HYPERION si155 Fiber Optic Sensing Interrogator

Cleaning Tools for Optics;CLETOP;Lever Cassette;Multi-Core;MT;MPO

4-16 Channels; Dynamic Range 25 dB; Sampling Rate 100-1,000 Hz; Wavelength Range 1460-1620 nm; Wavelength Accuracy 1, 2 pm; Wavelength Stability 1, 3 pm; Optical Fiber Connectors LC/APC Luna’s HYPERION si255 is an industrial-grade, fan-less fiber optic sensing interrogator. Featuring both static and dynamic full spectrum analysis, Luna’s HYPERION si255 robust, turn-key interrogator provides long-term, reliable and accurate measurements of nearly 1000 of Fiber-Bragg Gratings (FBGs) or extrinsic Fabry-Perot (FP) sensors on 16 parallel, 160 nm wide channels. The si255 interrogator features an all new, high-power, low-noise, ultra-wide swept wavelength laser with guaranteed absolute accuracy on every scan which is realized with Luna’s patented Fiber Fabry-Perot filter and wavelength reference technology. The all new HYPERION platform, on which the si255 is based, features new and groundbreaking capabilities including high-performance on-board DSP and real-time FPGA processing. This enables rapid full-spectrum data acquisition and flexible peak detect algorithms of Fiber Bragg Gratings (FBG), Long Period FBGs (LPG), Fabry-Perot (FP) and Mach-Zehnder (MZ) sensors with low-latency access to data for closed-loop feedback applications. HYPERION static full-spectrum optical interrogators measure the full optical spectrum of the optical sensor signals and can be equipped with a NIST absolute reference cell. The performance of the static interrogator module is characterized by high dynamic range and high absolute wavelength accuracy. The HYPERION platform is now compatible with the ENLIGHT sensing analysis software, which provides a single suite of tools for data acquisition, computation, and analysis of optical sensor networks. More information on the ENLIGHT software can be found in the downloadable datasheet. The HYPERION platform also includes a comprehensive fully supported application programing interface (API) and LabVIEW, Python, Matlab, and C++ examples. Whether an application requires static or dynamic real-time acquisition or periodic monitoring, Luna offers the right instrument for the job. Proven to be an essential element in reliable, long-term sensing measurement installations, Luna’s sensing instruments have been installed in hundreds of challenging applications all over the world, including large-span bridges in China, earthquake monitors in California, oil platforms in Brunei and marine vessels in the North Sea. Key Features: Full Spectrum at 1 kHz With 160 nm on up to 16 Parallel Channels Simultaneously, Eliminating the Need for Optical Switches Dynamic and Absolute Measurements of Fiber Bragg Gratings (FBGs), Long Period FBGs (LPGs), Fabry-Perot (FP) and Mach-Zehnder (MZ) Optical Sensors From Detailed Optical Spectrum Single and Continuous 25 dB Dynamic Range, Available to Each Sensor on Each Channel, Independent of Differential System Losses Modes: Enhanced Visibility (10 Hz), Standard (100 or 1,000 Hz), High Speed (5,000 Hz) Number of Parallel Channels: 4, 8, 16 Wavelength Range: 1500 to 1620 nm Wavelength Accuracy / Stability: 1 pm/1 pm, 2 pm/3 pm Optical Fiber Connectors: LC/APC Data Verification Key Guarantees only Valid Output. Each Data Set is Calibrated and Verified Against any Potential Sources of System Error (Coming Soon) Proven Reliability and Longevity of the Luna Swept Wavelength Source, With Over 100 Million Hours Logged Since 2000 Dimensions: 307 x 274 x 69 mm Applications: Fiber Optic Sensing of – Oil & Gas; Medical Devices; Industrial Measurements; Energy; Structures; Security; Aerospace

Cleaning Tools for Optics;OPTIPOP;Cassette Grip;Single-Core;Multi-Core;MU;LC;SC;FC;ST;MT;MPO;MTRJ

Cartridge;OPTIPOP;Consumable

1 Channel; Dynamic Range >15 dB; Wavelength 780 nm; Spatial Resolution 10 cm; Measurement Range 250 m; Temperature Accuracy 1.5 °C; Optical Fiber Connectors E-2000 APC, Other Luciol Instruments’ LDT-100 high-resolution distributed optical temperature sensor measures the temperature profile across standard optical fibers. The measurement technique is based on Raman scattering. Due to the temperature dependence of the Raman scattering signal (Anti-Stokes), temperature variations along the sensing optical fiber are transformed in a variation of the backscattered signal. The LDT-100 uses photon-counting technology to achieve a high detection efficiency and very high spatial resolution. An internal temperature calibration reference makes the system ready for testing and minimizes time consuming user re-calibration. The LDT-100 also integrates OTDR testing capability which allows integrity and condition testing of the sensing optical fiber. The LDT-100 is a fully portable, simple and easy-to-use instrument, with user-friendly GUI software. A desktop version with USB interface is available as an option. If the standard models should not meet your needs, contact AMS Technologies with your requirements and together let us find the customized solution to your fiber optic measurement challenge Key Features: Fully Portable Format Measurement Range: 250 m Sampling Resolution: 2 cm (200 ps) Temperature Spatial Resolution: 10 cm Temperature Accuracy: 1.5 °C Operating Wavelength: 780 nm Optical Pulse Width: 1 ns Fiber Type: MMF 62.5/125 µm Optical Connector: E-2000 APC, Others on Request Integrated Calibration OTDR Testing Capability Dynamic Range OTDR: >15 dB Event Dead-zone OTDR: 10 cm Typical Attenuation Dead-zone OTDR (for ORL = 45 dB): 40 cm Typical Distance Accuracy OTDR: ± (10 mm + 5 x 10-5 x Fiber Length) Desktop Format Option Operating Temperature: 0 to +40 °C Weight: 3.1 kg Dimensions: 320 x 240 x 90 mm Applications: Distributed Temperature Monitoring With cm Spatial Resolution; High-resolution Temperature Profile Measurement; Temperature Surveillance; Other