Robustness of Thirty Meter Telescope primary mirror control

Douglas G. MacMynowski; Peter M. Thompson; Chris Shelton; Lewis C. Roberts Jr.

doi:10.1117/12.857380

5 August 2010 Robustness of Thirty Meter Telescope primary mirror control

Douglas G. MacMynowski, Peter M. Thompson, Chris Shelton, Lewis C. Roberts Jr.

Proceedings Volume 7733, Ground-based and Airborne Telescopes III; 77332J (2010) https://doi.org/10.1117/12.857380
Event: SPIE Astronomical Telescopes + Instrumentation, 2010, San Diego, California, United States

Abstract

The primary mirror control system for the Thirty Meter Telescope (TMT) maintains the alignment of the 492 segments in the presence of both quasi-static (gravity and thermal) and dynamic disturbances due to unsteady wind loads. The latter results in a desired control bandwidth of 1Hz at high spatial frequencies. The achievable bandwidth is limited by robustness to (i) uncertain telescope structural dynamics (control-structure interaction) and (ii) small perturbations in the ill-conditioned influence matrix that relates segment edge sensor response to actuator commands. Both of these effects are considered herein using models of TMT. The former is explored through multivariable sensitivity analysis on a reduced-order Zernike-basis representation of the structural dynamics. The interaction matrix ("A-matrix") uncertainty has been analyzed theoretically elsewhere, and is examined here for realistic amplitude perturbations due to segment and sensor installation errors, and gravity and thermal induced segment motion. The primary influence of A-matrix uncertainty is on the control of "focusmode"; this is the least observable mode, measurable only through the edge-sensor (gap-dependent) sensitivity to the dihedral angle between segments. Accurately estimating focus-mode will require updating the A-matrix as a function of the measured gap. A-matrix uncertainty also results in a higher gain-margin requirement for focus-mode, and hence the A-matrix and CSI robustness need to be understood simultaneously. Based on the robustness analysis, the desired 1 Hz bandwidth is achievable in the presence of uncertainty for all except the lowest spatial-frequency response patterns of the primary mirror.

Citation Download Citation

Douglas G. MacMynowski, Peter M. Thompson, Chris Shelton, and Lewis C. Roberts Jr. "Robustness of Thirty Meter Telescope primary mirror control", Proc. SPIE 7733, Ground-based and Airborne Telescopes III, 77332J (5 August 2010); https://doi.org/10.1117/12.857380

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