A scalable and reconfigurable industrial-grade Slow Control System for SABRE-South Dark matter experiment

S. Krishnan; S. Collins; D. Smoors; C. Webster; T. Baroncelli; G. Brooks; J. Mould; W. J. Dix; P. McNamara; F. Scutti; G. Lane; P. Urquijo; A. R. Duffy

doi:10.1088/1748-0221/16/03/P03002

A scalable and reconfigurable industrial-grade Slow Control System for SABRE-South Dark matter experiment

S. Krishnan^*, S. Collins, D. Smoors, C. Webster, T. Baroncelli, G. Brooks, J. Mould, W. J. Dix, P. McNamara, F. Scutti, G. Lane, P. Urquijo, A. R. Duffy

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

3 Citations (Scopus)

Abstract

The Sodium iodide Active Background Rejection Experiment-South (SABRE-South) is a direct dark matter detector soon to be deployed in the Stawell gold mine, in Victoria, Australia. Monitoring of external environmental and experimental conditions, (temperature, barometric pressure, relative humidity, high voltage, and seismic vibration) is vital to ensure the data quality of the SABRE search for dark matter via direct detection. These parameters are generally non-time-critical in the range of Hz to a few kHz and constitute a slow control system. We present the design of a novel compact, industrial-grade, and self-contained slow control system for SABRE-South. This system, featuring innovative hardware and software architecture based on National instruments compact RIO (NI-cRIO) and LabVIEW can be scaled up at low-cost and is capable of implementing the functionalities available in high-end SCADA systems while maintaining the flexibility to integrate custom software code (i.e. C++, PYTHON) for bespoke interfacing needs.

Original language	English
Article number	P03002
Journal	Journal of Instrumentation
Volume	16
Issue number	3
DOIs	https://doi.org/10.1088/1748-0221/16/03/P03002
Publication status	Published - Mar 2021

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10.1088/1748-0221/16/03/P03002

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Krishnan, S., Collins, S., Smoors, D., Webster, C., Baroncelli, T., Brooks, G., Mould, J., Dix, W. J., McNamara, P., Scutti, F., Lane, G., Urquijo, P., & Duffy, A. R. (2021). A scalable and reconfigurable industrial-grade Slow Control System for SABRE-South Dark matter experiment. Journal of Instrumentation, 16(3), Article P03002. https://doi.org/10.1088/1748-0221/16/03/P03002

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abstract = "The Sodium iodide Active Background Rejection Experiment-South (SABRE-South) is a direct dark matter detector soon to be deployed in the Stawell gold mine, in Victoria, Australia. Monitoring of external environmental and experimental conditions, (temperature, barometric pressure, relative humidity, high voltage, and seismic vibration) is vital to ensure the data quality of the SABRE search for dark matter via direct detection. These parameters are generally non-time-critical in the range of Hz to a few kHz and constitute a slow control system. We present the design of a novel compact, industrial-grade, and self-contained slow control system for SABRE-South. This system, featuring innovative hardware and software architecture based on National instruments compact RIO (NI-cRIO) and LabVIEW can be scaled up at low-cost and is capable of implementing the functionalities available in high-end SCADA systems while maintaining the flexibility to integrate custom software code (i.e. C++, PYTHON) for bespoke interfacing needs.",

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AU - Brooks, G.

AU - Mould, J.

AU - Dix, W. J.

AU - McNamara, P.

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AU - Lane, G.

AU - Urquijo, P.

AU - Duffy, A. R.

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A scalable and reconfigurable industrial-grade Slow Control System for SABRE-South Dark matter experiment

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