A wire bonding apparatus (100) includes a bonding stage (12), a bonding head (20), an XY driving mechanism (30), and a frame (50). The XY driving mechanism (30) includes: an X-direction guide (31) installed to the frame (50); an X-direction slider (32), supported by the X-direction guide (31) and moving in the X direction, an X-direction mover (41) being installed thereto; a Y-direction guide (33) installed to a lower side of the X-direction slider (32); and a Y-direction slider (34), supported by the Y-direction guide (33) and moving in the Y direction, the bonding head (20) being installed thereto. The XY driving mechanism (30) is installed to the frame (50), so that a portion of the Y-direction guide (33) is overlapped with a mounting surface (12a) of a bonding stage (12) above the mounting surface (12a) and behind the mounting stage (12) in the Y direction.

A bonding apparatus has a bonding tool for bonding a wire to a bonding surface, a bonding tool retainer configured to releasably retain the bonding tool, a bonding tool holder configured to hold at least one bonding tool, a bonding tool manipulator configured to transfer said bonding tool between said bonding tool holder and said bonding tool retainer, and a bonding tool guide configured to guide said bonding tool to be received by said bonding tool retainer during transfer by said bonding tool manipulator.

A wire bonding method for connecting a wire to two different surfaces by bonding with a single wire bonding step. The wire bonding method includes: bonding one end of a wire fed from a distal end of a capillary to a first bonding surface; moving the capillary in the Z direction; moving the capillary the X and/or Y direction; moving the capillary in the X, Y, and/or Z direction, a plurality of times; moving the capillary to a highest position; and bonding another end of the wire to the second bonding surface. The wire bonding method includes, at any timing, rotating the first bonding surface about a rotation axis to move the second bonding surface to a position capable of bonding. An angle formed by the first bonding surface and the second bonding surface on a side where the wire is stretched is 200° or more.

A wire bonding apparatus includes: a first tensioner which forms, nearer a wire supply side than a bonding tool, a first gas flow for applying a tension toward the wire supply side on a wire; a second tensioner which forms, between the first tensioner and a pressing part of the bonding tool, a second gas flow for applying a tension toward the wire supply side on the wire; and a control part which controls the first tensioner and the second tensioner. The control part implements control, in a predetermined period after a first bonding step for bonding the wire to a first bonding point, to turn off at least the second gas flow of the second tensioner among the first tensioner and the second tensioner or to make at least the second gas flow smaller than in the first bonding step.

A wire bonding apparatus includes: a first tensioner which forms, nearer a wire supply side than a bonding tool, a first gas flow for applying a tension toward the wire supply side on a wire; a second tensioner which forms, between the first tensioner and a pressing part of the bonding tool, a second gas flow for applying a tension toward the wire supply side on the wire; and a control part which controls the first tensioner and the second tensioner. The control part implements control, in a predetermined period after a first bonding step for bonding the wire to a first bonding point, to turn off at least the second gas flow of the second tensioner among the first tensioner and the second tensioner or to make at least the second gas flow smaller than in the first bonding step.

The disclosure includes: a first lifting step for bonding a wire at a first position (13) with a capillary and for lifting the capillary up to a first height H1 while feeding the wire; a circular arc lifting step for carrying out a circular arc motion for moving the capillary in a circular arc toward a second position (14) by a first distance (L5), and then carrying out a lifting motion for lifting the capillary while feeding the wire; a circular arc motion step for moving the capillary in a circular arc toward the first position (13) by a second distance (L3+L4); a second lifting step for lifting the capillary up to a second height H4; and a looping step for looping the capillary to the second position (14), thereby forming a wire loop having a predetermined height on a substrate by bonding the wire at the second position (14).

A bonding apparatus has a bonding tool for bonding a wire to a bonding surface, a bonding tool retainer configured to releasably retain the bonding tool, a bonding tool holder configured to hold at least one bonding tool, a bonding tool manipulator configured to transfer said bonding tool between said bonding tool holder and said bonding tool retainer, and a bonding tool guide configured to guide said bonding tool to be received by said bonding tool retainer during transfer by said bonding tool manipulator.

A wire bonding method for connecting a wire to two different surfaces by bonding with a single wire bonding step. The wire bonding method includes: bonding one end of a wire fed from a distal end of a capillary to a first bonding surface; moving the capillary in the Z direction; moving the capillary the X and/or Y direction; moving the capillary in the X, Y, and/or Z direction, a plurality of times; moving the capillary to a highest position; and bonding another end of the wire to the second bonding surface. The wire bonding method includes, at any timing, rotating the first bonding surface about a rotation axis to move the second bonding surface to a position capable of bonding. An angle formed by the first bonding surface and the second bonding surface on a side where the wire is stretched is 200? or more.

A wire bonding apparatus (100) includes a bonding stage (12), a bonding head (20), an XY driving mechanism (30), and a frame (50). The XY driving mechanism (30) includes: an X-direction guide (31) installed to the frame (50); an X-direction slider (32), supported by the X-direction guide (31) and moving in the X direction, an X-direction mover (41) being installed thereto; a Y-direction guide (33) installed to a lower side of the X-direction slider (32); and a Y-direction slider (34), supported by the Y-direction guide (33) and moving in the Y direction, the bonding head (20) being installed thereto. The XY driving mechanism (30) is installed to the frame (50), so that a portion of the Y-direction guide (33) is overlapped with a mounting surface (12a) of a bonding stage (12) above the mounting surface (12a) and behind the mounting stage (12) in the Y direction.

The disclosure includes: a first lifting step for bonding a wire at a first position (13) with a capillary and for lifting the capillary up to a first height H1 while feeding the wire; a circular arc lifting step for carrying out a circular arc motion for moving the capillary in a circular arc toward a second position (14) by a first distance (L5), and then carrying out a lifting motion for lifting the capillary while feeding the wire; a circular arc motion step for moving the capillary in a circular arc toward the first position (13) by a second distance (L3+L4); a second lifting step for lifting the capillary up to a second height H4; and a looping step for looping the capillary to the second position (14), thereby forming a wire loop having a predetermined height on a substrate by bonding the wire at the second position (14).