A die bonding system including a bond head assembly for bonding a die to a substrate is provided. The die includes a first plurality of fiducial markings, and the substrate includes a second plurality of fiducial markings. The die bonding system also includes an imaging system configured for simultaneously imaging one of the first plurality of fiducial markings and one of the second plurality of fiducial markings along a first optical path while the die is carried by the bond head assembly. The imaging system is also configured for simultaneously imaging another of the first plurality of fiducial markings and another of the second plurality of fiducial markings along a second optical path while the die is carried by the bond head assembly. Each of the first and second optical paths are independently configurable to image any area of the die including one of the first plurality of fiducial markings.

A flip-chip bonding method includes following operations. A wafer is provided with multiple semiconductor dies on an adhesive film held by a frame element. A semiconductor die is lifted up from the wafer by an ejector element. The semiconductor die is picked up with a collector element. The semiconductor die is flip-chipped with the collector element. An alignment check is performed to determine a position of the semiconductor die, so as to determine a process tolerance between a center of the collector element and a center of the semiconductor die. The semiconductor die with the collector element is transferred to a location underneath a bonder element based on the process tolerance of the alignment check. The semiconductor die is picked up from the collector element by the bonder element. The semiconductor die is bonded to a carrier by the bonder element.

A die bonding system including a bond head assembly for bonding a die to a substrate is provided. The die includes a first plurality of fiducial markings, and the substrate includes a second plurality of fiducial markings. The die bonding system also includes an imaging system configured for simultaneously imaging one of the first plurality of fiducial markings and one of the second plurality of fiducial markings along a first optical path while the die is carried by the bond head assembly. The imaging system is also configured for simultaneously imaging another of the first plurality of fiducial markings and another of the second plurality of fiducial markings along a second optical path while the die is carried by the bond head assembly. Each of the first and second optical paths are independently configurable to image any area of the die including one of the first plurality of fiducial markings.

The present disclosure relates to a semiconductor packaging alignment apparatus and a method thereof, and the semiconductor packaging alignment apparatus includes a radiation source that radiates radiation to a plurality of semiconductor chips, a radiation sensor that detects the radiation passing through the plurality of semiconductor chips, a head that is coupled with one of the radiation source or the radiation sensor, an alignment part that aligns and bonds the plurality of semiconductor chips based on detection information acquired by the radiation sensor, and a process that controls at least one of the radiation source, the head, the radiation sensor, or the alignment part, or any combination thereof.

A die bonding system including a bond head assembly for bonding a die to a substrate is provided. The die includes a first plurality of fiducial markings, and the substrate includes a second plurality of fiducial markings. The die bonding system also includes an imaging system configured for simultaneously imaging one of the first plurality of fiducial markings and one of the second plurality of fiducial markings along a first optical path while the die is carried by the bond head assembly. The imaging system is also configured for simultaneously imaging another of the first plurality of fiducial markings and another of the second plurality of fiducial markings along a second optical path while the die is carried by the bond head assembly. Each of the first and second optical paths are independently configurable to image any area of the die including one of the first plurality of fiducial markings.