Pq Open-Loop Control of a Grid-Tied Inverter Interfacing a Large-Scale Fuel Cell Stack

With the increase in demand for semiconductor products, ultrafine linear patterning technologies for Large-Scale Integrations (LSIs) have been making progress. The requested positioning accuracy in such ultraprecise apparatuses is of nanometer order. To meet such specific needs, the research and development of a variety of actuators has been necessary. Our laboratory has developed a ‘Pneumatic Servo Bearing Actuator (PSBA),’ a novel actuator that uses pneumatic servo technology for ultraprecise positioning. Our past studies have showed that the minimum resolution of PSBA was almost 6 nm, even under open loop control; thus, we concluded that the PSBA was a promising actuator in advanced ultraprecise positioning systems. However, the stroke of the PSBA was comparatively short. To expand the stroke of the actuator, we proposed and developed a new PSBA with multiple thin thrust-bearing pads. The main purpose in this study is to investigate the positioning properties of the new PSBA with multiple thrust bearing pads. The obtained characteristics of the PSBA can be enumerated as follows. (1) The PSBA with multiple bearing pads achieves a longer stroke than the PSBA with a single pad. (2) The difference in the thickness of the bearing pads affects the dynamic characteristics of the actuator. (3) The minimum positioning resolution of the developed PSBA with twenty-nine bearing pads is about 2 – 4 nm with feedback control.

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Open-loop control of compensation for optical propagation through a turbulent shear flow

10.2514/6.1998-2832 ◽

1998 ◽

Author(s):

C. Truman ◽

Lenore McMackin ◽

Robert Pierson ◽

Kenneth Bishop ◽

Ellen Chen

Keyword(s):

Shear Flow ◽

Open Loop ◽

Turbulent Shear ◽

Turbulent Shear Flow ◽

Open Loop Control ◽

Loop Control ◽

Optical Propagation

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Numerical Investigation of Disturbed Open-loop Control Obtained by the Covering Method

2020 13th International Conference "Management of large-scale system development" (MLSD) ◽

10.1109/mlsd49919.2020.9247840 ◽

2020 ◽

Author(s):

Yulia Belinskaya

Keyword(s):

Numerical Investigation ◽

Open Loop ◽

Open Loop Control ◽

Loop Control ◽

Covering Method

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Three-Phase Trinary Asymmetric Multilevel Inverter With Single DC Source and Open-Loop Control

IEEE Open Journal of Industry Applications ◽

10.1109/ojia.2021.3105605 ◽

2021 ◽

Vol 2 ◽

pp. 259-277

Author(s):

Rajesh Vasu ◽

Sumit Kumar Chattopadhyay ◽

Chandan Chakraborty

Keyword(s):

Open Loop ◽

Multilevel Inverter ◽

Open Loop Control ◽

Loop Control ◽

Three Phase

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Precise open-loop control of MEMS deformable mirror shape

10.1117/12.769492 ◽

2008 ◽

Cited By ~ 1

Author(s):

Thomas Bifano ◽

Jason Stewart ◽

Alioune Diouf

Keyword(s):

Open Loop ◽

Deformable Mirror ◽

Open Loop Control ◽

Loop Control

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Responses and Optimization of a PID-Based Speed Regulating System of the Planetary Mixer

Advanced Materials Research ◽

10.4028/www.scientific.net/amr.418-420.1865 ◽

2011 ◽

Vol 418-420 ◽

pp. 1865-1868

Author(s):

Ming Jin Yang ◽

Xi Wen Li ◽

Zhi Gang Wang ◽

Tie Lin Shi

Keyword(s):

Control System ◽

Open Loop ◽

Open Loop Control ◽

Efficient Operation ◽

Loop Control ◽

Loop Control System ◽

Response Optimization ◽

Close Loop Control ◽

Close Loop Control System

The performance of speed regulating is very important to the mixing process with safe, efficient operation and high quality of production. Strategies and practices of responses and optimization of a PID-based speed regulating system of a planetary mixer were presented in this paper. Research results show that: by means of the signal constraint function presented by Simulink Response Optimization, optimization PID parameters of the 2-DOF-PID controller can be obtained, and the response of close-loop control system has quite good performance of overshoot, response time, and stability compared with an open-loop control system.

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Experimental Verification of Open-loop Control for an Underwater Eel-like Robot

The International Journal of Robotics Research ◽

10.1177/0278364902021010095 ◽

2002 ◽

Vol 21 (10-11) ◽

pp. 849-859 ◽

Cited By ~ 17

Author(s):

Kenneth A. Mcisaac ◽

James P. Ostrowski

Keyword(s):

Experimental Work ◽

Experimental Verification ◽

Vision System ◽

Open Loop ◽

Open Loop Control ◽

Loop Control ◽

Position Sensing ◽

Theoretical Predictions ◽

Approximate Expressions ◽

Good Agreement

In this paper, we describe experimental work using an underwater, biomimetic, eel-like robot to verify a simplified dynamic model and open-loop control routines. We compare experimental results to previous analytically derived, but approximate expressions for proposed gaits for forward/backward swimming, circular swimming, sideways swimming and turning in place. We have developed a five-link, underwater eel-like robot, focusing on modularity, reliability and rapid prototyping, to verify our theoretical predictions. Results from open-loop experiments performed with this robot in an aquatic environment using an off-line vision system for position sensing show good agreement with theory.

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