A semiconductor package includes a printed circuit board (PCB), a semiconductor device, an interposer, and a conductive adhesive. The PCB has a top surface with at least one ground area formed thereon. The semiconductor device has a bottom surface with at least one first first-type contact formed thereon. The interposer is located between the semiconductor device and the PCB. The bottom surface of the semiconductor device is adhered to a top surface of the interposer by the conductive adhesive. The conductive adhesive overflows from an edge of the top surface of the interposer to have contact with the at least one ground area on the top surface of the PCB.

A terrestrial vehicle lighting module which includes an electroluminescent source including at least one electroluminescent element, an electronic device designed to control the electroluminescent element, and an interposer electrically connecting the electroluminescent source and the electronic device.

The disclosure discloses an optoelectronic element comprising: an optoelectronic unit comprising a first metal layer, a second metal layer, and an outermost lateral surface; an insulating layer having a first portion overlapping the optoelectronic unit and extending beyond the lateral surface, and a second portion separated from the first portion in a cross-sectional view; and a first conductive layer formed on the insulating layer.

A semiconductor package is provided. The semiconductor package comprising a first redistribution structure comprising a first redistribution pattern; a first semiconductor chip on the first redistribution structure, the first semiconductor chip comprising a semiconductor substrate comprising a first surface and a second surface, a first back end of line (BEOL) structure on the first surface of the semiconductor substrate and comprising a first interconnect pattern, and a second BEOL structure on the second surface of the semiconductor substrate and comprising a second interconnect pattern; a molding layer covering a sidewall of the first semiconductor chip; a second redistribution structure on the first semiconductor chip and the molding layer and comprising a second redistribution pattern electrically connected to the second interconnect pattern.

A semiconductor package is provided. The semiconductor package comprising a first redistribution structure comprising a first redistribution pattern; a first semiconductor chip on the first redistribution structure, the first semiconductor chip comprising a semiconductor substrate comprising a first surface and a second surface, a first back end of line (BEOL) structure on the first surface of the semiconductor substrate and comprising a first interconnect pattern, and a second BEOL structure on the second surface of the semiconductor substrate and comprising a second interconnect pattern; a molding layer covering a sidewall of the first semiconductor chip; a second redistribution structure on the first semiconductor chip and the molding layer and comprising a second redistribution pattern electrically connected to the second interconnect pattern.

A component carrier has a stack including at least one electrically conductive layer structure and/or at least one electrically insulating layer structure. A component is embedded in the stack. The component includes a redistribution structure with at least one vertically protruding electrically conductive pad, and an electrically conductive material on at least part of said at least one pad. A method of manufacturing a component carrier is also disclosed.

Driving arrays of diodes. At least some of the example embodiments are methods of driving an array of diodes including: charging an inductor to increase an inductor current, the charging ceases when the inductor current reaches a predetermined threshold; driving the inductor current through a first portion of the array of diodes, the driving ceases prior to the inductor current reaching zero; and recirculating the inductor current through the inductor until a next charging event.

A semiconductor package is provided. The semiconductor package comprising a first redistribution structure comprising a first redistribution pattern; a first semiconductor chip on the first redistribution structure, the first semiconductor chip comprising a semiconductor substrate comprising a first surface and a second surface, a first back end of line (BEOL) structure on the first surface of the semiconductor substrate and comprising a first interconnect pattern, and a second BEOL structure on the second surface of the semiconductor substrate and comprising a second interconnect pattern; a molding layer covering a sidewall of the first semiconductor chip; a second redistribution structure on the first semiconductor chip and the molding layer and comprising a second redistribution pattern electrically connected to the second interconnect pattern.

In an embodiment a method includes providing a semiconductor chip having a plurality of contact pins, at least one positioning pin and an underside, wherein the contact pins and the positioning pin protrude from the underside, respectively, wherein the contact pins are configured for making electrical contact with the semiconductor chip, wherein the positioning pin narrows in a direction away from the underside, and wherein the positioning pin protrudes further from the underside than the contact pins, providing a connection carrier having a plurality of contact recesses, at least one positioning recess and an upper side, wherein each contact recess is at least partially filled with a solder material, heating the solder material in the contact recesses to a joining temperature at which the solder material at least partially melts and placing the semiconductor chip on the connection carrier, wherein each contact pin is inserted into a contact recess and the positioning pin is inserted into the positioning recess.

Diode drivers, LIDAR systems, and methods for driving arrays of diodes. The diode driver includes a plurality of driver terminals, a plurality of row switches, a high-side switch, a low-side switch, a shorting switch, and a controller. Each of the plurality of row switches is coupled to an inductor and one of the plurality of driver terminals. The controller is configured to close the high-side switch, close the shorting switch, and open the low-side switch to increase an inductor current through the inductor. The controller is also configured to close a first row switch of the plurality of row switches. The controller is further configured to open the high-side switch, close the low-side switch, and open the shorting switch to drive the inductor current to a first driver terminal of the plurality of driver terminals. The controller is also configured to close the shorting switch to recirculate the inductor current.