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The 3DViz software provides intuitive 2D and 3D visualization of high-definition sensor data. The software allows strain or temperature data from an ODiSI system to be visualized directly on a 3D CAD model or a 2D image.
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The LUNA DOP-201 Degree of Polarization Meter simultaneously measThe LUNA DOP-201 Degree of Polarization Meter simultaneously measures the degree of polarization (DOP) and power of a light source under test.ures the degree of polarization (DOP) and power of a light source under test.
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The LUNA ERM-202 is a rotating-polarizer polarization extinction ratio meter. It is available in single or dual channel versions.
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Unlike conventional strain gages that only measure strain at a discrete point, Luna’s high definition fiber optic strain gages provide continuous, high-resolution (less than 1 mm) measurements of strain along the entire length of the sensor. Sensors are now available in lengths up to 100 m.
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The high-definition strain-compensated (HD-SC) temperature sensors are low-profile, flexible sensors incorporating advanced strain compensation technology to deliver more accurate and reliable temperature data when surface-mounted or embedded.
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Unlike conventional discrete temperature sensors, Luna’s high definition fiber optic temperature sensors provide continuous, high-resolution (less than 1 mm) measurements of temperature along the sensor fiber.
LUNA
HD6T – High-Definition Fiber Optic Temperature Sensors
HD temperature sensors are low-profile versatile fiber optic sensors which, when used with an ODiSI system, can provide more than a thousand distinct temperature measurements per meter. HD temperature sensors consist of polyimide coated fiber housed loosely in a PTFE tube (jacket) to reduce the amount of strain applied to the sensor.
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The continuous fiber grating (CFG) sensor expands high-definition (HD) fiber optic sensing applications for the ODISI with more robust and reliable operation in dynamic environments. CFG Sensors provide a gage pitch of 6 mm and are available in lengths up to 15 m.
LUNA
HDCFG : HD Continuous Fiber Grating (CFG) Sensors
CFG strain sensors are low-profile versatile fiber optic sensors which provide improved immunity to vibration and higher bandwidth of measurement. Compatible with ODISI 6000 and 6100 systems and standard remote modules, CFG sensors provide a valuable alternative for more dynamic environments.
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LUNA
LCA 510 : Component Analyzer
LCA 510 , LCA 513
The LCA 510 is a fast and accurate component analyzer that is ideal for production test and quality control. The LCA 510 provides the high throughput and connectivity needed for the manufacturing floor while delivering the extremely high sensitivity and resolution.
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The LUNA multiport LPD 100 Log Detector is a useful photodiode amplifier designed to measure low light levels, below – 90 dBm.
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LUNA
LWA 7000 SERIES : Lightwave Component Analyzer
LWA 7601-C , LWA 7601-C (with extended rage option)
The LUNA LWA 7601-C Lightwave Component Analyzer is a fast and simple-to-use tool for testing modern optical components and modules, including Photonics Integrated Circuits (PICs). The LWA 7601-C measures and analyzes the Insertion Loss (IL) and Return Loss (RL) distribution, frequency response, as well as length. Optical components are scanned in either reflection or transmission mode.
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The LUNA Optical Backscatter Reflectometer (OBR) 4600 is an ultra-high resolution reflectometer that features a spatial sampling resolution of 10 microns, zero dead zone, and backscatter-level sensitivity. The OBR 4600 offers industry leading technology to precisely track loss and polarization states, allowing you to “see inside” your components and systems.
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The ODiSI 7100 Series is an innovative measurement system specifically designed to address the test challenges of 21st century advanced materials and systems.
LUNA
ODISI 7100 SERIES : Optical Distributed Sensor Interrogators
The ODiSI 7100 Series provides thousands of strain or temperature measurements per meter of a single high-definition fiber sensor. The ultra-high resolution data can fully map the contour of strain for a structure under test or the continuous temperature profile of a process in real time.
The sensor is flexible, low profile, requires no electrical source and can be bonded to sharply curved surfaces, embedded within structures or mounted directly to electrical surfaces.
The ODiSI system captures strain and temperature data with unmatched spatial resolution and precision, delivering valuable benefits for measurement and control applications:
- Capture details not available with conventional point sensors or other fiber optic sensing technologies
- Real-time data from demanding environments and difficult-to-instrument locations
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LUNA
OVA 5100 : Optical Vector Analyzer
OVA 5100 , OVA 5013
The Luna OVA 5100 is the fastest, most accurate and economical tool for loss, dispersion and polarization measurements of modern optical networking equipment.
DataSheet
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The LUNA PDL-201 uses a patented maximum and minimum search method compliant with TIA/EIA-455-198 to simultaneously measure the Polarization Dependent Loss (PDL), Insertion Loss (IL), and optical power of devices in just 30 ms. Unlike PDL meters that use the polarization scrambling method, the PDL-201’s max-min technique is useful for both low and high values of PDL. And unlike instruments that use a Mueller Matrix technique, the PDL-201 has a wide wavelength range without calibration.
The measurement speed of the instrument combined with the remote control interfaces allow it to work in conjunction with tunable lasers in automatic or semi-automatic test stations.
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