface. The component embedded structure has a plurality of passive components embedded therein. The encapsulant encapsulates at least portions of the support member, the component embedded structure, and the semiconductor chip. The connection member is disposed on the support member, the component embedded structure, and the active surface of the semiconductor chip. The connection member includes redistribution layers and vias electrically connecting the redistribution layers to the plurality of passive components and the connection pads of the semiconductor chip.