A manufacturing apparatus of a semiconductor device includes: a stage; a bonding head, including a mounting tool, a tool heater, and a lifting and lowering mechanism; and a controller performing bonding processing. The controller performs, in the bonding processing: first processing in which, after a chip is brought into contact with a substrate, as heating of the chip is started, the chip is pressurized against the substrate; distortion elimination processing in which, after the first processing and before melting of a bump, the lifting and lowering mechanism is driven in a lifting direction, thereby eliminating distortion of the bonding head; and second processing in which, after the distortion elimination processing, position control is performed on the lifting and lowering mechanism so as to cancel thermal expansion and contraction of the bonding head, thereby maintaining a gap amount at a specified target value.

This semiconductor device manufacturing device comprises: a stage; a bonding head; a copying mechanism provided on the bonding head; and a controller that executes the copying process to adjust a facing surface to be parallel to a reference plane by having the facing surface, which is a holding surface or a chip end face, follow the reference plane 110, which is a planar surface of the stage or a substrate. In the copying process, the controller moves the bonding head relative to the surface direction of the reference plane with the facing surface left abutting the reference plane in a state with the copying mechanism switched to a free state, until the axial direction position of the bonding head reaches a stipulated reference position, and when the axial direction position reaches the reference position, switches the copying mechanism to a locked state.

The present disclosure provides a method for manufacturing a semiconductor package. The method includes disposing a first semiconductor substrate on a temporary carrier and dicing the first semiconductor substrate to form a plurality of dies. Each of the plurality of dies has an active surface and a backside surface opposite to the active surface. The backside surface is in contact with the temporary carrier and the active surface faces downward. The method also includes transferring one of the plurality of dies from the temporary carrier to a temporary holder. The temporary holder only contacts a periphery portion of the active surface of the one of the plurality of dies.

A method for forming a package structure is provided. The method includes transporting a first package component into a processing chamber. The method includes positioning the first package component on a chuck table. The method includes using the chuck table to heat the first package component. The method includes holding a second package component with a bonding head. The bonding head communicates with a plurality of vacuum devices via a plurality of vacuum tubes, and the vacuum devices each operate independently. The method also includes bonding the first package component and the second package component in the processing chamber to form the package structure.

The present invention relates to the technical field of chip fixtures. Disclosed is a chip mounting fixture, comprising: a fixture body, wherein the fixture body is provided with chip slots which are uniformly distributed in an array and are used for accommodating chips, recessed wire slots are formed at the chip slots, and the wire slots extend to the outer sides of the chip slots. The present invention facilitates taking out a processed chip product, and the operation mode is convenient.

Provided is a mounting apparatus including a mounting controller, which adjusts a position of a mounting tool such that a mounted surface of a mounting body is at a same height as an index surface of a calibration index, which is arranged to be imageable by an bottom-up imaging unit and an overhead imaging unit that adopts a Scheimpflug optical system, recognizes a reference position of the mounting body based on a bottom-up image output by causing the bottom-up imaging unit to image the mounting surface, adjusts a position of a stage such that a mounting surface of a planned placement region is at the same height as the index surface, and mounts the mounting surface on the mounted surface based on the recognized reference position.

An electronic component bonding machine is provided. The electronic component bonding machine includes: a support structure for supporting a substrate; a bond head assembly for holding an electronic component, and for bonding the electronic component to the substrate; and a measuring system for measuring a distance between (i) an upper target on the electronic component bonding machine and (ii) a lower target on the electronic component bonding machine, the upper target including at least one of a portion of the bond head assembly and the electronic component, the lower target including at least one of a portion of the support structure and the substrate.