Multirate PWM Control of Precision Stage for Ultrahigh-Speed Nanoscale Positioning

In this paper, a time-adaptation control for motion reproduction is proposed for adapting to variations of environmental location and toward advanced manufacturing process. The method has the highest priority on eliminating force error; by lowering the priority on time correspondence, the reproducibility of contact motion is improved. Concretely speaking, the proposed method matches the force response value with its command under contact motion, by introducing a difference between save time and reproduction time. By using this method, even when the environmental location is changed, it is possible to reproduce the same reaching velocity at the moment of first contact. Then, the force error in the reproduced motion is suppressed immediately. In recent years, not only production speed, but also product quality must be ensured in a manufacturing site. In an actual manufacturing site, because materials are natural objects, properties, such as the size of an object, are different in different lots. Therefore, a control method that can adapt to variations of environmental location is effective for achieving high-quality manufacturing.

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“…The former is controlled by position regulator to attain (1). The latter is controlled by force servoing to attain (2). These controllers Fig.…”

Section: Bilateral Controlmentioning

confidence: 99%

Motion Reproduction with Time-adaptation Control for Dealing with Variations of Environmental Location

Takeuchi

Katsura

2016

IEEJ Journal IA

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“… and was applied to some applications . Moreover, it was revised and applied to more advanced PTCs and the equivalent perfect tracking control (E‐PTC) . PTC was designed based on multi‐rate sampling control, and a merit of the PTC is the avoidance of instability due to the unstable zero cancelation.…”

Section: Motion Controlmentioning

confidence: 99%

Recent advances and outlook in industrial instrumentation and mechatronics control

Shimada

2016

IEEJ Transactions Elec Engng

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Recent years have been characterized by marked progress in industrial instrumentation and mechatronics control technology. This year commemorates the fifth publication year of the IEEJ Journal of Industry Applications (emIEEJ J. IA). Additionally, the Mechatronics Control (MEC) technical committee was formed 3 years ago following a separation from the Industrial Instruments and Control (IIC) technical committee in order to further enhance their respective social contributions. The increased activity of both committees also contributed to the progress of the Journal. This paper discusses the recent advances and outlook in the technical field of industrial instrumentation and mechatronics control based on papers published in the IEEJ J. IA and a few other significant papers, which consider the current activities of the various committees.

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Automatic adjustment method for cascade control system based on iterative setting of stability-margin criterion circle

Kitayoshi

Fujimoto

2020

IFAC-PapersOnLine

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Multirate PWM Control of Precision Stage for Ultrahigh-Speed Nanoscale Positioning

Cited by 6 publications

References 18 publications

Motion Reproduction with Time-adaptation Control for Dealing with Variations of Environmental Location

Motion Reproduction with Time-adaptation Control for Dealing with Variations of Environmental Location

Recent advances and outlook in industrial instrumentation and mechatronics control

Automatic adjustment method for cascade control system based on iterative setting of stability-margin criterion circle

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