摘要:
A stage assembly (10) for moving and positioning a device (26) is provided herein. The stage assembly (10) includes a stage base (12), a device table (48), a stage mover assembly (16), a measurement system (20), and a control system (22). The stage mover assembly (16) moves the device table (48) along an X axis, along a Y axis, and about a Z axis relative to the stage base (12). The measurement system (20) includes a first X mirror (25A) for monitoring the position of the device table (48) in an alignment position (31A) and a second X mirror (25B) for monitoring the position of the device table (48) in an operational position (31B). In one embodiment, the stage assembly (10) includes a first fiducial mark (76) and a second fiducial mark (78) that are secured to the device table (48) to determine the relative position of the X mirrors (25A)(25B). Alternately, in another embodiment, the stage assembly additionally includes a third fiducial mark (80) secured to the device table (48) for determining the relative positions of the X mirrors (25A)(25B). In both embodiments, the control system (22) utilizes the measured position of the fiducial marks relative to the first X mirror (25A) and the second X mirror (25B) to determine the position of the first X mirror (25A) relative to the second X mirror (25B). These features allow for more accurate positioning of the device (26) by the stage assembly (10) and better performance of the stage assembly (10).
摘要:
A suspension system (18) for suspending a stage (14) spaced apart from a stage base (12) is provided herein. The suspension system (18) includes a plurality of spaced apart suspension assemblies (20). Each suspension assembly (20) includes a fluid pad (22) and an adaptable section (24). A bearing fluid (48) is directed from the fluid pad (22) to create a fluid bearing (52) between the fluid pad (22) and the stage base (12). The fluid bearing (52) allows for large displacement, frictionless motion along an X axis, along a Y axis and rotation about a Z axis. The adaptable section (24) secures the fluid pad (22) to the stage (14). The adaptable section (24) allows for relative movement between the fluid pad (22) and the stage (14). More specifically, the adaptable section (24) allows for small displacement, low stiffness motion along the Z axis and rotation about the X axis and the Y axis. In summary, the suspension system (18) permits six degrees of freedom motion and provides some vibration isolation along the Z axis.
摘要:
A stage assembly (220) for moving and positioning a device (200) includes a stage base (202), a stage (206), a stage mover assembly (204), and a reaction assembly (226). The stage mover assembly (204) moves the stage (206) relative to the stage base (202). The reaction assembly (226) is coupled to the stage mover assembly (204). The reaction assembly (226) reduces the reaction forces created by the stage mover assembly (204) that are transferred to the stage base (202). In one embodiment, the reaction assembly (226) includes a pair of masses (250A), (250B) and a connector assembly (236) that connects the masses (250A), (250B) together, allows the masses to move independently along a first axis, and causes the masses (250A), (250B) to move concurrently along a second axis.
摘要:
A stage assembly (10) for moving and positioning a device (26) includes a device table (20), a device holder (24) that retains the device (26), and a stage mover assembly (14). The stage assembly (10) includes one or more features that can isolate the device holder 24 and the device (26) from deformation. In some embodiments, the stage assembly (10) allows precise rotation of the device (26) between a first position (42) and a second position (44) without influencing the flatness of the device (26) and without deflecting and distorting the device (26). For example, the stage assembly (10) can include a carrier (60) and a holder connector assembly (62). The carrier (60) is supported above the device table (20) and rotates relative to the device table (20). The holder connector assembly (62) connects the device holder (24) to the carrier (60). Further, the stage assembly (10) can include a holder mover (120) that rotates the device holder (24) relative to the device table (20). Additionally, the stage assembly (10) can include a fluid connector (94) that connects the device holder (24) in fluid communication with the device table (20).
摘要:
A stage assembly for moving and positioning a device is provided herein. The stage assembly includes a stage base, a stage, a stage mover assembly, a reaction mass assembly, a reaction mover assembly, and a control system. The stage mover assembly moves the stage relative to the stage base. The reaction mass assembly reduces the reaction forces created by the stage mover assembly that are transferred to the stage base. The reaction mover assembly adjusts the position of the reaction mass assembly relative to the stage base. Uniquely, the control system controls and directs current to the reaction mover assembly in a way that minimizes the influence of disturbances created by the reaction mover assembly on the stage assembly. More specifically, the timing and/or the amount of current from the control system directed to the reaction mover assembly is varied to minimize the influence of the disturbances created by the reaction mover assembly on the stage assembly. With this design, the reaction mover assembly has less influence upon the position of the stage base. This allows for more accurate positioning of the device by the stage assembly and better performance of the stage assembly.
摘要:
A stage assembly (220) for moving and positioning a device (200) includes a stage base (202), a stage (206), a stage mover assembly (204), and a reaction assembly (226). The stage mover assembly (204) moves the stage (206) relative to the stage base (202). The reaction assembly (226) is coupled to the stage mover assembly (204). The reaction assembly (226) reduces the reaction forces created by the stage mover assembly (204) that are transferred to the stage base (202). In one embodiment, the reaction assembly (226) includes a pair of masses (250A), (250B) and a connector assembly (236) that connects the masses (250A), (250B) together, allows the masses to move independently along a first axis, and causes the masses (250A), (250B) to move concurrently along a second axis.
摘要:
A fluid mount (10) for an exposure apparatus (32) includes a first subsystem (12) and a second subsystem (14). The first subsystem (12) includes a first cylinder (18) and a first piston (20). The first piston (20) moves within the first cylinder (18) along a first axis (26). The second subsystem (14) includes a second cylinder (22) and a second piston (24). The second piston (24) moves within the second cylinder (22) along a second axis (28). Importantly, (i) the second subsystem (14) is stacked on top of the first subsystem (12), (ii) the second axis (28) is substantially coaxial with the first axis (26), and (iii) the first piston (20) is connected to the second piston (24) with a piston connector (16). The resulting fluid mount (10) has a relatively high load carrying capacity and a relatively small footprint.
摘要:
A coil assembly (14) used with a magnet assembly (12) for a linear or planar electric motor (10) is provided herein. The coil assembly (14) includes a plurality of coils (18) attached to a coil base (16) with a plurality of coil supports (22). The coil supports (22) secure the coils (18) to the coil base (16) with the coils (18) spaced apart from a first surface (23) of the coil base (16). As a result thereof, both sides (32), (34) of each coil (18) are exposed for cooling. Further, the coil supports (22) allow the coils (18) to expand laterally with minimal stress and thermal deformation. The coil assembly (14) can also include a plurality of spaced apart covers (62). Each cover (62) fits over one of the coils (18) and is secured to the coil base (16). A fluid (24) can be directed into a fluid passageway (58) around each coil (18) to cool each coil (18).
摘要:
A stage assembly (10) for moving and positioning a device (26) includes a device table (20), a device holder (24) that retains the device (26), and a stage mover assembly (14). The stage assembly (10) includes one or more features that can isolate the device holder 24 and the device (26) from deformation. In some embodiments, the stage assembly (10) allows precise rotation of the device (26) between a first position (42) and a second position (44) without influencing the flatness of the device (26) and without deflecting and distorting the device (26). For example, the stage assembly (10) can include a carrier (60) and a holder connector assembly (62). The carrier (60) is supported above the device table (20) and rotates relative to the device table (20). The holder connector assembly (62) connects the device holder (24) to the carrier (60). Further, the stage assembly (10) can include a holder mover (120) that rotates the device holder (24) relative to the device table (20). Additionally, the stage assembly (10) can include a fluid connector (94) that connects the device holder (24) in fluid communication with the device table (20).
摘要:
A stage assembly includes a stage base, a stage, a stage mover assembly, a reaction mass assembly, a reaction mover assembly, and a control system. The stage mover assembly moves the stage relative to the stage base. The reaction mass assembly reduces the reaction forces created by the stage mover assembly that are transferred to the stage base. The reaction mover assembly adjusts the position of the reaction mass assembly relative to the stage base. The control system controls and directs current to the reaction mover assembly in a way that minimizes the influence of disturbances created by the reaction mover assembly on the stage assembly. The timing and/or the amount of current from the control system directed to the reaction mover assembly is varied to minimize the influence of the disturbances created by the reaction mover assembly on the stage assembly.