A device for linearly moving bases with respect to an object, includes first and second bases, a linear scale provided with graduations at pitches in the moving direction, first and second encoder heads attached to the first and second bases, and a control unit. The control unit maintains an interval between the first and second encoder heads to be constant, and moves the first and second bases while sequentially detects a first and second graduation numbers, and calculates a distance on the scale between the first and second encoder heads by multiplying a difference between the first and second graduation numbers by the pitch, and calculates a position correction coefficient of the scale as a ratio of the interval with respect to the calculated distance, and controls the movement amount of the first movable body and the second movable body based on the position correction coefficient.

A collet for compressing an adhesive-attached chip, the collet including a main body having a first pressing surface to which a pressing force from a compressing device is directly transmitted, and a projecting portion projecting from the main body and having a second pressing surface provided along an outer circumference of the first pressing surface, the first pressing surface and the second pressing surface forming a holding surface for holding the adhesive-attached chip.

A collet for compressing an adhesive-attached chip, the collet including a main body having a first pressing surface to which a pressing force from a compressing device is directly transmitted, and a projecting portion projecting from the main body and having a second pressing surface provided along an outer circumference of the first pressing surface, the first pressing surface and the second pressing surface forming a holding surface for holding the adhesive-attached chip.

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.

An applying method includes the following steps. Firstly, a conductive adhesive including a plurality of conductive particles and an insulating binder is provided. Then, a carrier plate is provided. Then, a patterned adhesive is formed on the carrier plate by the conductive adhesive, wherein the patterned adhesive includes a first transferring portion. Then, a manufacturing device including a needle is provided. Then, the needle of the manufacturing device is moved to contact the first transferring portion. Then, the transferring portion is transferred to a board by the manufacturing device.

A bonding apparatus includes a body part; a vacuum hole disposed in the body part; a first protruding part protruding in a first direction from a first surface of the body part; a second protruding part protruding from the first surface of the body part in the first direction and spaced farther apart from a center of the first surface of the body part than the first protruding part in a second direction intersecting with the first direction; and a trench defined by the first surface of the body part and second surfaces of the first protruding part, the second surfaces protruding in the first direction from the first surface of the body part, and the trench being connected to the vacuum hole, wherein the second protruding part protrudes farther from the first surface of the body part in the first direction than the first protruding part.

A bonding head for a die bonding apparatus and a die bonding apparatus including the bonding head, the bonding head including a head body; a thermal pressurizer mounted on a lower surface of the head body, the thermal pressurizer being configured to hold and heat at least one die and including a heater having a first heating surface that faces a held surface of the die; and a thermal compensator at an outer region of the die, the thermal compensator extending downwardly from the lower surface of the head body and including at least one thermal compensating block having a second heating surface that emits heat from a heating source therein and that faces a side surface of the die held on the thermal pressurizer.

The present invention discloses a method for packaging a chip-on-film (COF). The method includes: S1, forming a plurality of first pins on a circuit surface of a flexible circuit substrate, and forming a plurality of second pins on a chip to be packaged; S2, arranging to keep the circuit surface always facing downwards, arranging to keep a surface of the chip to be packaged, where the second pins matching the first pins are arranged, always facing upwards, and arranging the first pins and the second pins, to be opposite to each other; and S3, applying a top-down pressure to the flexible circuit substrate, and/or applying a bottom-up pressure to the chip to be packaged, and simultaneously heating at high temperature to solder the first pins and the second pins in a fused eutectic manner. The method of the present invention improves the product yield and stability.

A substrate bonding apparatus includes a substrate susceptor to support a first substrate, a substrate holder over the substrate susceptor to hold a second substrate, the substrate holder including a plurality of independently moveable holding fingers, and a chamber housing to accommodate the substrate susceptor and the substrate holder.

An apparatus comprising a bonding nozzle that has one or more channels in a bonding surface. The one or more channels comprise a first channel portion in an inner region of the bonding surface and a second channel portion along an outer periphery of the bonding surface. The one or more channels are in fluid communication with a vacuum port. A vacuum relief conduit within the bonding nozzle comprises a first opening into the second channel portion along the outer periphery of the bonding surface, and a second opening along an exterior wall of the bonding nozzle.