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This hermaphrodite connector with 12 separate ferrules is designed for extra harsh environmental requirements.
It can be coupled with an identical connector interface or with a receptacle.
Four additional electrical contacts are possible.
Multi mode and single mode
Detachable alignment sleeve body for easy cleaning
Captive protection cap
Additional protection cover possible
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The MTRJ Field offers an easy system to
upgrade from a standard to an environmental
MTRJ.
- Sealed against fluids and dust (IP67)
- Shock, Vibration proof,
- No cabling operation in field and no
tools required for installation
With the patented RJStop ® system you can use a standard MTRJ patchcord in a metallic plug which will protect it from shocks, dust and fluids. No hazardous field cabling.
This metallic plug is connected into a receptacle, using a Tri Start Thread coupling mechanism (MIL-DTL-38999 series III type) with anti-decoupling device for high vibrations.
Optical performance :
- Number of Channel : 1/2/4
- typical Insertion Loss : 0,5db in MM
- Durability 500 mating/unmating cycles
(changes for<0,2 db)
Applications: railway, radars, military headquarters, communication systems on battle fields, naval...
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Here you will find the right cable type for every application and for every installation field, e.g. patch distributor, raised floor or Telecom MAN/WAN street cabinets and industrial machine connection as well.
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Application :
C41 indoor (C41 : Communication Control Command Computer Intelligence)
C41 outdoor (C41 : Communication Control Command Computer Intelligence)
Navy indoor
In Flight entertainment
In Flight remote control
Trucking
Robotic machining
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A backbone by LEAF® fiber provides network capacity and flexibility enabling future growth and compatibility with emerging network technologies. With its moderate dispersion and large effective area, LEAF fiber continues to be the fiber of choice for today’s high-data-rate and tomorrow’s all-optical long-haul and metropolitan networks.
Quick Facts:
- LEAF fiber is the most widely deployed NZ-DSF fiber in the world
- An ITU-T G.655-compliant fiber optimized for long-haul and high-data-rate metro networks
- LEAF fiber is the industry leader in PMD
- Introduced in 1998, LEAF fiber was the world’s first NZ-DSF with large effective area
- Winner of 4 industry excellence awards
- Deployed on 6 of the world’s seven continents and in more than 2 dozen countries
- The world's first low-water-peak NZ-DSF
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Short description :
With superior technology and profile control, Corning® InfiniCor® multimode fibers revolutionize performance in local area networks, storage area networks and central office interconnects. InfiniCor multimode fibers are optimized for high performance with laser-based protocols such as 10 Gigabit Ethernet.
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We are a world leader in optic fiber rods. Core bars from SCHOTT are used by almost all producers of optical fibers. The particularly outstanding features of our products are their superior transmission and low attenuation values.
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Short description:
Corning® Vascade® optical fibers provide high-speed, high-capacity submarine solutions, providing the performance and reliability you need in the harsh undersea environment. Whether you need transoceanic or short-haul solutions, our leadership and experience in submarine fiber technology mean that all Corning submarine fibers are tailored to meet your specialized system needs.
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Amphenol extensive range of Connectors for Fiber Optics Links provide Interconnect Solutions for most situations and environments : butt joint or expanded beam technology, single or multi- channel, singlemode or multimode fibers.
Amphenol supplies the complete interconnect assembly, including the connector, termini, fiber and optional accessories.
BUTT JOINT CONNECTORS
The Butt Joint Technology is generally used for indoor or outdoor applications in semi harsh environment.
This connector range is particularly suitable when very low loss links are required. It is also competitively priced.
EXPANDED BEAM CONNECTORS
Expanded Beam Lens Technology guarantees insertion loss and stability of transmission links in extremely harsh environment.
The hermaphroditic lensed connectors are recommended where rapid extendable field connections are required.
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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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Production of glass fibers for lightguide technology - Hund supplies glassfibers - for medical application, signalling technology, industrial technology and special purposes - in glass and quartz - fibers of infinite length, calibrated fiber bundles and finished lightguides, on request also with connecting optics. We offer tailored solutions for your illumination- and detecting problems. By means of flexible lightguides we bring the light precisely to a spot - without thermal stress for the illuminated object, for shadowless illumination of small objects in industrial production and quality assurance and also for any kind of object illumination. For any questions regarding our glassfiber program our team is at your disposal.
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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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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 LISA wall-mounted distribution boxes suit applications where low space is available.
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Fiber optic cables can be made in different lengths with different type of connectors, such as SMA905, ST or FC/PC connectors. The fibers are also available for different wavelength regions, like Deep UV solarization resistant fibers, UV/VIS fibers and VIS/NIR fibers.
We offer different shielding, like Kevlar reinforced PVC sleeving with PTFE inner tubing (standard) or metal shielding with PVC-XY or PTFE inner tubing for higher temperature and more industrial applications.
Depending on the intended wavelength range a UV/VIS (200-800 nm) or a VIS/NIR (350-2000 nm) fiber is used. In the following table replace xx by respectively UV or IR. For deep UV use specify -SR (solarization resistant).
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Whether you are looking for leightweight machines to strip glass optical fiber (GOF) cables or would like to do jacket stripping, Kevlar cutting and fiber optic buffer & coating stripping all with one single machine, Schleuniger has the right product for you.
The FiberOptic 7045 is a programmable stripping machine for complete processing of Kevlar reinforced glass optical fiber (GOF) cables. Stripping lengths up to 70 mm.
The FiberStrip 7030 and FiberStrip 7035 are portable machines for stripping optical fiber buffers and coatings with strip lengths up to 35 mm.
The PowerStrip 9500 can be fitted with a Kevlar-cutting head for automatic cutting and stripping of glass optical fiber (GOF) cables.
The OC 3950 is a universal cutting machine that can cut glass optical fiber (GOF) cables and a great variety of other materials (or cables).
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The Business Unit Telecom of BRUGG CABLE can supply all the accessories needed for optical fibre networks as LAN, MAN and WAN systems.
The range of products includes all the material needed for installing indoor and outdoor cables, into 19" racks and cabinets or for fitting them to walls, masts etc..
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A new fiber and termination system in the popular 62.5 µm size makes on-site crimp & cleave connectorization possible. These optical fibers are drop-in compatible with other 62.5 configurations and offer superior connector retention and performance--maximum bandwidth with minimal insertion loss. Our 62.5 µm products are rugged, easily terminated, yet still cost-effective. ST or SMA connectors can be directly crimped to the cladding. Additionally, we offer kits containing all the tools necessary to perform terminations in the field and test those connections with an Insertion Loss Test Kit.
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OFS offers an entire product line based on its flagship 200 µm HCS Optical Fiber Cables. This popular and versatile multimode fiber employs a rugged hard clad silica which both protects the fiber mechanically and allows it to be quickly and easily terminated using crimp-and-cleave connectors. OFS's 200 µm HCS cables are recommended for use with most industry-standard communications protocols and can be easily connectorized with standard V-Pin, ST, SMA, and F07 connectors. Additionally, we offer kits containing all the tools necessary to perform terminations in the field and test those connections with an Insertion Loss Test Kit.
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The PSSR Universal Patch and Splice Sliding Rack Mount Panel is an excellent choice for applications requiring an extremely compact and easy-to-use design. It is used to patch, or to patch and splice fibers and to provide cross-connection capability. It accommodates up to 24 connections and can use a wide variety of connector types. The panel can be installed in either a 19” or a 23” rack and occupies only 1.75” 1U of rack space. Splice trays and internal fiber management are housed in a sliding drawer that latches securely in both the open and closed positions. Jumpers can exit either to the left or right at the front of the panel.
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FIBRE MANAGEMENT IN CABINET, PATCH PANELS & DRAWER
Optical Fibre Splice Tray Lid
Managed with Radius Control and Dark Fibre Storage
Plain with Basic Storage Facility
Optical Fibre Splice Tray Hinge and Holder
Array Tray and Isolator Clips
Fibre Clips and Coupler Clips
Optical Fibre and Ribbon Fibre Splice Protector
900 Micron Buffered 15-Way Fibre Clip
Optical Fibre Flat Manifold
Strain Relief Boot - 900 Micron Fibre
Quick Panel Mount Strain Relief Gland and Slot In Version
900 Micron Boot and Short Buffered Fibre Boot
Optical Fibre Coiling Clip
Chain Plate
Optical Fibre Support Base, Network Saddle and Expandable Bracket
Dust Caps with Flexible Ties or Metal Chains
Optical Fibre Connector Cutout Adaptor and Cover
Snap Latch
8-Way SC Adapter
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Fiber Optic & Capillary Assemblies
- Low Fiber Count Assemblies
- Cable Design Options
- High Power Laser Connectors
- Bundles
- Capillary Assemblies
Assemblies can include optical, electrical, mechanical and fluid functions in a single, unit. Combining optical fibers, mechanical holding and mounting hardware and fused silica capillaries, they may be used to transfer and/or manipulate light and/or fluids from one position to another. Most assemblies are based on specific user requirements. These can vary in complexity from a single, finished, optical fiber (with or without end-terminations) to a complex, branching assembly, combining the advantages of fused silica light guides and/or fluid guides, into an integral unit.
Optical fiber or fused silica capillaries can be clustered into bundles at one end and fanned-out into various configurations at the opposite end. Special end shapes can be micro-machined directly onto the optical fiber or capillary, saving bonding and coupling losses. Termination style and technique, jacketing, and fiber type can be specified to ensure optimum system performance.
Polymicro offers the system designer unparalleled flexibility to incorporate a wide range of design options into their assemblies.
Note: Polymicro Technologies manuafacturers optical fiber cable, components and assemblies only. Polymicro Technologies does not design, manufacture or market any medical devices.
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FIBRE MANAGEMENT IN CABINET, PATCH PANELS & DRAWER
Chapter A
Optical Fibre Splice Tray Lid
Managed with Radius Control and Dark Fibre Storage
Plain with Basic Storage Facility
Optical Fibre Splice Tray Hinge and Holder
Array Tray and Isolator Clips
Fibre Clips and Coupler Clips
Optical Fibre and Ribbon Fibre Splice Protector
900 Micron Buffered 15-Way Fibre Clip
Optical Fibre Flat Manifold
Strain Relief Boot - 900 Micron Fibre
Quick Panel Mount Strain Relief Gland and Slot In Version
900 Micron Boot and Short Buffered Fibre Boot
Optical Fibre Coiling Clip
Chain Plate
Optical Fibre Support Base, Network Saddle and Expandable Bracket
Dust Caps with Flexible Ties or Metal Chains
Optical Fibre Connector Cutout Adaptor and Cover
Snap Latch
8-Way SC Adapter
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Fibre Management
Richco has an extensive range of fibre optic products which meet the requirements of telecom and datacom applications at all levels of fibre optic equipment. Our products provide fibre optic storage, protection, transportation, and installation.
Optical fibre is the future for communications into the 21st century. However, optical fibres are vulnerable, particularly in application areas where fibre breakout is required. It is here that transient losses and dB loss can occur and cause signal failure and data errors, which is costly.
Richco’s fibre management and protection products have been designed to eliminate the potential hazards such as macro and micro bends resulting from the mishandling of optical fibres during installation, maintenance and upgrade.
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FIBRE MANAGEMENT AT PCB LEVEL Chapter C
Fibre Reels
Optical Fibre Segment (90 Degree / 30mm Radius)
Fibre Reel Stand-off
Corner Guide, Straight Guide
Mini Optical Fibre Network Saddle, on Base, Arrowhead, 2 Prong
Micro Wire Saddle, Standoff, On Base, Locking Fix, Teardrop
Wire Saddle - Snap Rivet, with Arrowhead
Locking Wire Saddle, Snap Rivet, with Arrowhead
Wire Saddle Side Entry, on Base, locking
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FIBRE PROTECTION & CABLING SOLUTIONS Chapter B
Optical Fibre Bend Limiting Tubing
Zip Tool for Fibre Bundles
Tube & Pipe Clip
Slotted Multi Bracket
Tube Gripper Saddle
Strain Relief Gland
Cable Breakout Unit
Manifold
Duplexer
Cable and Patch Cord Anchor
Optical Fibre Ties: Wrap-It, Contour Head, Releasable Arrowhead Tie
Self Mount Ties, Tie On Arrowhead, Tie On Base, Screw Mount, Beaded Tie
Flat Tie Holder
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