A manufacturing apparatus of a semiconductor device includes a stage, a mounting tool, a pressing mechanism, and a controller. The pressing mechanism moves the mounting tool in a vertical direction and applies a load to a chip. The controller is configured to perform a first process and a detection process. In the first process, after bringing the chip into contact and until a bump melts, the chip is heated by the mounting tool and a command position of the pressing mechanism is constantly updated so that a positional deviation is constant. In the detection process, melting of the bump is detected based on a decrease in the pressing load.

According to one embodiment, in a semiconductor manufacturing apparatus, a controller relatively moves a bonding tool and a stage close to each other while causing a semiconductor chip to adhere by suction to a surface via a tape using at least a first suction structure in a first period. In a second period, the controller controls the temperature of the bonding tool to a first target temperature while keeping substantially equal to a target pressure a pressure applied to the semiconductor chip by the bonding tool. In a third period, the controller controls a relative distance between the bonding tool and the stage so that the pressure applied to the semiconductor chip by the bonding tool is kept equal to the target pressure and controls the temperature of the bonding tool to a second target temperature. The second target temperature is higher than the first target temperature.

According to one embodiment, in a semiconductor manufacturing apparatus, a controller relatively moves a bonding tool and a stage close to each other while causing a semiconductor chip to adhere by suction to a surface via a tape using at least a first suction structure in a first period. In a second period, the controller controls the temperature of the bonding tool to a first target temperature while keeping substantially equal to a target pressure a pressure applied to the semiconductor chip by the bonding tool. In a third period, the controller controls a relative distance between the bonding tool and the stage so that the pressure applied to the semiconductor chip by the bonding tool is kept equal to the target pressure and controls the temperature of the bonding tool to a second target temperature. The second target temperature is higher than the first target temperature.

An apparatus having a seal plate which includes rigid hard portions and one or more flexible soft portions located between the hard portions is used for bonding at least one semiconductor device onto a substrate that is supported on a platform. The seal plate is movable between a first position which is spaced from the substrate and a second position whereat a first side of the seal plate is configured to be in contact with the substrate. A diaphragm covers a second side of the seal plate opposite to the first side. A fluid pressure generator exerts a fluid pressure onto the diaphragm to actuate the diaphragm to compress the one or more soft portions to transmit a bonding force onto the at least one semiconductor device during bonding.

A bonding tool and a bonding method are provided. The method includes attaching a semiconductor die to a bonding tool having a first surface, wherein the bonding tool comprises a bending member movably arranged in a trench of the bonding tool, and the bending member protrudes from the first surface and bends the semiconductor die; moving the semiconductor die toward a semiconductor wafer to cause a retraction of the bending member and a partial bonding at a portion of the semiconductor die and the semiconductor wafer; and causing a full bonding between the semiconductor die and the semiconductor wafer subsequent to the partial bonding.

A chip bonding apparatus, includes: a body; a substrate conveyor installed on the body to transfer a substrate; a bonding head conveyor disposed on an upper surface of the body; an alignment unit installed on the body and adjusting a position of the substrate and a position of a chip; and a bonding head installed in the bonding head conveyor and moved and attaching a chip therebelow, wherein the bonding head is provided with a chip bonding unit for attaching the chip in a lower end portion thereof, wherein the chip bonding unit, includes: a chip bonding unit body having an installation groove formed therein; a pushing module having one end portion inserted in the installation groove; and an attachment module having a deformable member deformed by the pushing module; wherein the deformable member is provided with a deformable portion which is deformed by being pressed by the pushing module, and having a bottom surface in contact and exerting a force on the chip to bond the chip to the substrate.

A bonding apparatus comprises a chip holding part that disposes a chip part onto a substrate that has been placed on a substrate stage. The bonding apparatus adjusts the inclination of a chip holding surface that releasably holds the chip part. The bonding apparatus comprises: an adjustment controller which stores inclination information pertaining to inclination respectively for locations on a stage main surface having the substrate placed thereon; and a conforming jig which has a conforming surface onto which the chip holding surface is pressed, and in which the inclination of the conforming surface can be changed such that the inclination of the chip holding surface corresponds to the inclination indicated by the inclination information.

A component mounting apparatus crimps a component to a transparent substrate. The component is mounted on the transparent substrate through a photo-modifiable resin portion. The component mounting apparatus includes a receiving portion that receives a surface of the substrate by an upper surface of a transparent member, a pressing portion that presses the component against the substrate, an emission portion that emits light to the photo-modifiable resin portion through the transparent member, and a control portion that controls a timing when the pressing portion starts pressing of the component and a timing when the emission portion starts emission of the light so that the emission of the light is started a predetermined differential time earlier or later than the start of the pressing of the component.

An apparatus for bonding a semiconductor chip to a package substrate, the apparatus comprising: a die-bonding unit configured to attach the semiconductor chip to the package substrate; a load-measuring unit installed at the die-bonding unit, the load-measuring unit including a panel having a plurality of regions and a plurality of load-measuring members with at least one load-measuring member arranged in each of the regions of the panel to measure load values applied to each of the regions; and a controller configured to determine a load and a flatness of the semiconductor chip based on the load values measured by the load-measuring members.

An apparatus having a seal plate which includes rigid hard portions and one or more flexible soft portions located between the hard portions is used for bonding at least one semiconductor device onto a substrate that is supported on a platform. The seal plate is movable between a first position which is spaced from the substrate and a second position whereat a first side of the seal plate is configured to be in contact with the substrate. A diaphragm covers a second side of the seal plate opposite to the first side. A fluid pressure generator exerts a fluid pressure onto the diaphragm to actuate the diaphragm to compress the one or more soft portions to transmit a bonding force onto the at least one semiconductor device during bonding.