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An open-source, extensible system for laboratory timing and control

Rev. Sci. Instrum. 80, 115103 (2009); doi:10.1063/1.3250825

Published 3 November 2009

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Peter E. Gaskell, Jeremy J. Thorn, Sequoia Alba, and Daniel A. Steck
Department of Physics and Oregon Center for Optics, University of Oregon, Eugene, Oregon 97403-1274, USA
We describe a simple system for timing and control, which provides control of analog, digital, and radio-frequency signals. Our system differs from most common laboratory setups in that it is open source, built from off-the-shelf components, synchronized to a common and accurate clock, and connected over an Ethernet network. A simple bus architecture facilitates creating new and specialized devices with only moderate experience in circuit design. Each device operates independently, requiring only an Ethernet network connection to the controlling computer, a clock signal, and a trigger signal. This makes the system highly robust and scalable. The devices can all be connected to a single external clock, allowing synchronous operation of a large number of devices for situations requiring precise timing of many parallel control and acquisition channels. Provided an accurate enough clock, these devices are capable of triggering events separated by one day with near-microsecond precision. We have achieved precisions of ~0.1  ppb (parts per 109) over 16 s. ©2009 American Institute of Physics
History: Received 16 July 2009; accepted 25 September 2009; published 3 November 2009
Permalink: http://link.aip.org/link/?RSINAK/80/115103/1
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KEYWORDS and PACS

Keywords
PACS
  • 01.50.ht
    Instructional computer use for education
  • 01.50.Lc
    Laboratory computer use for education
  • 89.20.Kk
    Engineering
  • 89.20.Ff
    Computer science and technology
  • YEAR: 2009

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PUBLICATION DATA

ISSN:
0034-6748 (print)   1089-7623 (online)
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REFERENCES (9)
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  1. D. L. Whitaker, A. Sharma, and J. M. Brown, Rev. Sci. Instrum. 77, 126101 (2006).
  2. A. Combo, A. J. N. Batista, J. Sousa, and C. A. F. Varandas, Rev. Sci. Instrum. 74, 1815 (2003).
  3. D. S. Hall, Rev. Sci. Instrum. 75, 562 (2004).
  4. R. M. Gao and K. W. Madison, ETHERNUT-GPIB interface manual, 2005, URL: http://www.physics.ubc.ca/~qdg/publications/InternalReports/GPIBE NUTMan.pdf.
  5. J. J. Thorn, E. A. Schoene, T. Li, and D. A. Steck, Phys. Rev. Lett. 100, 240407 (2008).
  6. J. J. Thorn, E. A. Schoene, T. Li, and D. A. Steck, Phys. Rev. A 79, 063402 (2009).
  7. Egnite GmbH, URL: http://www.egnite.de/, 2009.
  8. T. Meyrath and F. Schreck, A laboratory control system for cold atom experiments: Hardware and software, URL: http://iqoqi006.uibk.ac.at/users/c704250/, 2009.
  9. P. E. Gaskell, URL: http://atomoptics.uoregon.edu/zoinks, 2009.

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