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Fiber Optical Sensors

For precise measurement in demanding applications with Maximum flexibility in sensor design.

Bridge Construction Fiber Optical Sensorsolution Althen Sensors

Fiber Optic Sensors: Precise Measurement With Maximum Flexibility

Withfiber optic measurement solutionsyou can measure strain, pressure, displacement or temperature. Conventional electronic sensors are often hampered by distorting effects such as high voltage or EMV. This is where our systems come in: they open upnew possibilities for reliable measurements, especially in the most challenging environments.

We are happy to help you select the most suitable fiber optic sensor or measurement solution. Fill in ourcontact formor contact us directly: you can find the phone numbers and e-mail addresses of yournearest location on our locations page.

Product Overview Fiber Optical Sensors

Find the perfect fiber optic solution for your application. We’d be happy to help you choose.

Fiber Optic Sensors – Perfect for the Most Challenging Applications

Fiber OpticWhite Light Polarisation Interferometry (WPLI)is patented fiber optic technology which enables precise measurements to be made in the most challenging of applications. It offersmaximum flexibility in sensor designsuch that reliable measurements can be generated even in extremely unfavorable environments.

This includes:

  • 简单调整光纤,
  • easy mounting,
  • 以及将传感器完全集成到组件中的可能性,即使是信用卡也很小。B0B体育平台下载包括信号评估所需的所有组件。

A single signal evaluation unit can capture all measured quantities offered.

Fiber Optic Sensors: Our Product Range

Fiber Optic Strain Sensorsenable precise measurements of deformation. Possible applications include the following:

  • Structural monitoring
  • Detection of microfissures and localized material defects
  • Measurement of rotor blade load in wind turbines
  • 制造业优化轻量级的工程师ing
  • Vibration analysis

OurFiber Optic Pressure Sensorsenable high-precision pressure measurements, even in the most demanding environments. Thanks to their small form factor, high immunity, and great reliability, these sensors are suitable for many applications, such as

  • Scientific research
  • Industrial applications

Fiber Optic Position Sensorsboast long life cycles and are suitable for the most demanding applications that require absolute reliability. They are ideal for all industrial applications, including

  • Real-time structural monitoring
  • Monitoring of concrete structures
  • Structural monitoring in aircraft

Fiber Optic Temperature Sensorsare used for creating temperature profiles. One typical fiber optic temperature sensor is the single point sensor, which is attached to the end of a fiber. Optical fibers are resistant against electromagnetic radiation. That allows them to be used even in high voltage gradients, explosive environments, or chemically aggressive environments without problems. Typical applications include the following.

  • Monitoring in Magnetic Resonance Imaging (MRI)
  • Process monitoring in pipe reactors
  • Analysis drilling cores and leak detection

Properties and advantages of Fiber Optic Sensors

  • High immunity:对高压和电磁干扰没有敏感性。
  • Long-term stability:No optical losses due to shifting or bending fibers or connectors.
  • 优越的坚固性:The sensors are rugged and suitable for the most demanding applications.
  • Simple installation:轻松调节光纤,通过点焊接,胶合或完全集成到组件中。
  • Lightweight and compact form factor:The sensors can be very small.
  • Versatility:The same signal evaluation unit can capture all measured quantities mentioned above.
  • No maintenance:No calibration or maintenance required.
  • Intrinsically safe:这些传感B0B体育平台下载器适用于高压环境,ATEX保护区以及化学侵略性的环境。

Applications for Fiber Optic Sensors

  • 制造业
  • Aerospace
  • Defense
  • Geotechnical applications
  • Construction
  • Structural monitoring
  • 能源 /可再生能源
  • 化学工业
  • Food and beverage industry

应用with Fiber Optical Sensors

Would you like to get to know our products in practice? Take a look at these interesting projects from our customers:

WLPI Technology explained

White light polarization interferometry (WLPI) technology offers a great degree of flexibility in the design of various types of fiber optic transducers.How does WLPI work?

Advantages of Fiber Optical Sensors

Fiber Optical Sensors is a new technology based on White Light Polarization Interferometry (WLPI), which offers great benefits.Read more.

How does fiber optic WLPI technology work?

Fiber optic white light polarisation interferometry is a patented technology. It enables precise measurements in the most demanding applications. WLPI allows great flexibility in sensor design for reliable measurements even in the most challenging environments.

Fiber optic measuring systems comprise two main components: the fiber optic sensor and a signal processing unit. The fiber optic sensor consists of a sealed housing that contains the optical sensor element and an optical fiber, which serves different purposes depending on the technology used.

There are several fiber optic measuring procedures based on different properties of light (intensity, phase, polarisation, or spectrum). Depending on the procedure, variations in the designated measurement quantity causes one or more of these properties to change, so that the returning signal is altered.

Extrinsic and Intrinsic Sensors

Fiber optic sensors can be divided into two main categories: extrinsic and intrinsic sensors. They differ both in design and function, featuring specific properties that make them suitable for different applications.

In intrinsic sensors, the light conductor is an essential component of the measurement mechanism. The optical fiber is the sensor. Common examples of this category include sensors based on Fiber Bragg Grating.

Extrinsic sensors, on the other hand, are characterized by the sensitive component being separate from the optical fiber. The optical fiber merely transmits the light signal between the sensor unit and the evaluation electronics. Examples of extrinsic sensors include temperature sensors based on gallium arsenide crystals (GaAs) as well as the WLPI-based fiber optic sensors presented below.

Precise Optical Measuring Procedure

The signal evaluation unit feeds the light signal into the optical fiber, receives the reflected, altered signal, and processes it to output physical units of the measured quantity. The light source used can differ depending on the measuring procedure and technology.

Optical interferometry, which measures the phase modulation of light, is considered the most sensitive method of fiber optic measurement. An interferometer is a high-precision optical measurement device featuring two or more light beams that are guided on different paths through semi-transparent mirrors before being reflected and recombined by another set of mirrors. This results in an interference pattern which is determined by the difference between the optical paths taken by the individual beams before their recombination/superimposition.

Using interferometry lets you measure a physical quantity whenever variations in that quantity cause variations in the path length in the interferometer.

Laser vs. White Light

The lasers used as light sources in conventional fiber optic sensors led to issues with phase ambiguity due to their narrow bandwidth. This was due to the coherence length of the light source generally being larger than the difference in wavelength in the interferometer. As a result, possible applications for fiber optic sensors based on interferometry were limited. The solution to this problem lies in using a light source with a shorter coherence length and broader light spectrum.

This kind of interferometry is called white light interferometry or optical coherence tomography. The founders of Opsens are pioneers in white light interferometry for fiber optic measurements. They have refined this technology to commercial viability.

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