Fiber optic sensor

Fiber optic sensor

A fiber optic sensor is a sensor that uses optical fiber either as the sensing element ("intrinsic sensors"), or as a means of relaying signals from a remote sensor to the electronics that process the signals ("extrinsic sensors"). Fibers have many uses in remote sensing. Depending on the application, fiber may be used because of its small size, or the fact that no electrical power is needed at the remote location, or because many sensors can be multiplexed along the length of a fiber by using different wavelengths of light for each sensor, or by sensing the time delay as light passes along the fiber through each sensor. Time delay can be determined using a device such as an optical time-domain reflectometer.


Intrinsic sensors

Optical fibers can be used as sensors to measure strain, temperature, pressure and other quantities by modifying a fiber so that the quantity to be measured modulates the intensity, phase, polarization, wavelength or transit time of light in the fiber. Sensors that vary the intensity of light are the simplest, since only a simple source and detector are required. A particularly useful feature of intrinsic fiber optic sensors is that they can, if required, provide distributed sensing over very large distances.[1]

Temperature can be measured by using a fiber that has evanescent loss that varies with temperature, or by analyzing the Raman scattering of the optical fiber. Electrical voltage can be sensed by nonlinear optical effects in specially-doped fiber, which alter the polarization of light as a function of voltage or electric field. Angle measurement sensors can be based on the Sagnac effect.

Special fibers like long-period fiber grating (LPG) optical fibers can be used for direction recognition[2] . Photonics Research Group of Aston University in UK has some publications on vectorial bend sensor applications.[3][4]

Optical fibers are used as hydrophones for seismic and sonar applications. Hydrophone systems with more than one hundred sensors per fiber cable have been developed. Hydrophone sensor systems are used by the oil industry as well as a few countries' navies. Both bottom-mounted hydrophone arrays and towed streamer systems are in use. The German company Sennheiser developed a laser microphone for use with optical fibers.[5]

A fiber optic microphone and fiber-optic based headphone are useful in areas with strong electrical or magnetic fields, such as communication amongst the team of people working on a patient inside a magnetic resonance imaging (MRI) machine during MRI-guided surgery. [6]

Optical fiber sensors for temperature and pressure have been developed for downhole measurement in oil wells.[7][8] The fiber optic sensor is well suited for this environment as it functions at temperatures too high for semiconductor sensors (distributed temperature sensing).

Optical fibers can be made into interferometric sensors such as fiber optic gyroscopes, which are used in the Boeing 767 and in some car models (for navigation purposes). They are also used to make hydrogen sensors.

Fiber-optic sensors have been developed to measure co-located temperature and strain simultaneously with very high accuracy using fiber Bragg gratings.[9] This is particularly useful when acquiring information from small complex structures. Brillouin scattering effects can be used to detect strain and temperature over larger distances (20–30 kilometers).[10]

Other examples

A fiber-optic AC/DC voltage sensor in the middle and high voltage range (100–2000 V) can be created by inducing measurable amounts of Kerr nonlinearity in single mode optical fiber by exposing a calculated length of fiber to the external electric field.[11] The measurement technique is based on polarimetric detection and high accuracy is achieved in a hostile industrial environment.

High frequency (5 MHz–1 GHz) electromagnetic fields can be detected by induced nonlinear effects in fiber with a suitable structure. The fiber used is designed such that the Faraday and Kerr effects cause considerable phase change in the presence of the external field.[12] With appropriate sensor design, this type of fiber can be used to measure different electrical and magnetic quantities and different internal parameters of fiber material.

Electrical power can be measured in a fiber by using a structured bulk fiber ampere sensor coupled with proper signal processing in a polarimetric detection scheme. Experiments have been carried out in support of the technique.[13]

Fiber-optic sensors are used in electrical switchgear to transmit light from an electrical arc flash to a digital protective relay to enable fast tripping of a breaker to reduce the energy in the arc blast.[14]

Extrinsic sensors

Extrinsic fiber optic sensors use an optical fiber cable, normally a multimode one, to transmit modulated light from either a non-fiber optical sensor, or an electronic sensor connected to an optical transmitter. A major benefit of extrinsic sensors is their ability to reach places which are otherwise inaccessible. An example is the measurement of temperature inside aircraft jet engines by using a fiber to transmit radiation into a radiation pyrometer located outside the engine. Extrinsic sensors can also be used in the same way to measure the internal temperature of electrical transformers, where the extreme electromagnetic fields present make other measurement techniques impossible.

Extrinsic fiber optic sensors provide excellent protection of measurement signals against noise corruption. Unfortunately, many conventional sensors produce electrical output which must be converted into an optical signal for use with fiber. For example, in the case of a platinum resistance thermometer, the temperature changes are translated into resistance changes. The PRT must therefore have an electrical power supply. The modulated voltage level at the output of the PRT can then be injected into the optical fiber via the usual type of transmitter. This complicates the measurement process and means that low-voltage power cables must be routed to the transducer.

Extrinsic sensors are used to measure vibration, rotation, displacement, velocity, acceleration, torque, and twisting.


  1. ^ "An Integrated System for Pipeline Condition Monitoring". Retrieved 2010-09-22. 
  2. ^ "Bend Sensors with Direction Recognition Based on Long-Period Gratings Written in D-Shaped Fiber by D. Zhao etc". 
  3. ^ "Implementation of vectorial bend sensors using long-period gratings UV-inscribed in special shape fibres". 
  4. ^ "Use of Dual-Grating Sensors Formed by Different Types of Fiber Bragg Gratings for Simultaneous Temperature and Strain Measurements". 
  5. ^ Roth, Wolf-Dieter (2005-04-18). "Der Glasfaser-Schallwandler" (in German). Heise Online. Retrieved 2008-07-04. 
  6. ^ "Case Study: Can You Hear Me Now?". rt image. Valley Forge Publishing. pp. 30–31. Retrieved 2010-03-11. 
  7. ^ Sensornet. "Upstream oil & gas case study" (pdf). Retrieved 2008-12-19. 
  8. ^ Schlumberger. "Wellwatcher DTS Fibre Optic Monitoring product sheet" (pdf). Retrieved 2010-09-22. 
  9. ^ Trpkovski, S.; Wade, S. A.; Baxter, G. W.; Collins, S. F. (2003). "Dual temperature and strain sensor using a combined fiber Bragg grating and fluorescence intensity ratio technique in Er3+-doped fiber". Review of Scientific Instruments 74 (5): 2880. doi:10.1063/1.1569406. Retrieved 2008-07-04. 
  10. ^ Measures, Raymond M. (2001). Structural Monitoring with Fiber Optic Technology. San Diego, California, USA: Academic Press. pp. Chapter 7. ISBN 0-12-487430-4. 
  11. ^ Ghosh, S.K.; Sarkar, S.K.; Chakraborty, S. (2002). "Design and development of a fiber optic intrinsic voltage sensor". Proceedings of the 12th IMEKO TC4 international symposium Part 2 (Zagreb, Croatia): 415–419. 
  12. ^ Ghosh, S.K.; Sarkar, S.K.; Chakraborty, S.; Dan, S. (2006). "High frequency electric field effect on plane of polarization in single mode optical fiber". Proceedings, Photonics 2006. [unreliable source?]
  13. ^ Ghosh, S.K.; Sarkar, S.K.; Chakraborty, S. (2006). "A proposal for single mode fiber optic watt measurement scheme". Journal of Optics (Calcutta) (Optical Society of India) 35 (2): 118–124. ISSN 0972-8821. 
  14. ^ Zeller, M.; Scheer, G. (2008). "Add Trip Security to Arc-Flash Detection for Safety and Reliability, Proceedings of the 35rd Annual Western Protective Relay Conference, Spokane, WA". 

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