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PureBeam Laser:
StockerYale's PureBeam laser is a temperature-stabilized, fiber-coupled device for a wide range of biomedical, medical, and industrial applications. This high-output power laser has integrated drive electronics and laser-welded mechanical components. The PureBeam laser features a single-mode optical fiber delivery system, and provides exceptional power stability and low noise at the fiber exit. In addition, the unit is temperature-stabilized with a thermoelectric cooler that maintains a constant laser diode temperature, resulting in excellent wavelength and output power stabilities, as well as a long lifetime. All models emit diffraction-limited circular beams with no astigmatism and have a high pointing stability.
For applications requiring uniform flat-top illumination, the PureBeam laser can be easily integrated with our Flat-Top² Generator, an innovative beam shaping module that converts a gaussian beam to flat-top square or rectangular profile.
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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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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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Description
650nm diode laser module can output from single-mode fiber or multi-mode fiber. These products can be applied in the fields like hot print, free space communication, medical usage and so on.
Features
* Spectral Width<4nm
* High Reliability
* High Efficiency
Applications
* Laser pumping
* Medical Usage
* Printing
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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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Rare earth doped gain fibers for converting pump light into laser and amplifier signals.
Available in single clad, double clad, and triple clad variants, these fibers have the high brightness, narrow linewidth, and extreme power stability to satisfy the most demanding applications.
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Perfect for single and multi-channel C- and L-band amplifiers and ASE sources and small form factor devices.
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Industry leading tolerances on key spectroscopic parameters ensure lot-to-lot reproducibility.
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A rugged yet flexible beam delivery system with patented features for industry-leading reliability and performance
* A standard feature on all new JK™ Series lasers, both pulsed and continuous-wave
* Complete field-retrofittable upgrade packages available for all prior generation JK700 Series lasers
* Plug-In Pre-Aligned (PIPA) coupling eliminates manual fiber alignment, reducing fiber change time requirements from hours to minutes
* Patented termination design helps eliminate back reflection problems when welding highly reflective materials
* Integral fiber monitoring system
* Optional BendLock for robotic applications
* Standard fiber-optic lengths are 5, 10, 15, 30 and 50m
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Designed for efficient single mode operation around 1060 nm when cladding pumped at 808 nm.
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Eye-safe fibers for use around the 2 µm wavelength.
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Highly efficient fibers for 1 µm lasers & amplifiers.
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OFS has been leading the industry in
supplying erbium-doped fiber (EDF) products for more than 15 years.
Our broadest range of erbium-doped products in the marketplace serves all your needs, while offering industry-standard and versatile designs in large production volumes.
Custom splice data for the fibers and devices used in your application is available upon request, and OFS offers its own OASiX Optical Ampflifier Simulation System Software to design and predict EDFA performance using the measured characteristics of the specific lots of fiber you purchase.
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OFS offers a suite of optical fibers, cables, and custom connectorized probes for delivering high laser powers for medical and industrial uses. We offer reusable fibers for aesthetic laser treatments and disposable fibers for urology. Industry uses our fibers in their lasers for cutting, welding, and etching.
Our HCXtreme™ Optical Fiber product line for high power under tight bends offers fibers in a selection of core sizes and numerical apertures, addressing the need to transmit high laser powers at the same time the fiber is subject to extreme bending conditions. Additionally, because many of these fibers are intended for intra-body use, they are biocompatible, non-toxic, and sterilizable.
Other large core HCS® optical fibers are available for specific applications. OH content, numerical aperture, core size, cladding and buffering materials can all be adjusted to meet specific needs.
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Resin fiber discs
Long life, high stock removal for use on metals and welds.
Description and Application :
-A premium quality grain designed for long life, high stock removal and cool cutting action.
T-he sharp, heat-treated grain electrostatically coated to a heavy duty vulcanized fibre backing with heat resistant phenolic resins. Fast, cool cutting performance.
-Applications include weld grinding, blending, finishing, deburring and high production work. Also for automotive industry, plastics, ferrous metals, paint, body fillers and fiberglass.
Resin Fiber discs are available in various grains:
A/O - for cutting, debburing and finishing on metals, welds and car body repair. grits: 16-120
Z/A - for high speed steel, stainless steel and hard steel. Rough grinding to finishing. grits: 16-120.
S/C - for non-ferrous materials, fiberglass, stone and masonry. grits: 16-400.
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ABI's Resin Fiber Discs are made of premium aluminum oxide grains bonded with resin. These discs provide an aggressive finish on all metals. They are the best choice for heavy stock removal and blending applications of all ferrous and non-ferrous metals. Removing and blending weldments are their most common use.
Characteristics:
- Heat resistant
- Fast cutting
- Non-loading
- Durable
- Also available with quick-change option
Applications:
- Weld grinding
- Surface Preparation
- Blending
- Cleaning
- Deburring
Tools:
- Right Angle Grinder
- Portable Grinder
- Power Tools
- Hand tools
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Fiber Discs Aluminium Oxide
DESCRIPTION :
fibre disc Aluminium Oxide GRIT No : P16 ~ P120
FEATURES:
-Heat tread Aluminium Oxide grain
- Vulcanized fibre backing
- Resin on Resin bond
BENEFITS:
- Strength
- High stock removal cool cutting
- Resists to heat & moisture
- Long lifetime
APPLICATIONS
- Stripping paint on metal & woods
- Grinding
- Polishing
-Fiber glass
- Stainless Steel
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This disc will give you longer life with excellent finishing and conformability capabilities. The new, looped backing reinforces the discs and makes attachment very easy. Superior finishes on solid surface, painted panels metal and other substrates.
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KLINGSPOR fibre discs are excellently suited for rough grinding work, de-rusting metal parts, de-burring and working on welded seams.
- Quality and performance
- Low clogging rate
- Above-average long service life
- Uniform scratch pattern
- Cool grinding
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Composite cables
Axon' design and manufacture composite cables specially designed to meet customer requirements irrespective of the application.
They are able to resist the most demanding electrical, mechanical and environmental requirements.
Advantages
Dependent on the application
- Flexibility
- Flexlife, resistance to torsion
- Resistance to fuel, heat and solvents
- EMI protection
Resistance to sterilisation (medical application)
Construction
- Flat or round construction integrating flat or round wires, coaxial cables, tubes, shielded cables, ...
- Hybrid electrical, electro-optical cables
Composite cables insulated with fluorinated materials, heavy metal free materials, halogen free materials, PTFE, celloflon®, vitax™, PEEK, silicone and other materials suited for your applications
Applications
- Electromechanics
- Engines
- Machines
- Robots
- Medical imaging
- Endoscopy
- Radars
- Missiles
- Electronic systems
- Satellite cabling
- Research, ...
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MARINE AND UNDERWATER APPLICATIONS
LAPP MULLER works with ships and underwater building repairs companies (welding, cutting, etc…), offshore oceanographic institutes, research centers, manufacturer of underwater acoustic instrumentation and engineering companies, ect… on the design and manufacture of composite electrical or optical cables.
-DIVING UMBILICALS
(power, signal, video, hydrolic )
Diving bells, narguiles
-SUB MARINE UMBILICALS
(electrical, optical, hydraulic and mechanical functions )
Submarine works, offshore working and research
-FLOATING CABLES
ROV Tethers, sonar supply
- ARMOURED CABLES
ROV Main Lift Cable, Tow Cable, Submarine antennas
-INSTRUMENTATION CABLES
Seismic and oceanographicals
-INBOARD CABLES
Power and control cables for naval defence and maritime industry
-HIGH TENACITY FIBER CABLES
Stay mast antennas, mooring line for baskets, for buoys
-TERMINATIONS
Design, Realization and Fitting of stainless, titanium or other special alloy terminations.
- CONNECTORS MOUNTING
These companies trust us :
DCN, IFREMER, THALES UNDERWATER SYSTEMS, ECA,, COMEX, SINGLE BUOY MOORINGS...
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Cabelte produced the first optical cable (multimode) in Portugal, in 1983. The cable was supplied to “Instituto para Desenvolvimento das Comunicações (IDC)” for the trial connection between “IDC” and “Inesc -Instituto de Engenharia de Sistemas e Computadores”.
The first cables produced for commercialization, called “light guide cables”, were made of 50/125 multimode fibers, tight structure, and had 4 to 6 fibers, regular customers were the former “CTT/TLP”, today “PT Comunicações”.
The big increase occurred in the production of optical fibre cables at Cabelte takes place at the beginning of the 90s, with the construction of a new plant and with the introduction of “loose” technology.
Since then, optical fiber has become more and more important and today is one of the most important telecommunication channels, due to the characteristics of the fiber itself, particularly its low attenuation associated with an almost infinite bandwidth (single mode fibers), and to the development occurred in the optical transmission systems.
Today, optical fiber cables are part of all communication “backbones” in metropolitan and regional networks. The presence of “triple pay” services, interactive games, high definition television, telemedicine, among others, requiring a high bandwidth in the access network, foresee the gradual replacement of copper by fiber optics up to the subscriber.
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