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Reinterpretation of PDD2 compensator embedded in position control for pneumatic stage

PDD2 (proportional + derivative + second derivative) compensator has been standardly used for position control of the pneumatic stage. This compensator is based on the integral characteristics of a pneumatic system composed of pipes, servo valves, and pneumatic cylinders. At this time, since the out...

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Published in:	Journal of Advanced Mechanical Design, Systems, and Manufacturing Systems, and Manufacturing, 2019, Vol.13(4), pp.JAMDSM0074-JAMDSM0074
Main Authors:	ISHII, Hiroki, MANABE, Tsubasa, WAKUI, Shinji
Format:	Article
Language:	English
Subjects:	Motion control PDD2 compensator PID compensator Pneumatic equipment Positioning
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cited_by	cdi_FETCH-LOGICAL-c484t-dcfe32e68e743cd27ca41c8f4f39535ef9777d306890d92074617b0cf20eacc03
cites	cdi_FETCH-LOGICAL-c484t-dcfe32e68e743cd27ca41c8f4f39535ef9777d306890d92074617b0cf20eacc03
container_end_page	JAMDSM0074
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container_start_page	JAMDSM0074
container_title	Journal of Advanced Mechanical Design, Systems, and Manufacturing
container_volume	13
creator	ISHII, Hiroki MANABE, Tsubasa WAKUI, Shinji
description	PDD2 (proportional + derivative + second derivative) compensator has been standardly used for position control of the pneumatic stage. This compensator is based on the integral characteristics of a pneumatic system composed of pipes, servo valves, and pneumatic cylinders. At this time, since the output of this compensator is integrated through the pneumatic system, PID control of the position is possible. However, the positioning of the pneumatic stage is slower than that of the electromagnetic actuators such as a linear and a ball screw stages. Generally, when either the controlled object or the compensator has a slow response, the response of the control system becomes slow. In the previous studies, the pneumatic stage itself, which is the controlled object, was focused on. Local feedback applied to the pneumatic and mechanical systems realized high-speed positioning. However, the influence on the positioning response using PDD2 compensator, which forms the framework of the position control, has not been considered. Therefore, this note focuses on the structure of PDD2 compensator. Here, the characteristics of this compensator are reinterpreted. Specifically, it is shown that a slow response cannot be avoided intrinsically due to the structure of this compensator. Furthermore, modified PDD2 compensator with improved slow response is proposed.
doi_str_mv	10.1299/jamdsm.2019jamdsm0074
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This compensator is based on the integral characteristics of a pneumatic system composed of pipes, servo valves, and pneumatic cylinders. At this time, since the output of this compensator is integrated through the pneumatic system, PID control of the position is possible. However, the positioning of the pneumatic stage is slower than that of the electromagnetic actuators such as a linear and a ball screw stages. Generally, when either the controlled object or the compensator has a slow response, the response of the control system becomes slow. In the previous studies, the pneumatic stage itself, which is the controlled object, was focused on. Local feedback applied to the pneumatic and mechanical systems realized high-speed positioning. However, the influence on the positioning response using PDD2 compensator, which forms the framework of the position control, has not been considered. Therefore, this note focuses on the structure of PDD2 compensator. 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Here, the characteristics of this compensator are reinterpreted. Specifically, it is shown that a slow response cannot be avoided intrinsically due to the structure of this compensator. 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This compensator is based on the integral characteristics of a pneumatic system composed of pipes, servo valves, and pneumatic cylinders. At this time, since the output of this compensator is integrated through the pneumatic system, PID control of the position is possible. However, the positioning of the pneumatic stage is slower than that of the electromagnetic actuators such as a linear and a ball screw stages. Generally, when either the controlled object or the compensator has a slow response, the response of the control system becomes slow. In the previous studies, the pneumatic stage itself, which is the controlled object, was focused on. Local feedback applied to the pneumatic and mechanical systems realized high-speed positioning. However, the influence on the positioning response using PDD2 compensator, which forms the framework of the position control, has not been considered. Therefore, this note focuses on the structure of PDD2 compensator. Here, the characteristics of this compensator are reinterpreted. Specifically, it is shown that a slow response cannot be avoided intrinsically due to the structure of this compensator. Furthermore, modified PDD2 compensator with improved slow response is proposed.</abstract><pub>The Japan Society of Mechanical Engineers</pub><doi>10.1299/jamdsm.2019jamdsm0074</doi><oa>free_for_read</oa></addata></record>
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issn	1881-3054 1881-3054
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source	J-STAGE Free
subjects	Motion control PDD2 compensator PID compensator Pneumatic equipment Positioning
title	Reinterpretation of PDD2 compensator embedded in position control for pneumatic stage
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