HYPERION si155 Fiber Optic Sensing Interrogator

Sleeve-Thru;Polarization Maintaining;FC/PC

Polarization Insensitive; 1100 to 1650 nm; Bandwidth 1 to 18 nm; Insertion Loss 3 dB; PDL <0.3 dB; Fiber Type SM, PM; Connector Type FC/PC, ST, SC, LC, MU, None OZ Optics’ BTF-11 series of manually adjustable variable bandwidth tunable filters are pigtailed components with adjustment knobs that allow both the wavelength and bandwidth of the filter to be controlled. The devices contain two independently variable tunable bandpass filters in series. With the two filters tuned to cover slightly different wavelength ranges, the overall passband becomes the region where the two individual passbands overlap. The amount of overlap determines the width of the filter. Since each filter can be tuned over a range of wavelengths, both the center frequency and width of the passband can be controlled. Each individual filter consists of a multi-layer thin film band pass filter, designed to give a flat top pass band, with steep roll-off shapes. The center wavelength of the filters is adjusted by changing the angle of incidence of the light as it impinges upon the filter. In the BTF-11 series of variable bandwidth tunable filters, each filter is independently rotated relative to the incoming light, in order to change the passband. OZ Optics uses a special technique to minimize polarization dependencies, allowing PDL effects to be kept below 0.3 dB, and making the spectral response virtually polarization independent. This feature makes the BTF-11 series ideal for today’s DWDM system applications. Variable bandwidth tunable filters using single mode (SM) and polarization maintaining (PM) fibers are offered. In general, OZ Optics uses polarization maintaining fibers based on the PANDA fiber structure when building polarization maintaining components and patch cords. However, OZ Optics can construct devices using other PM fiber structures. OZ Optics also carries some alternative fiber types in stock, please contact AMS Technologies for availability. If necessary, OZ Optics is willing to use customer supplied fibers to build devices. In addition to the BTF-11 series of manually adjustable variable bandwidth tunable filters, OZ Optics provides four further series of tunable filters – BTF-100 series of motorized adjustable variable bandwidth tunable filters, TF-100 series of digital tunable filters, TF-100-11 series of motor driven tunable filters, and finally TF-11 series of manually adjustable polarization insensitive tunable filters. If you are looking for filters with a fixed wavelength, have a look at OZ Optics’ FF series of fixed filters. Key Features: 45 nm Tunable Wavelength Range 1 to 18 nm Continuously Adjustable Bandwidth Wavelength and Bandwidth Independently Tunable Flat-top Filter Shape Available for Wavelengths from 1100 to 1650 nm Polarization Insensitive High Resolution Single Mode (SM) and Polarization Maintaining (PM) Fiber Versions High Out-of-band Suppression High Input Power Handling Applications: WDM Channel Filtering; High-speed Transmission Testing; Signal Filtering; Laser Pulse Shaping; ASE Light Noise Suppression; Tunable Light Sources; Spectral Analysis; Fiber Optic Component Manufacturing; Quality Control and Measurement; Product Development  

Sleeve-Thru;Single Mode/ Polarization Maintaining;FC/PC

1-4 Channels; Dynamic Range 17-45 dB; Sampling Rate 10-5,000 Hz; Wavelength Range 60-160 nm; Wavelength Accuracy 1 pm; Wavelength Stability 1 pm; Optical Fiber Connectors LC/APC Luna’s HYPERION Single Board Interrogator is a high-performance optical sensing instrument that offers unmatched ease of integration for OEM systems. A full suite of software tools typically only available to high end instruments is among one of the many features of the HYPERION Single Board Interrogator. Derived from Luna’s HYPERION si155 platform, the HYPERION Single Board Interrogator leverages the unmatched gains which are realized with Luna’s patented fiber Fabry-Perot filter and wavelength reference technology. The HYPERION Single Board Interrogator features groundbreaking capabilities including high-performance DSP and real-time FPGA processing on-board, which enables rapid, flexible peak detect algorithms of Fiber Bragg Gratings (FBG), Long Period Gratings, Fabry-Perot (FP), Mach-Zehnder (MZ) sensors, and others 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 Single Board Interrogator is 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. This interrogator also includes a comprehensive application programing interface (API) and examples written in LabVIEW, Python, Matlab, C++ and C#. 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: Truly Turn-key Solution Providing Quick Start-up and Data Collection With Minimal Software or Electronic Design Required for System Implementation With Added Benefit of Reduced Cost Dynamic Measurements of Fiber Bragg Gratings (FBGs), Long Period FBGs (LPGs), Fabry-Perot (FP) and Mach-Zehnder (MZ) Optical Sensors From Detailed Optical Spectrum Data Verification Key Guarantees only Valid Output. Each Data Set is Calibrated and Verified Against an Available Permanent NIST Traceable Reference Feature-rich ENLIGHT Software and API Support, Available at No Cost for Sensor Conditioning, Data Visualization and Data Saving Definitions Deep, Continuous Dynamic Range of 17 to 45 dB is 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: 1 to 4 Wavelength Range: 60 to 160 nm Wavelength Accuracy / Stability: 1 pm Optical Fiber Connectors: LC/APC Proven Reliability and Longevity of the Luna Swept Wavelength Source, With Over 100 Million Hours Logged Since 2000 Dimensions: 203 x 273 x 53.5 mm Applications: Fiber Optic Sensing of – Oil & Gas; Medical Devices; Industrial Measurements; Energy; Structures; Security; Aerospace

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