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Instrument control

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Control of electronic test instruments
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Find sources: "Instrument control" – news · newspapers · books · scholar · JSTOR (February 2007)

Instrument control consists of connecting a desktop instrument to a computer and taking measurements.

History

In the late 1960s the first bus used for communication was developed by Hewlett-Packard and was called HP-IB (Hewlett-Packard Interface Bus). Since HP-IB was originally designed to only work with HP instruments, the need arose for a standard, high-speed interface for communication between instruments and controllers from a variety of vendors. This need was addressed in 1975 by the Institute of Electrical and Electronics Engineers (IEEE) published ANSI/IEEE Standard 488-1975, IEEE Standard Digital Interface for Programmable Instrumentation, which contained the electrical, mechanical, and functional specifications of an interfacing system. The standard was updated in 1987 and again in 1992 This bus is known by three different names, General Purpose Interface Bus (GPIB), Hewlett-Packard Interface Bus (HP-IB), and IEEE-488 Bus, and is used worldwide.

Today, there are several other buses in addition to the GPIB that can be used for instrument control. These include: Ethernet, USB, Serial, PCI, and PXI.

Software

In addition to the hardware bus to control an instrument, software for the PC is also needed. Virtual Instrument Software Architecture, or VISA, was developed by the VME eXtensions for Instrumentation (VXI) plug and play Systems Alliance as a specification for I/O software. VISA was a step toward industry-wide software compatibility. The VISA specification defines a software standard for VXI, and for GPIB, serial, Ethernet and other interfaces. More than 35 of the largest instrumentation companies in the industry endorse VISA as the standard. The alliance created distinct frameworks by grouping the most popular operating systems, application development environments, and programming languages and defined in-depth specifications to guarantee interoperability of components within each framework.

Instruments can be programmed by sending and receiving text based SCPI commands or by using an instrument driver . To ease the programming of instruments, many instruments are provided with industry standard instrument drivers such as VXIplug&play or IVI. These drivers require a VISA library to be to installed on the PC. IVI instrument drivers were designed to enable interchangeability of instruments in a manufacturing setting where automation and reduced down-time are important, but they are often used in other applications as well.

Application development environments can support instrument control by supporting VISA and industry standard instrument drivers. Environments supporting VISA include LabVIEW, LabWindows/CVI, MATLAB, and VEE. Furthermore, the VISA library can support programming languages like C, C++, C#, Python and others.

See also

References

  1. IEEE Standard Codes, Formats, Protocols, and Common Commands. For Use with ANSI/IEEE STD 488.1-1987 IEEE Standard Digital Interface for Programmable Instrumentation. doi:10.1109/IEEESTD.1988.120316. ISBN 0-7381-4215-8.
  2. IEEE Standard Codes, Formats, Protocols, and Common Commands for Use with IEEE STD 488.1-1987, IEEE Standard Digital Interface for Programmable Instrumentation. doi:10.1109/IEEESTD.1992.114468. ISBN 978-0-7381-0665-6.
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External links

Further reading

  • Francesco Fornetti (2013). Instrumentation Control, Data Acquisition and Processing with MATLAB. Explore RF Ltd. ISBN 978-0957663503.
  • Steve Mackay; et al. (2003). Practical Data Communications for Instrumentation and Control (IDC Technology). Newnes. ISBN 978-0750657976.
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