Fiber Optic Temperature Sensor3m PTFE Coated Temp Sensor, 5cm Polyimide Tip
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- Temperature ranges from -200°C to 250°C
- Sensors require no recalibration
- Accuracy ±0.8 °C (±0.2 °C in relative temperature)
- FOS-LU-* models feature more durable sensor tip coated in polyimide material
- Sensors immune to RFI, EMI, NMR, corrosive and microwave radiation
- Complete the system with a fiber optic monitor.
- Cable extensions available in accessories tab
FOS-LU-3 Model OptionsView all models
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- Connector ST Connector (Straight Tip)
- Probe Sheath Material PTFE
The FOS-Series fiber optic sensors are designed to be reliable and work for a wide range of applications. Fiber optic temperature measurement using the FOS-Series sensors provides accurate ±0.8°C readings combined with a fast response time up to 200 ms. The FOS-Series boasts a -200°C to 250°C temperature measurement range as well as 1.6 mm (1/16") probe diameter.
One of the greatest aspects of fiber optic temperature sensing is that the sensors do not require any recalibration. Fiber optic sensors have high repeatability, stability and no signal degradation due to probe length.
The FOS-Series paried with the FOM-Series fiber optic monitors, temperature measurements can be monitored and datalogged to an Micro SD external memory card and sent to third party datalogger/system through RS-485 output or 0-10 V / 4-20 mA analog outputs.
These devices are used for various applictions and environments. Common applications include transformer factories, chemical processing, medical equipment testing (MRI, PETSCAN, NMR), commercial grade microwave heating, food and beverage processing, electric vehicle and battery testing and wood drying.
Fiber optic sensors transfer information to the fiber optic monitor via light that travels through the fiber optic cable. This is quite different compared to traditional sensors that use resistance/voltage to communicate with monitors. Since fiber optic sensors use light the signal is very fast, reliable and is not influenced by outside forces such as EMI, RFI, NMR or microwave radiation.