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Fiber-coupled Laser Diode Packages
Lasertel’s fiber-coupled laser diode packages deliver a wide range of optical output powers with the performance and efficiency that your applications demand.
Lasertel delivers…
* Multiple power levels and peak wavelengths
* Alternate connector terminations
* Various fiber lengths and numerical aperture options
* ISO 9001:2000 and RoHS compliance
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FDL is a CW laser source (continous wave emission) with a wave length range from 810 to 980 nm, normally adopted in the field of mid-high powerdiode laser system.
Projected, engineered and patented by Laservall, FDL utilises a unique laser beam re-shaping module (realized in class 1000 white room), which allows the beam injection in a small diameter monocore optic fiber, obtaining, at the end of it, an extremely high brightness spot and excellent precision in the area thermally affected. FDL has been designed for industrial application and industrial environment, thanks to the small dimension (power rack only 19") and to the air cooling system. The optic fiber allows to set the focussing head far from the power supply, giving to the system a grat freedom and flexibility. Laser emission is controlled by a remoted command box panel (for stand alone units) or by other control systems such as PLC, PC, Host Computer.
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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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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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LOW COST, armored fiber optic immersible dip probes, 2 SMA 905 connectors, (2) 400 micron fibers, specify UV/VIS or VIS/NIR, includes 1 cm (10mm) path length tip. Optional tips provide 2mm, 5mm, and 20mm path lengths.
LOW COST, armored fiber optic reflectance probes, 6 illuminating around 1 read fiber (400um), 3 SMA 905 connectors, 4 inch stainless steel ferule, specify UV/VIS or VIS/NIR.
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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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The state-of-the-art oxygen sensor getOtwo is based on the principle of fluorescence quenching. It is therefore possible to detect even extremely low oxygen concentrations.
Usual standard electrodes can be replaced due to getOtwo's shaft having an outer diameter of only 12mm.
Long tool life at minimized maintenance efforts guarantee low operating expenses at high measuring safety.
Applicable for
- water analysis
- beverage analysis
- concentration measurements, e.g. in slurries, oils ...
- monitoring of processes of oxidation
- fermentation monitoring
- monitoring of filling processes
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Reflectance Dependent – analog
The D type fiber optic sensors are a family of very high performance non contact displacement sensors. With resolutions, down to 0.002 µm and measuring ranges from 1 to 50 mm and a 200 KHz + frequency capability. Their rugged construction and compact size means they are suitable for measurements inside of mechanisms, submerged in fluids and hostile environments. The sensors can measure to any surface that reflects light and are commonly used in applications where the target moves in the sensor axis such as vibration monitoring.
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Reflectance Compensated – Analog
The RC type fiber optic sensors are a family of very high performance non contact displacement sensors. With resolutions, down to 0.01 µm and measuring ranges from 0.5 to 21 mm and a 200 KHz + frequency capability. Their rugged construction and compact size means they are suitable for measurements inside of mechanisms, submerged in fluids and hostile environments. The sensors can measure to any surface that reflects light even if the surface reflectivity changes. The sensors are suitable for applications where the target is moving past the sensor such as a rotating shafts or moving sheet.
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DIGITAL
The DMS (Displacement Measurement System) fiber optic displacement sensors are a family of very high performance non contact displacement sensors. They have an internal microprocessor that provides direct output of distance and reflectance via RS-232 interface or USB. With resolutions down to 20 nm and measuring ranges from 0.5 to 50 mm and a 5 KHz frequency capability. Equipped with a built in LCD display showing distance and reflectivity these rugged sensors are very easy to use. Lower cost mini-DMS units are available for PC control only, they do not include the LCD display or keypad. Includes operating software & LabVIEW Drivers. DMS sensors are available with either the D Type or RC Type fiber optics.
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The Fischer 1053TM Fiber Optic HDTV Camera Connector meets the Broadcast industry’s requirements for an effortless transition to fiber-based HDTV cameras. Proven reliable in the field, it is fast and easy to terminate.
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Conax has adapted our proven soft sealant capability to include the ability to compress a soft sealant material around the outside diameter of a fiber optic cable. The fiber optic cable is encased within a rugged stainless steel sheath that protects the cable from damage during the sealing process. This sheath is then placed through a sealing gland. This process allows the fiber optic cable to be sealed without the use of epoxies and with minimal out-gassing.
The fiber optic feedthrough sub-assembly can be used with various Conax sealing glands, including multiple hole fittings.
Features:
-Wide range of connector terminations: ST, SMA, FC, FC/APC, FC/PC and SC/APC
-Standard fiber core sizes: 8.3, 62.5, 100, 200, 400, 600, 700 micron & larger
-Adaptable to customer-supplied fiber
-Can seal outside jacket diameters from 400 to 1040 microns
-Protection Tubing: Standard furcation tube (black in color) is constructed of
a polypropylene inner tube with a dried Kevlar¨ Aramid yarn strength member
and a 3.0 mm outer polyethylene jacket.
-Models FSA2 and FSA4 are available with a low-outgassing furcation tube.
Please specify FSA2B or FSA4B for this feature.
Benefits:
-Rugged construction
-Fiber optic cable is protected inside the sheath
-Uses low outgassing materials
Specifications:
-Helium Leak Rate: 1 x 10-6 scc/sec typical
-Transmission Loss: Less than 0.3db typical (not including connectors)
-Pressure Rating: 1000 psig (70 bar) standard, up to 3000 (207 bar) psig
optional
-Temperature Rating: -4° F to +185° F (-20° C to +85° C) Higher temperature
models are available in some configurations. Please consult factory.
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GeoSil™ Pure Silica Core Optical Fibers are now available in single-mode or multimode designs for Distributed Temperature Sensing (DTS) and other geophysical well applications. The pure core design is critical to the performance of optical fibers deployed down oil or gas wells where conditions include temperatures that routinely exceed 250°C with high pressure and hydrogen gas. GeoSil fibers are coated with PYROCOAT® polyimide, a specialty coating that allows temperature performance to 300°C and imparts abrasion and chemical resistance plus a small form factor (155 µm diameter) to the sensing fiber in a DTS system. When conventional fibers with germanium-doped cores are exposed to hydrogen at high temperatures, permanent defects can occur. These defects can result in a rise in attenuation which significantly limits the lifetime of the fiber sensor. Optical fiber with a pure silica core is extremely resistant to this phenomenon and can perform far longer in the downhole environment limiting the expense associated with replacement of new sensors. These fibers are part of the GeoFibers™ family of products optimized for geophysical applications.
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The Luxtron I652 is a fiber optic temperature measurement system designed with two measurement channels and easy to read LED display. The I652 can easily be incorporated into an industrial control scheme through the RS-232 or Analog Output ports.
Benefits
Immune and Strong :
- Fluoroptic® fiber optic temperature sensors for the I652 are immune to EMI, RF, and microwave interference
- All three types of fiber optic sensors are Kevlar® strengthened sandwiched between chemically resistant PFA Teflon®.
Field Proven and Long Lasting :
- Thousands of Luxtron Fluoroptic fiber opitc temperature measurement systems installed worldwide
- Luxtron Fluoroptic fiber optic temperature sensors been continuously working in field equipment for over 25 years.
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Our getTemp is a fibre optic coupled thermometer for temperature measurement in high electromagnetic interfered environment, in micro-wave fields and places where measurement with electric temperature probes is not possible. getTemp is an user-friendly, easy to handle and compact measurement device for several fields of application. It is available as 1, 4, 8 or multichannel version. getTemp can be adapted to your special requirements (interfaces, probe length, accuracy, temperature range)!
getTemp garantuees comfortable and save temperature measurements showing total system accuracies of ± 2°C even under hard measurment conditions. Limiting the temperature range produces system accuracies of up to +/- 0,1°C.
Applications
- Medical and Biomedical (MRT / MRI)
- Microwave and HF applications
- Plasma applications
- Power utility industry
- Food industry
- Chemical industry
- Process Monitoring
- Aerospace
- High voltage transformers
- Semiconductor wafer processing
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Carbon Fiber Oxidation Oven: Center-to-ends airflow for optimal temperature uniformity resulting in consistently oxidized density across the entire tow.
Oxidation is considered to be one of the most important process steps, yet is also considered the process step that still has the greatest improvement potential. Since oxidation is an exothermic process, uniform, consistent airflow to uniformly remove heat from all tows across the web is a critical success factor. The Despatch Center to Ends Carbon Fiber Oxidation Oven produces a uniform airflow over the tows allowing the process to be operated closer to the “exotherm”, increasing the chemical reaction rate. Airflow turbulence is minimized to prevent cosmetic damage to fiber tows. Consistency of process results in no skinning (uncured core) and more uniform densification across the entire tow band. Center to End airflow provides for up to 30% faster rates of oxidation than conventional cross flow or vertical down flow oven designs.
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UltraMAX Chopper & Saturator
The MVP UltraMAX™ FIT® Chop system is THE ONE the other guys compare themselves to.
Rapid Access Design for easyacces
Low Pressure FIT® Technology
The MVP UltraMAX™ FIT® Chop system is THE ONE the other guys compare themselves to. The MVP UltraMAX™ FIT® Chop system delivers power, versatility and rugged construction for long lasting use. MVP's Rapid Access Design (RAD) serves you with easy maintenance, and reliable performance.
The MVP UltraMAX™ FIT® Chop system is the low pressure champion. If your goal is to make quality parts with minimal overspray and no wasted materials, then low pressure is the way to go. With the UltraMAX™ pumping system, the MVP FIT® Chop system utilizes the lowest pressure (15 - 30 psi) on the market.
The latest technology in emissions control is the patented FIT® (Fluid Impingement Technology). When you use FIT® technology, you can be assured you are armed with the latest state-of-the art weapon against harmful emissions. The MVP UltraMAX™ FIT® Chop system has the lowest emissions available.
Precision counts! The key to efficient FRP production is achieving a uniform laminate. With no splashing or bounceback and less air entrapment, the UltraMAX™ FIT® Chop system produces a stronger, more uniform laminate. Call today and let us create the solution for your FRP needs!
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Simultaneous resin & fibreglass spray-up is nowadays employed in a great variety of applications.
Matrasur Composites proposes a series of spray-up machines which cover a wide flow rate range, from small complex parts to large parts.
These machines can be equipped with 6 different spray-up guns and 4 different fibre choppers.
Contact us in order to determine together the chopper unit that adapts the best to your application. Rollers and other accessories complement our chopper systems.
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Automated Fiber Placement (AFP) is traditionally used on very complex surfaces and smaller structures and utilizes single or multiple narrow, slit tapes or tows to make up a given total prepreg band width. This is typically the case within Automated Dynamics as well, but we have taken some liberties with the definition when it improves the Customer's automation solution. The Automated Fiber Placement Process is depicted to the left. In both thermoset and thermoplastic processing, incoming tape is electrically heated using nitrogen. Prepreg material application and consolidation or debulk is always achieved through a compaction roller medium that may be heated or cooled.
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With the WOLFANGEL® Vario Cutter it is possible to cut the fibres with a speed up to 20 m/sec. The length of the fibres can be changed during the cutting process at full speed. With this cutter it is possible to produce fibres with a length between 3 up to 100 mm. The cutter can be driven by either a hydraulic or an electric motor. With the possibility of different combinations between knife and rubber role, it is possible to cut nearly all types of fibres.
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For GFK-/CFK-materials, reinforced materials foam materials. Standard serrations type N, type WD, type GR
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As all WOLFANGEL products, the fibre spraying plants distinguish themselves by their simple handling and high reliability. After the working process, the flushing of the plant is easily and unproblematically done by flushing valves. 3 rovings can be cut at the same time with the cutter. Resin and catalyst are delivered by means of piston pumps, which are connected to each other via a dosing lever so that the dosing of resin and catalyst is always exact, independent of the delivery speed of the pump. Without additional valves at the cutter, resin and glass can be directed at the outlet lever of the gun. The standard type plants are equipped with a solid cart with a 2-piece boom. The cart is big enough for a 200 ltr. barrel and a 30 ltr. resin can. As optional, this unit can be equipped with a resin control, a revisable catalyst intake system etc.
Due to our low pressure system, the quantity of resin and glass is continuously adjustable so that the production of big and small component parts is easily possible with the same machine and this without having to change the pump pressure or the spraying valve.
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RimCraft set out in the mid 90's with the hope of improving technology in the processing of gypsum based products. Since then RimCraft has become the leader in providing tomorrow's gypsum processing technology TODAY!
RimCraft builds systems for spraying (GFRG) and dispensing catalyzed gypsum products. These products are used primarily for the Glass Fiber Reinforced Gypsum, GFRG, indoor architectural markets. Although we build standard systems, our ability to customize is where we really shine. The RimCraft Gypsum Spray Systems will also spray polymer modified gypsum (FMG), opening up the market for outdoor applications.
The RimCraft Gypsum Spray Systems were designed, engineered, and constructed to process gypsum materials in production environments, unlike competitor's systems on the market that were intended to process other materials such as cements. Take a closer look at the RimCraft Gypsum Spray Systems and you will easily notice why RimCraft has become the Leader in Gypsum Processing Technology.
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Data and energy
Unrivalled worldwide, eks Engel presents a new Hybrid Splice Box inside the FIMP product line that makes it possible to combine data and energy.
Furthermore, a new version with a SC-RJ coupling which allows combining multimode, singlemode and POF in one plug will be presented. The front panel of the Hybrid Splice Box can be outfitted with up to four RJ45 Click&Snap-, or alternatively with two Smart Hole-Modules.
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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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Mit der Serie FIMP stellt eks Engel eine industrielle Kompakt-Spleissbox für bis zu 12 Lichtwellenleiterfasern vor. Die Box ist spleißfertig bestückt und integriert Spleisskamm, Spleissablage, Kupplungen, Pigtails sowie die Kabelverschraubung. Als Kupplungsvarianten stehen SMA, ST, SC, LC, FC-PC und E-2000 zur Verfügung. Alternativ ist die Spleissbox auch variabel bestückbar.
Durch seine gleichermaßen kompakte wie robuste Bauform und dem Gehäuse in Edelstahl ist die Spleissbox für den Einsatz im rauen industriellen Umfeld prädestiniert. Zur schnellen und problemlosen Montage wird die Spleissbox per Clip auf eine 35 mm-Hutschiene befestigt. Zudem ist ein Kit für die Wandmontage erhältlich.
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The inner values of the FIMPXL are really convincing and the installation is quite simple and done very fast.
FIMPXL is ready for splicing and it already contains splice tray, couplings, pigtails and cable gland. Regarding different couplings, you can choose from SMA, ST, SC, LC, FC-PC and E-2000. The front panel and the splice cassette can be removed for splicing and since the cassette is magnetic, it can easily be fixed onto a splice unit. The cassette has got a hole for splice units with a bolt.
The powder coated stainless steel housing is also magnetic so that the splice box can easily be affixed to another housing or to a switch cabinet in case of no different tray. Furthermore, FIMPXL has got a clip for DIN rail mounting (35mm) and a kit for wall fastening. Thus, there are space-saving and flexible solutions for mounting our FIMP.
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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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