דער פאַבריקאַנט פון פיברע אַפּטיק טעמפּעראַטור סענסאָר, טעמפּעראַטור מאָניטאָרינג סיסטעם, פאַכמאַן OEM / ODM פאַבריק, כאָולסיילער, סאַפּלייער.קאַסטאַמייזד.

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פונאנדערגעטיילט אָפּטיש פיברע טעמפּעראַטור מעזשערמאַנט

פיברע אַפּטיק טעמפּעראַטור סענסער, ינטעליגענט מאָניטאָרינג סיסטעם, פונאנדערגעטיילט פיברע אַפּטיק פאַבריקאַנט אין טשיינאַ

פלורעסאַנט פיברע אַפּטיק טעמפּעראַטור מעזשערמאַנט פלורעסאַנט פיברע אַפּטיק טעמפּעראַטור מעזשערמאַנט מיטל פונאנדערגעטיילט פלואָרעססענסע פיברע אַפּטיק טעמפּעראַטור מעזשערמאַנט סיסטעם

The full name of fiber optic temperature measurement is fiber optic temperature measurement, which can be mainly used in power equipment. It provides fluorescence fiber optic temperature measurement, פונאנדערגעטיילט פיברע אַפּטיק טעמפּעראַטור מעזשערמאַנט, and fiber Bragg grating temperature measurement. די פּרייַז איז גלייַך, please feel free to contact us.

The distributed fiber optic temperature sensing system can continuously measure the temperature along the fiber optic cable, with a measurement distance of several thousand meters and a spatial positioning accuracy of meters. It can perform uninterrupted automatic measurement and is particularly suitable for applications that require large-scale measurement. The traditional method for measuring temperature in distributed fiber optic temperature sensing systems is to use Stokes light to demodulate anti Stokes light, דאָס הייסט, to obtain the intensity ratio of anti Stokes light to Stokes light, and then compensate for the attenuation of the intensity ratio signal.

Distributed fiber optic temperature measurement technology is widely used in temperature measurement and monitoring in hazardous areas, important areas, pressure vessel surface temperature measurement and monitoring, large-scale and large-scale temperature measurement and monitoring, as well as temperature measurement and monitoring in the transportation field. Distributed fiber optic temperature measurement is widely used in temperature monitoring and fire alarm of facilities such as power, פּעטראָוקעמיקאַל, transportation, בנינים, and water conservancy;

Distributed fiber optic temperature measurement system parameters

מעזשערמאַנט ווייַטקייט: 0-16km (industry-leading)
מעאַסורעמענט צייַט: 2s/channel (industry-leading)
Temperature measurement accuracy: ± 0.5 ℃ (full range)
Temperature resolution: 0.1 ℃
Number of channels: 1-8 (אַפּשאַנאַל)
Temperature measurement range: -40 ℃~85 ℃ (conventional optical fiber):
-40 ℃~250 ℃ (special optical fiber)
Sampling interval of 0.4m, 0.8m (industry best)
Spatial resolution: 1m, 2m, 3m
Positioning accuracy: 1m

Distributed fiber optic temperature measurement host interface:

Fiber optic connector: FC/APC
קאָמוניקאַציע צובינד: עטהערנעט, וסב, RS232
Relay: 16 temperature alarms, 2 סיסטעם חסרונות

Working conditions of distributed fiber optic temperature measurement host

Working temperature: -10 ℃~60 ℃
Working humidity: 0-95% R H
No condensation
Working power supply: DC 24V, AC
220V (אַפּשאַנאַל)
IP level: IP50

Characteristics of Distributed Fiber Optic Temperature Measurement Products

It can continuously obtain measurement information along the detection optical cable for tens of kilometers, with low false alarm and false alarm rates, and can achieve real-time monitoring. Ultra low power consumption, host power consumption less than 15W, fanless design. Anti electromagnetic interference, can work normally in high electromagnetic environments. Long measurement distance, suitable for remote monitoring. Equipped with GPRS SMS alarm function, no need for manual monitoring. Support multiple fire alarm methods including early warning, differential temperature, and fixed temperature. Alarm zones and alarm temperatures can be set arbitrarily. Long lifespan, נידעריק פּרייַז, and simple system.

Distributed fiber optic temperature measurement application field

Fire monitoring and alarm in tunnels, ונטערבאַן, and highways, as well as monitoring leaks in oil and gas transmission pipelines or storage tanks,
Temperature monitoring and fault point detection of oil depots, oil pipes, and oil tanks, surface temperature detection and fault point positioning of power cables, fire monitoring of cable tunnels and interlayers, temperature monitoring of power plants and substations, fault point detection and fire alarm, leakage of dams and embankments, and concrete solidification and maintenance temperature of dams, embankments, and bridges.

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