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The FCR-7xx200-2 is a standard reflection probe to get spectral information of diffuse or directly reflecting or back-scattering materials.
Via a standard SMA905 connector light from a light source is coupled into a fiber bundle, consisting of 6 fibers and carried to the probe end. The surface will selectively reflect light back into a 7th fiber. This fiber transfers the data to the output SMA905 connector, which can be coupled to a spectrometer or spectrum analyzer.
A higher number of fibers are possible to couple more energy from the light source and to increase the signal level.
For measurements under 90º the FCR-90-Option, a special adapter with a mirror under 45º, was developed, which can be easily mounted on the tip of the reflection probe.
The FCR-COL is available to focus the measurement spot on an extended distance.
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Ocean Optics sensor systems are ushering in a new generation of low-cost, portable chemical-sensing devices. Thanks to innovation in the development of chemical-sensing complexes -- particularly those with fluorescing properties -- products such as our Oxygen Sensor systems will continue to provide viable alternatives to traditional chemical-sensing devices such as electrodes. The use of optical-sensing methods lessens the reliance on the electrochemical technologies that have dominated the field of oxygen sensing.
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FiberStar's OEM, Integration Marking Systems offer the benefits of a Direct Metal Marking, non-contact, abrasion-resistant, permanent laser marking onto almost any type of material. High-speed, high precision, micro-marking FiberStar systems are ideal for a wide range of industries and integration applications.
FiberStar Systems offer state-of-the-art technology with the highest laser beam quality and more than 30,000 hours of maintenance-free operation. High precision markings are achievable on almost any type of material including stainless steel, strength alloys, carbide, copper, titanium, platinum, aluminum, as well as a wide variety of medical-grade alloys and plastics.
Identification text, serial numbers, corporate logos, 2D data matrix, bar coding, graphic and digital images, or any individual process data can be produced with laser marking.
- Logos, certification symbols,barcodes, serial codes, and 2-D data matrix code
- Simple custom text, serial numbers, bitmaps, graphic and CAD-files (HPGL)
- Marking and cutting of foilsand light-gauge steel sheets (ie. labels) in one cycle
- Rapid marking on precious metals with heat-sensitive materials
- Plastic materials: day & night design for items such as mobile phone keyboards, dashboards, and other illumination components for aerospace and automotive markets
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FiberFly is the ultimate solution for precision marking and micro-processing of all types of metals and plastics. Extremely compact, modular and perfectly sealed, it is configured for easy integration into any industrial production line. The FiberFly system offers the perfect combination of reduced operating costs and high throughput.
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Impulsato laser to active fiber optic with powers from 10 and 20 Watt.
This laser answers to the productive necessities more demanding guaranteeing the maximum rapidity of working, and is particularly apt for the labelling of a wide range of metallic and plastic materials and for microworkings and microcuts of precision
The force points:
Head of dislocabile scanning
Elevated efficiency
Highest quality of the bundle laser
Spot of scrttura ridottissimo
Stability in power
Reduced it blocks
Duration of the diode valves:
- Till 30.000 hours
- Maintenance ridottissima: only the cleansing of the disc of a valve
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The FiberMark G1 is a a breakthrough in laser marking technology. Epilog has taken its fiber laser technology and designed a galvo unit that produces amazing engraving speed. Using our exclusive OpenArc™ driver interface, you can print directly to the FiberMark G1 without having to convert your artwork or learn any proprietary software!
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Up to 24 channels (48 fibers).
For installation in 19" racks in distirbutors acc. to ISO /IEC 11801, ISO / IEC 24702 and EN 50173 family. Ready to accept all common types of factory or on-site assembled cables. Especially suited to accept our factory assembled OSI PreCONNECT® cabling system.
Two types are available:
fixed installation
telescopic complete-pullout
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The OP104 is a modular approach to passive components. By packaging couplers, splitters, WDM, isolators and polarizers into a rugged module test setups can be better organized with less 'floating' fiber and coiled up patch cords.
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FEATURES
- Compatible with IEEE 802.3u Fast Ethernet data communications standard
- Logic interface compatible with both LVDS (Low-Voltage Differential Signaling) and CML (Current-Mode Logic)
- Integrated CMOS driver IC
- Resonant Cavity LED at red 650 nm with small emission aperture suitable for POF
- Resonant Cavity LED reliability tested to over 400,000 hours lifetime
- High sensitivity receiver IC and pin-diode for one-step light to digital conversion
- Integrated optics to efficiently focus and direct light
- Low power consumption
- Optimized for high-speed Fast Ethernet of 125 Mbps
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FEATURES
- Compliant with MOST® optical physical layer specification revision 1.1 over an operating temperature range of -40ºC to 95ºC
- Enables an optical budget of 21 dB, an improvement of 8 dB over the MOST physical layer specification revision 1.1
- Transmitter high-speed RCLED source provides high optical power with lower operating current and fast rising and falling optical edges
- Stable "sleep mode" operation with exceptionally low current consumption of only 10 µA.
- RoHS compliant
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The 622Mbps transceiver series products from HTOE are high performance, cost effective modules for serial optical data communication applications specified for a singlemode of 622 Mb/s. These modules are intended for Single-mode fiber, operate at a nominal wavelength of 1310nm and complies with the industry standard 1×9 footprint. Each module consists of a transmitter optical subassembly, a receiver optical subassembly and an electrical subassembly. It operates with +5V or +3.3V power supply. All are housed in a plastic package and the combination produces a component of high reliability.
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1U FIBRE OPTIC TRAY
Several different configurations available (16/24/42 fibres). All optical connections (over length, cross conection, splice tray). Pull out and swivel models. Custom models are also available.
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RapidNet is a patented, high performance, pre-terminated system that utilizes a proprietary bundled cable cut to customer specified lengths. Combined with our patented cassettes, which protect the terminations, installation is a snap - literally. The cassettes snap easily into the RapidNet modular panel which fits into a standard 19" rack. RapidNet, manufactured in a stringent, quality controlled environment, arrives pre-labeled and pre-tested which contributes to higher quality and lower installation times. Because it can be installed so quickly and carries a high degree of performance and reliability, RapidNet is the ideal solution for mission critical data centers, temporary networks, and disaster recovery planning.
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The Rosenberger-OSI „Data-Center-Rack“ has been developed especially for FO patch distributors in data centers. In data centers the requirement for highest density becomes increasingly more important than in other cabling areas. To lead the through the very high density emerging large cable volumes professional and appropriate away from the patch fields, new cable management solutions are needed.
Advantages:
- installation of single data racks
- module system
- variable side wall and rear wall doors concept
- cable management system
- accessories
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Distributed Feedback (DFB) Diode Lasers are fixed wavelength single mode diode lasers. Typical geometrical sizes of the laser chip are 1000µm x 500µm x 200µm (length x width x height). The laser chip is grown by MOVPE of compound semiconductor material. The optical gain is provided by double heterostructure which include several Quantum Wells for electronic confinement. Typcal emitter width range between 3µm and 7µm. The single mode emission is enforced by a Bragg grating with the laser chip. The surfaces of the laser chip act as cavity mirrors due to the difference of the refractive index of the laser material and the surrounding air. The rear facet of the laser chip is provided with a high reflection coating. The front facet of the laser chip is provided with a high quality antireflection coating for avoiding the Fabry Perot modes of the laser chip. Distributed Feedback (DFB) Diode Lasers are available at almost any wavelength between 760nm and 2800nm.
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BC4 series diode laser beam combiners can combine up to four laser diodes with similar (at least two different wavelengths with 50 nm spacing) or disimilar wavelengths (at least 50 nm spacing) .
Photo monitor of the combined power output is an optional addition.
The standard package features an SMA receptacle for multimode fiber coupling. The combiners can accept both 5.6 mm and 9.0 mm TO packages.
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