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Related Concept Videos

Glassware Calibration01:11

Glassware Calibration

Accurate calibration of glassware, such as volumetric flasks, pipettes, and burettes, is essential to ensure accurate measurements in the analytical laboratory. Calibration helps maintain consistency across measurements and prevents errors arising from inaccurate volumes.
Volumetric flasks: Volumetric flasks are designed to prepare aqueous solutions of precise volumes accurately with a calibration line on the neck. To calibrate a volumetric flask, it is important to fill it with distilled...

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Fiber Optic Distributed Sensors for High-resolution Temperature Field Mapping
09:48

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Published on: November 7, 2016

Slab coupled optical fiber sensor calibration.

B Whitaker1, J Noren, S Chadderdon

  • 1Department of Electrical and Computer Engineering, Brigham Young University, 464 CB, Provo, Utah 84602, USA.

The Review of Scientific Instruments
|March 8, 2013
PubMed
Summary
This summary is machine-generated.

This study introduces an automated method for calibrating slab coupled optical fiber sensors (SCOS) using a computer sound card. The system optimizes laser wavelength selection and measures the dielectric breakdown of air.

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Area of Science:

  • Optical Fiber Sensors
  • Electrical Engineering
  • Metrology

Background:

  • Slab coupled optical fiber sensors (SCOS) require precise calibration for accurate measurements.
  • Automated calibration systems can improve efficiency and reliability in sensor applications.
  • Wavelength selection is critical for effective SCOS interrogation.

Purpose of the Study:

  • To present an automated system for calibrating SCOS.
  • To develop a wavelength calibration technique utilizing a computer sound card.
  • To demonstrate the calibrated SCOS by measuring the dielectric breakdown of air.

Main Methods:

  • An automated system was developed for optimal laser wavelength selection in SCOS interrogation.
  • A computer sound card was employed for generating the electric field and detecting the SCOS signal.
  • A method for determining the ratio between the SCOS signal and the applied electric field was established.

Main Results:

  • The automated system successfully selected optimal laser wavelengths for SCOS.
  • The sound card-based technique proved effective for electric field generation and signal detection.
  • The calibrated SCOS accurately measured the dielectric breakdown of air, validating the method.

Conclusions:

  • The presented automated calibration method offers an efficient approach for SCOS.
  • The integration of a computer sound card simplifies and enhances the calibration process.
  • The successful demonstration highlights the potential of calibrated SCOS in various applications, including electrical breakdown studies.