A method of manufacturing an augmented LED array assembly is described which comprises providing an LED array assembly configured for inclusion in an LED lighting circuit, the LED array assembly comprising a micro-LED array mounted onto a driver integrated circuit, the driver integrated circuit comprising contact pads configured for electrical connections to a circuit board assembly; providing an essentially planar carrier comprising a plurality of contact bridges, each contact bridge extending between a first contact pad and a second contact pad; and mounting the contact bridge carrier to the LED array assembly by forming solder bonds between the first contact pads of the contact bridge carrier and the contact pads of the driver integrated circuit.

An LED array assembly may include a hybridized device and a flexible PCB. The hybridized device may include a micro-LED array mounted on a driver IC. The driver IC may include driver IC contact pads on a top surface of the driver IC. The flexible PCB may have a bottom surface, first contact pads on the bottom surface, second contact pads on the bottom surface, and contact bridges. Each of the contact bridges extends from one of the first contact pads to one of the second contact pads. Each of the driver IC contact pads is bonded to a corresponding one of the first contact pads of the flexible PCB.

A microelectronic package of the present description may comprises a first microelectronic device having at least one row of connection structures electrically connected thereto and a second microelectronic device having at least one row of connection structures electrically connected thereto, wherein the connection structures within the at least one first microelectronic device row are aligned with corresponding connection structures within the at least one second microelectronic device row in an x-direction. An interconnect comprising an interconnect substrate having a plurality of electrically isolated conductive traces extending in the x-direction on a first surface of the interconnect substrate may be attached to the at least one first microelectronic device connection structure row and the at least one second microelectronic device connection structure row, such that at least one interconnect conductive trace forms a connection between a first microelectronic device connection structure and its corresponding second microelectronic device connection structure.

A microelectronic package of the present description may comprises a first microelectronic device having at least one row of connection structures electrically connected thereto and a second microelectronic device having at least one row of connection structures electrically connected thereto, wherein the connection structures within the at least one first microelectronic device row are aligned with corresponding connection structures within the at least one second microelectronic device row in an x-direction. An interconnect comprising an interconnect substrate having a plurality of electrically isolated conductive traces extending in the x-direction on a first surface of the interconnect substrate may be attached to the at least one first microelectronic device connection structure row and the at least one second microelectronic device connection structure row, such that at least one interconnect conductive trace forms a connection between a first microelectronic device connection structure and its corresponding second microelectronic device connection structure.

A method of manufacturing an augmented LED array assembly is described which comprises providing an LED array assembly configured for inclusion in an LED lighting circuit, the LED array assembly comprising a micro-LED array mounted onto a driver integrated circuit, the driver integrated circuit comprising contact pads configured for electrical connections to a circuit board assembly; providing an essentially planar carrier comprising a plurality of contact bridges, each contact bridge extending between a first contact pad and a second contact pad; and mounting the contact bridge carrier to the LED array assembly by forming solder bonds between the first contact pads of the contact bridge carrier and the contact pads of the driver integrated circuit.

The invention relates to a semiconductor component with a chip, especially with a high-frequency switching circuit. The semiconductor component further comprises a metal body on the chip and a supplementary circuit board. The supplementary circuit board is provided on an underside facing away from the metal body for connection with a printed-circuit board by means of reflow soldering.