A Predictive Control Algorithm for Time-Division-Multiplexed Readout of TES Microcalorimeters

A Predictive Control Algorithm for Time-Division-Multiplexed Readout of TES Microcalorimeters

Time division multiplexing (TDM) uses a digital flux-locked loop (DFLL) to linearize each first-stage SQUID amplifier. Presently, the dynamic range of our TDM systems is limited by the use of a proportional-integral controller to maintain the DFLL. In this paper, we use simulations to assess the imp...

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Veröffentlicht in:Journal of low temperature physics 2020-04, Vol.199 (1-2), p.275-280
Hauptverfasser: Durkin, Malcolm, O’Neil, G. C., Doriese, W. B., Gard, J. D., Hilton, G. C., Imrek, J., Ortiz, N., Reintsema, C. D., Stevens, R. W., Swetz, D. S., Ullom, J. N.
Format: Artikel
Sprache:eng
Schlagworte:
Algorithms
Calorimeters
Characterization and Evaluation of Materials
Computer simulation
Condensed Matter Physics
Control algorithms
Control theory
Dynamic range
Low temperature physics
Magnetic Materials
Magnetism
Noise reduction
Physical Sciences
Physics
Physics and Astronomy
Physics, Applied
Physics, Condensed Matter
Predictive control
Proportional integral
Science & Technology
Squid
Time division multiplexing
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Zusammenfassung:Time division multiplexing (TDM) uses a digital flux-locked loop (DFLL) to linearize each first-stage SQUID amplifier. Presently, the dynamic range of our TDM systems is limited by the use of a proportional-integral controller to maintain the DFLL. In this paper, we use simulations to assess the improvements possible with a predictive control algorithm that anticipates rapid changes in transition-edge sensor current during the rising edge of an X-ray pulse. We calculate that the predictive control algorithm can improve our TDM architecture’s dynamic range by 35%. This significant increase in multiplexing capabilities could be used to read out higher-energy X-rays, reduce readout noise, increase multiplexing factors, or reduce SQUID power output.
ISSN:0022-2291
1573-7357
DOI:10.1007/s10909-020-02342-4