A substrate bonding apparatus for bonding a first substrate to a second substrate includes: a first bonding chuck including: a first base; a first deformable plate provided on the first base to support the first substrate; and a first pneumatic adjustor configured to deform the first deformable plate by adjusting a first pressure in a first cavity formed between the first deformable plate and the first base; and a second bonding chuck including: a second base; a second deformable plate provided on the second base to support the second substrate; and a second pneumatic adjustor configured to deform the second deformable plate by adjusting a second pressure in a second cavity formed between the second deformable plate and the second base. The first deformable plate is deformed such that a first distance between the first base and the first deformable plate is varied based on the first pressure, and the second deformable plate is deformed such that a second distance between the second base the second deformable plate is varied based on the second pressure.

A semiconductor device die transfer apparatus includes a first frame to hold a wafer tape having a plurality of semiconductor device die disposed on a side of the wafer tape and a second frame to secure a product substrate having a circuit trace thereon. The second frame is configured to secure the product substrate such that the circuit trace is disposed facing the plurality of semiconductor device die on the wafer tape. Additionally, a rotary transfer collet is disposed between the wafer tape and the product substrate. The rotary transfer collet has a rotational axis allowing rotation from a first position facing the wafer tape to pick a die of the plurality of semiconductor device die to a second position facing the circuit trace on the product substrate to release the die, thereby applying the die directly on the product substrate during a transfer operation.

Systems and methods for efficient transfer of elements are disclosed. A film which supports a plurality of diced integrated device dies can be provided. The plurality of diced integrated device dies can be disposed adjacent one another along a surface of the film. The film can be positioned adjacent the support structure such that the surface of the film faces a support surface of the support structure. The film can be selectively positioned laterally relative to the support structure such that a selected first die is aligned with a first location of the support structure. A force can be applied in a direction nonparallel to the surface of the film to cause the selected first die to be directly transferred from the film to the support structure.

The present invention relates to a transfer head gripping and transferring micro LEDs from a first substrate to a second substrate. More particularly, the present invention relates to a transfer head gripping and transferring micro LEDs in a batch manner without any error even when there is a height difference of the micro LEDs.

[Problem] To bond an electronic component on a substrate via an adhesive material satisfactorily.

[Solution] A bonding device 10 for thermally bonding an electronic component 100 to a substrate 110 or to another electronic component via an adhesive material 112, the bonding device being provided with: a bonding tool 40 comprising a bonding distal-end portion 42 which includes a bonding surface 44 and tapered side surfaces 46 formed in a tapering shape becoming narrower toward the bonding surface 44, the bonding surface 44 having a first suction hole 50 for suction-attaching the electronic component 100 via an individual piece of a porous sheet 130, the tapered side surfaces 46 having second suction holes 52, 54 for suction-attaching the porous sheet 130; and a bonding control unit 30 which controls the first suction hole 50 and the second suction holes 52, 54 independently from each other.

A method for bonding a semiconductor package includes loading a semiconductor chip on a substrate, and bonding the semiconductor chip to the substrate by using a bonding tool, the bonding tool including a pressing surface for pressing the semiconductor chip, and an inclined surface extending from one side of the pressing surface. Bonding the semiconductor chip to the substrate includes deforming a bonding agent disposed between the substrate and the semiconductor chip by pressing the bonding tool, and deforming the bonding agent includes generating a fillet by protruding a portion of the bonding agent beyond the semiconductor chip, and growing the fillet in such a way that a top surface of the fillet is grown in an extending direction of the inclined surface.

This bonding apparatus is provided with: a bonding mechanism which has a bonding surface that holds a semiconductor die in a detachable manner, with a film being interposed therebetween, and a heater that applies heat to the bonding surface; a film conveyance mechanism which supplies the film to the bonding surface; a remover bar which is able to enter between the film and the bonding surface; and a drive unit which drives the remover bar.

A substrate bonding apparatus for bonding a first substrate to a second substrate includes: a first bonding chuck including: a first base; a first deformable plate provided on the first base to support the first substrate; and a first pneumatic adjustor configured to deform the first deformable plate by adjusting a first pressure in a first cavity formed between the first deformable plate and the first base; and a second bonding chuck including: a second base; a second deformable plate provided on the second base to support the second substrate; and a second pneumatic adjustor configured to deform the second deformable plate by adjusting a second pressure in a second cavity formed between the second deformable plate and the second base. The first deformable plate is deformed such that a first distance between the first base and the first deformable plate is varied based on the first pressure, and the second deformable plate is deformed such that a second distance between the second base the second deformable plate is varied based on the second pressure.

A bonding head for performing a thermal compression process including a base body. A bonding heater is disposed on the base body that generates a melting heat. A bonding tool is disposed on the bonding heater that compresses a bonding object against a bonding base while transferring the melting heat to the bonding object to thereby bond the bonding object to the bonding base by the thermal compression process. A heat controller is disposed at the bonding tool, and a thermal conductivity of the heat controller is less than a thermal conductivity of the bonding tool.

A bonding head for performing a thermal compression process including a base body. A bonding heater is disposed on the base body that generates a melting heat. A bonding tool is disposed on the bonding heater that compresses a bonding object against a bonding base while transferring the melting heat to the bonding object to thereby bond the bonding object to the bonding base by the thermal compression process. A heat controller is disposed at the bonding tool, and a thermal conductivity of the heat controller is less than a thermal conductivity of the bonding tool.