Luna - PHOENIX 1400 - Tunable Laser Source
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Full C-band tunability
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Smooth, linear scans
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Narrow linewidth, low noise
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Wavelength calibration in seconds
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Integrated wavelength and power monitors
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External triggering
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2 optical detectors and data acquisition channels
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Industry leading wavelength accuracy and resolution
Luna’s PHOENIXTM 1400 Benchtop Tunable Laser incorporates Luna’s PHOENIXTM tunable laser and driver in a benchtop package. The laser is a miniaturized, tunable external cavity laser driven by a circuit designed for low noise and highly linear swept performance appropriate for a variety of fiber optic test, measurement and sensing applications. Application software gives the user simple but effective control of the laser. It also provides for monitoring of wavelength, power and two user accessible optical receivers.
More Product Information
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Collinear design
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Two measurement ports (0° and 90°)
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Potential to use both ports at once
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Fiber coupled for ease of movement
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Compact design allows access to confined locations
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External connections for ease of use
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Single fiber umbilical simplifies connection
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Multiple lenses available
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Robust mechanical design
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Ruggedized sensor package, qualified to same rigorous standards applied to electronic gages
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Integrated temperature compensation FBG sensor
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Connector protection fittings available for harsh environments
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Double-ended design supports multiplexing of many sensors on one fiber
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Patented micro opto-mechanical technology
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Up to 450mm measurement range using a 1 mm stainless steel cable
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Rugged aluminum enclosure with IP65 rating; suitable for outdoor installations
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Internal protection of connectors/splices
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Double-ended design supports multiplexing of many gages on one fiber
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Fully temperature compensated over the entire operating range
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Fast response time, stable measurements, high resolution
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Fast, simple, repeatable installation
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Double-ended design supports multiplexing of many sensors on one fiber
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Qualified to same rigorous standards used for comparable electronic gages
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Gage installation and protection achieved with same methods as conventional electronic gages
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Included in ENLIGHT’s sensor templates for quick and easy optical to mechanical conversions
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The T‑Gauge® Control Unit (TCU) is the central component of the T‑Gauge® family of products and serves as the source of the optical and electrical signals necessary to generate and detect terahertz. The TCU also transforms analog data into a digital signal that can be analyzed using the onboard processor and interacts with the wide variety of THz accessories.
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The TCU is a 19 inch (483 mm) rack, wall, or table mountable instrument, consisting of an ultrafast laser, high-speed optical delay, ranging optical delay, power supplies, and signal conditioning electronics, with connectors for convenient interfacing to various optical and electronic components. The high-speed delay included in the TCU can be chosen from a number of delay length and speed options. When utilized in conjunction with T-Gauge® accessories, the TCU enables the user to generate and detect pulsed terahertz energy for a wide variety of measurements.
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Multipoint temperature measurements on the same probe
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Ease of installation simple and repeatable installation
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500 and 700 °C capable
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Up to 304 sensors on a single HYPERION instrument
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Multiparameter various physical parameters measurements coupled onto the same instrumentation platform
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Included in ENLIGHT’s sensor templates - allows for quick and easy optical to temperature conversions
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2000 VA, 1400 W, 115 VAC, 60 Hz input and 115 VAC, 60 Hz output, double conversion, on-line, isolated rugged UPS with power factor correction for military applications
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Distributed reflectivity measurement
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Event detectionLarge RL range
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High spatial resolution
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Clear identification of large and small peaks enables easier data interpretation
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Low-profile and flexible for complex geometries
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Strain compensation for high accuracy measurements in surface and embedded applications
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Polyimide coated fiber housed in PTFE tube
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Dielectric and EMI/EMC immune
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Plug-and-play operation with ODiSI system
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Requires Extended Range Remote Module when used with the ODiSI system
Luna Innovations
Luna Innovations mission is to help advance the continuing increase in data transmission rates for the public & private communications network with high speed optical receivers and test products, while also leveraging our unique fiber optic sensing technology to improve the structural testing of new composite elements and components in new aircraft and automobiles.
Luna Innovations Incorporated (NASDAQ: LUNA) was founded in 1990 and has been successful in taking innovative technologies from the applied research stage to product development and ultimately to the commercial market. In some cases, the successes led to the creation of independent businesses. We have created companies in our area of focus, sold some of them to industry leaders in their fields, raised private capital, formed joint ventures and entered into a number of licensing agreements.
Contact Details
Luna Innovations Inc.
301 1st Street, SW, Suite 200, Roanoke, VA 24011, USA
Phone: 540-769-8400