Development of real-time density feedback control on MAST-U in L-mode
Author | |
Abstract |
In this paper we report on the development and demonstration of density feedback control for MAST-U. Sinusoidal perturbations are used to measure the frequency response from a deuterium gas valve (actuator) to line-integrated core electron density measured by the interferometer (sensor). In the frequency range relevant for control design, only two system-identification experiments were needed to regress a first-order dynamic model. This control-oriented model informs the offline design of a proportional integral controller with the established loop-shaping controller design method. After offline verification of the controller implementation, control is demonstrated by experimentally tracking a staircase reference for the line-integrated electron density. This paper demonstrates the efficiency of controller design using system-identification and loop-shaping, providing reliable density control for MAST-U. |
Year of Publication |
2024
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Journal |
Fusion Engineering and Design
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Volume |
202
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Number of Pages |
114387
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Date Published |
05/2024
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DOI |
10.1016/j.fusengdes.2024.114387
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PId |
2ce7604c97e26e70106c775a6c83d8de
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Alternate Journal |
Fusion Eng. Des.
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Label |
OA
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Journal Article
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