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Manlight proposes a wide variety of Erbium (1,5µm) or Ytterbium (1µm) doped fiber amplifiers either using PM or non PM fiber.
Available in OEM module of different sizes depending on the power (with power up to 35dBm at 1,5µm and up to 43dBm at 1µm) as such as in benchtop 3U 1/2 19" (up to 40dBm at 1,5µm) or 3U 19" (up to 43dBm at 1µm), you will necessary find the product that you need for your application.
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Main Features & Applications:
- 1529-1563 nm Bandwidth
- Fast Transient Gain Control Up to 12 dB
- Up to 12dB Mid-Stage Loss budget
- Compact Package
- Variable Gain
- Excellent Flatness APC, AGC, ACC modes
- For: Long-Haul and Ultra Long-Haul Applications
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The EFA-series of benchtop EDFAs are repackagedversions of the high-performance optical amplifiers found in MPB's repeaterless-link telecom equipment. These wall-plug units include preamplifiers with high gain and near-quantum-limited noise figure, as well as power amplifier models with saturated output powers up to 23 dBm.
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Optical Transceivers
Avago Technologies portfolio of optical transceivers include ATM/SONET, Ethernet, Storage, Parallel and WDM Transceivers.
Avago offers a broad portfolio from 10G parallel optics, Infiniband, parallel optic modules, pluggable optics, to QSFP, SFP+ and RoHS compliant transceivers
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General description
The ZL60301 is a very high-speed transceiver for parallel fiber applications. This transceiver performs E/O and O/E conversions for data transmission over multimode fiber ribbon. The transmit section converts parallel electrical input signals via a laser driver and a VCSEL array into parallel optical output signals at a wavelength of 850 nm. The receive section converts parallel optical input signals via a PIN photodiode array and a transimpedance and limiting amplifier, into electrical output signals.
The module is fitted with a pluggable industry-standard MegArray® BGA connector. This provides ease of assembly on the host board and enables provisioning of bandwidth on demand.
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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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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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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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The FOD is a fiber optic linear position and displacement sensor that provides high accuracy, absolute measurements of position and displacement. The FOD is well suited for difficult to reach locations and hazardous environments such as those containing explosive materials
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· 4 models: Standard, High Speed, Mark Detection and Moisture Detection.
· Unique "Moisture Sensing Type" BIF-W series senses the presence of moisture in a product.
· High Speed type (50 micro sec) and Green
LED type for Mark Sensing.
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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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Active optical fibres laser unit.
- Entirely designed and manufactured by Tullio Giusi Spa using high-quality and effective fibres.
- The release of the laser ray by means of a galvanometric scan-head allows very precise and high-quality markings on metal as well as on a huge range of plastics, with unique colour changes.
- laser can be supplied with powers ranking from 10 to 50 Watts at own choice in TEMOO, both as marking unit and as OEM unit.
- Thanks to its versatility, it can be removed from the marking area and easily assembled on existing production lines or on automatic feeding systems.
- On request, new tailored solutions can be designed, in order to provide the most suitable answer to any marking problem.
Released wavelength (1.064 nm)
Movable scan-head
High efficiency
High quality of the laser beam
Very small writing spot
Stable power
Small dimensions
Diodes last up to 30.000 hours.
It does not require much maintenance
Software:
The WINPROGRESS software, fully designed by Tullio Giusi Spa, in addition to the use of the most common vector files can also manage static texts, dynamic numerations, markings on cylindrical items, bar-codes, data matrix and, on request, markings on moving items (MARKING ON FLY).
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MECCO’s fiber laser is perfect for marking on:
Steel, Stainless Steel and Titanium
Anodized and Painted Aluminum Tags
Plastics
Labels
Standard Features of MECCO Fiber Laser Marking Equipment:
10 Watt and 20 Watt models
MeccoMark™ Windows-based software interface
Integrated Safety Shutter
Industrial Computer
Power Control Box
High Performance Scanhead
110mm Square Mark Field
Real-time System Controller
I/O Interface
Two-Year System Warranty
Optional Fiber Laser Accessories:
Visible Pointer for mark preview
175mm, 250mm and 305mm square mark fields
Class I Safety Enclosure
Rotary Indexer for Cylindrical Marking
XY and Z Class 1 Automated Workstations
Rotary Workstations
Fiber Laser System Benefits:
Compact design for minimal footprint
30,000 hours + of laser lifetime
Mount in any orientation
Air-cooled design (no water or external chiller required)
Zero maintenance
Low cost of ownership
MeccoMark™ Fiber Laser Marking Software:
USB 1.1 or 2.0 interface
For Windows 98/2000/XP
Intuitive, easy to learn graphical interface
Highest marking quality
Serialization and text merge
Radial and vertical text
Import many vector and graphic file types
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Powered by 110/230VAC with no water-cooling requirements, these units are extremely
dependable over a long life, and are backed by a full TWO-YEAR factory warranty on the diode light source - one of the longest warranties in the laser industry.
Telesis' Zenith 10FQ was named a Top 100 Product of the Year in the November 2003 Issue of MEDICAL PRODUCT MANUFACTURING NEWS, page 37.
Innovative, compact and flexible ZENITH ® Pulsed Fiber to Fiber Ytterbium Lasers are perfectly suited for marking applications that require 24/7 "set and forget", unattended operation. Select the ZENITH ® 10FQ for low to medium speed applications and the ZENITH ® 20FQ when higher power/faster process speeds are required. The 20FQ features upgraded power and the additional long-term safeguard of a built-in, polarization/optical isolator.
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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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Our Fiber Lasers provide a wide choice of pulse durations, repetition rates and peak powers. These lasers deliver a high power 1064nm laser beam directly to the work site via a flexible metal-sheathed fiber cable. Collimated, and then typically focused to a spot size of a few microns or less, the near diffraction-limited beam can mark, drill or machine a variety of materials.
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The EFO is a fiber optic strain sensor especially designed to be embedded in concrete, ideal for composite material engineering research and civil-engineering applications such as monitoring stresses in structural members of buildings, bridges, tunnel linings and supports during and after construction.
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