HIGH-ACCURACY AND LONG RANGE DISTRIBUTED TEMPERATURE SENSING SYSTEM (DTS) FOR HARSH ENVIRONMENTS
Reliable and high performance Raman OTDR interrogator for field applications.
Measures full temperature profile over fiber optic sensing cables.
The DiTemp Harsh+ Reading Unit is designed for distributed temperature measurements over distances of up to 12 km with 1m spatial resolution and 10s measurement time. Featuring a built-in 4 channels multiplexer, it is designed for use as a stand-alone unit in harsh environments. It features low energy consumption and an extended operational temperature range. Depending on configuration and redundancy, the DiTemp system has been assessed as SIL 1 or SIL 2 compatible (Safety Integrity Level ).
The DiTemp Harsh+ is a unique tool for the measurement of distributed temperature over several kilometers in harsh environment (from desert to arctic). It is a powerful diagnostic instrument for the identification and localization of potential problems. It allows the monitoring of local temperature at thousands locations by mean of a single optical fiber and in just one measurement. Its inherent high stability and self-referenced principle of operation allow on-line or off-line long-term monitoring of large structures.
The measuring principle is based on the RAMAN effect and the Optical Time Domain Reflectometry (OTDR) method. Laser pulses are coupled into the fibers where the photons interact with the molecules of the fiber material. Some photons are scattered backwards and they carry information on the thermal motion of the molecules they were scattered by. Consequently, the spectrum of the backscattered light carries information on temperature of the fibers. This effect can be used to measure temperature along the optical fiber.
The system is used in a wide range of applications that require distributed temperature sensing, such as temperature monitoring of concrete in massive structures, leakage detection of pipelines, seepage monitoring in dams and levees, waste disposal sites, smart buildings, just to name a few.
|Portée de mesure||Harsh SR → 0 – 5 km, Harsh XR12 → 0 – 12 km, Harsh XR20 → 0 – 20 km, Harsh XR30 → 0 – 30 km|
|Résolution spatiale:||Harsh SR → 1 m, Harsh XR12 → 1 m, Harsh XR20 → 2 m, Harsh XR30 → 2 m|
|Échantillonnage résolution:||Harsh SR → 0.5 m, Harsh XR12 → 0.5 m, Harsh XR20 → 1 m, Harsh XR30 → 1 m|
|Résolution de température:||Jusqu’à 0.1°C (Estimations de performance spécifique au projet sur demande)|
|Nombre de voies||Multiplexeur interne 4 voies|
|Typologie de fibre:||MMF 50/125 µm (ITU.T G.651)|
|Température d’utilisation:||Harsh SR → -40°C à +65°C, Harsh XR → -5°C à +65°C|
|Température d’entreposage:||-5°C à +80°C|
|Consommation||Harsh SR → 10 W en attente, 30 W en opération, Harsh XR → 10 W en attente, 35 W en opération|
|Alimentation DC :||12V ou 24V|
|Dimension (HxLxP):||130 x 305 x 365 mm|
|Options de communication :||Satellite / modem sans fil, modem GSM, Connexion directe PC, SR-232, Ethernet|