Tootja Kiudoptiline temperatuuriandur, Temperatuuri jälgimise süsteem, Professionaalne OEM/ODM Tehas, Hulgimüüja, Tarnija.kohandatud.

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Fiber Bragg resti demodulaatori süsteemi põhimõte

Kiudoptiline temperatuuriandur, Intelligentne seiresüsteem, Jaotatud kiudoptiline tootja Hiinas

Fluorestseeruva kiudoptilise temperatuuri mõõtmine Fluorestseeruv kiudoptiline temperatuuri mõõteseade Jaotatud fluorestsentskiudoptiline temperatuuri mõõtesüsteem

The ultra high speed fiber Bragg grating demodulator is a fiber Bragg grating network analyzer mainly developed by FJINN. The fiber Bragg grating static demodulator is produced based on the working principle of the fiber Bragg grating demodulator. The grating demodulator has high accuracy, accurate calibration and measurement, and the manufacturer’s price. For specific product information, please contact WhatsApp:+8613599070393

FJINNO is a professional service provider engaged in the design, production, and sales of fiber optic sensors, intelligent substation equipment safety monitoring, power equipment, and sensing systems. The company maintains close cooperative relationships with numerous national research institutes and renowned universities, implements strict management systems, and implements the ISO9001 quality management system. The core products include fluorescent fiber optic temperature sensor transmitters, fiber optic grating sensors and demodulators, distributed fiber optic sensing systems, optoelectronic sensors and demodulators, mechanical sensors and demodulators, communication testing instruments, jne. The company’s products are widely used in communication, energy, aviation, civil engineering, transportation, and security industries, mainly providing advanced and comprehensive health and safety testing solutions for physical structures in fields such as bridges, dams, rivers, large buildings, water conservancy, electricity, nafta, education, and scientific research.

Principles of Fiber Bragg Grating Sensors

FBG measures temperature, pressure, displacement, jne. at precise positions; A multi-point measurement system, on the other hand, is a high-capacity FBG sensor array formed to perform multi position measurements on a certain object or area. Compared to using nonlinear scattering effects, such as Brillouin scattering or Raman scattering, designing sensors along the axial direction of optical fibers based on their characteristics, FBG sensing systems are a quasi distributed sensing system withdiscretemulti-point measurements.

High speed dynamic fiber Bragg grating demodulator

The high-speed fiber Bragg grating demodulator is an advanced component of the fiber Bragg grating demodulation system, divided into three models: low, medium, and high. It can meet the requirements of different working conditions from 1Hz to 1Hhz, with 8-64 channels and gigabit network for data transmission. The wavelength range is 1525-1565nm, with a wavelength resolution of 0.1pm. Different grating sensors can be connected to measure physical quantities such as temperature, strain, displacement, water pressure, soil pressure, vibratsioon, and water level.

Features of Fiber Bragg Grating Demodulator System

0~1000Hz synchronous acquisition, scanning laser+spectral synchronous detection technology, supporting real-time monitoring and display of tile images, 0.1pm resolution,>45dB dynamic detection range, 1~64 channel capacity can be smoothly expanded, compatible with domestic and foreign manufacturers of the same type of fiber Bragg grating sensors, quasi distributed measurement, multiple types of sensors can be connected in series on a single fiber, flexible to use, and can simultaneously measure strain, temperature, acceleration, and other measurements. Built in absolute wavelength reference, no external wavelength calibration is required. The supporting software has powerful functions and standard API secondary development interfaces, meeting the customized development requirements of different projects.

Price of fiber optic grating high-speed demodulator

Fiber optic grating sensing technology is a very important part of fiber optic sensing technology. In addition to the advantages of the aforementioned fiber optic technology, fiber optic grating sensing technology also has its unique advantages: the sensing signal mainly adopts wavelength modulation, and changes in the amplitude or intensity of the sensing signal will not affect the wavelength change of the fiber optic grating. Seetõttu, interference such as light source fluctuations, fiber optic deformation losses, and circuit aging in the system will not affect the measurement results. In commercial applications, fiber optic grating sensors account for about 45% of the total share of fiber optic sensors.

Fiber Bragg Grating Single Channel High Speed Demodulator

With the development of China’s social economy, the demand for high-speed fiber Bragg grating demodulation products in the field of industrial monitoring is becoming increasingly strong, and the market prospects for research and production of high-speed demodulation products are bright. Further research is needed on high-speed fiber optic grating sensing demodulation schemes, which not only meets the needs of high-speed monitoring in practical engineering applications, but also is a direction that many fiber optic sensor manufacturers need to study.

Accuracy of grating demodulator

Praegu, fiber optic grating technology has been widely used in various fields such as structural health monitoring of bridges, petrochemical industry, tunnel fire monitoring, coal mine gas/carbon monoxide safety monitoring, rotating machinery safety inspection, intelligent perimeter intrusion alarm, võimsus, slope and railway, and fiber optic sensing Internet of Things. With the development of science and the progress of the times, the existing fiber optic sensing network technology can no longer meet the needs of social development, requiring larger capacity and higher flexibility of sensing units and networks. The new fiber optic sensing network presents the following characteristics: large system capacity, high sensitivity, high response speed, multi parameter sensing fusion, and high reliability in harsh environments.

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