Application of Preshaping Control to a Semiconductor Wafer Transfer Robot and Experimental Verification

Synopsis: Currently, vacuum robot hands are used to transport semiconductor wafers in vacuum equipment, and vibration suppression methods using feedback control are utilized. Using superconducting (SC) levitation allows non-contact transfer, which reduces disturbances to the wafer, and is expected to reduce vibrations caused by starting, stopping, and loading the wafer. However, a single cylindrical superconducting bulk is insufficient for the damping and stiffness of a floating body and it is thought that it is necessary to further suppress vibrations for the nanomanufacturing process. Therefore, this research proposes a new magnetic support structure that uses a permanent magnet, four superconducting bulks, and four superconducting coils to transport wafers, and to clarify the damping and stiffness in the horizontal and vertical directions through actual measurements. Finally, compared with the case without coils, the damping coefficient was 3.4 times higher, and the spring coefficient was 2.2 times higher.

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Wafer Industry Design Case Study of Target Trajectory for Reducing Trajectory Deviation of a Belt-Driven Articulated Robot

Fujimura,

Fukui,

Ito

2023

Transactions of ISCIE

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This paper deals with high-speed and high-precision transfer control of silicon wafers by a beltdriven robot. We propose a target trajectory design while we only can change the trajectory due to the industry s strict development limitations. The proposed trajectory design has a piecewise linear type velocity profile. Gradients of each segment in the piecewise profile, that is acceleration, are designed with a consideration of two factors: The effects of belt elasticity and kinematics between the amount of belt elongation and the amount of tracking error. To reduce the amount of tracking error effectively, we also propose a design indicator which combines the two factors for designing the profile. An experiment with the belt-driven type wafer transfer robot UTM-R3700F, currently in use in industry, illustrates that the proposed trajectory design with the proposed indicator reduces tracking error compared to the conventional trajectory design.

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Application of Preshaping Control to a Semiconductor Wafer Transfer Robot and Experimental Verification

Cited by 3 publications

References 6 publications

Implementation of Input Preshaping Control and Active Mass Damper to Reduce Structure Vibration in Flexible Mechanical Transfer System

Implementation of Input Preshaping Control and Active Mass Damper to Reduce Structure Vibration in Flexible Mechanical Transfer System

Evaluation of Magnetic Levitation Carrier Using Superconducting Magnetic Suspension with Superconducting Coils and Bulks

Wafer Industry Design Case Study of Target Trajectory for Reducing Trajectory Deviation of a Belt-Driven Articulated Robot

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