A Short Introdution Of Fiber Optic Connector

In all fiber optic systems, it is necessary to join two fibers together with low signal attenuation while maintaining low reflection levels depending upon the type of system used. Fiber optic connectors are used to the mechanical and optical means for cross connecting fibers and linking to fiber optic transmission equipment.

Connectors have evolved with the communications industry. Today’s users have a multitude of connectivity needs and the fiber industry has responded with innovative solutions. The most common connector in use today is the SC connector, the ST connector and the FC Fiber Connector. In addition the small form factor LC connector is used in high-density optical transmission products, and also for applications including fiber-to-the-home and dense wavelength division multiplexing where space is at a premium. Another connector gaining in popularity for use in high fiber count terminations is the MPO/MTP connector which can handle fiber counts as high as 96 using ribbonized fibers.

To understand fiber optic connectors one must understand both the mechanics and the optics involved. The ideal optical connector holds the fibers in perfect alignment, in three axes. This alignment must be maintained over hundreds or even thousands of connect-disconnect cycles to provide stable, repeatable attenuation characteristics.

The most important element of the connector plug is the ferrule, which provides the precise alignment and centering of the optical fiber. Ferrules can be made of ceramic, metal, glass or plastic. Zirconia ceramic ferrules or ceramic ferrules with metal inserts are most widely used, providing the best tolerances and durability. The most common ferrule sixes are the 2.5 mm used in the SC, ST, and the FC plugs. The 1.25 mm ferrule is used in the small form factor LC plug. For connectors designed for military and aerospace connectors the “termini” performs the same functions as the ferrule and are provided as both pin and sockets. Common connector types have SC connector, ST connector, FC connector, ect.

The body of the plug holds the ferrule, the coupling mechanism, and the boot. The body contains either a threaded, push-pull or bayonet coupling mechanism that mates the plug with the mating adaptor and also provides a keying function that allows the connector to mate in only one position. Strain relief of the cable is usually by a crimp sleeve or by adhesives which firmly secures the aramid yard in the cable to the plug body. At the rear of the plug body is the “boot” which functions as a bend radius limiter for the cable entering the plug body.

Another critical component is the mating adaptor, and its internal sleeve that aligns the two mating ferrules. Like the ferrule, sleeves are most often made from ceramic and can be either a split or solid construction. The alignment sleeve must precisely align the two precision ferrules by means of the ferrules outside diameters. This alignment must be done while providing a low-friction fit over a wide temperature range.

Over the years, fiber tolerances have greatly improved along with the mechanical tolerances of precision parts of the connectors.Early connectors suffered from poor alignment tolerances and mechanical stability problems due to loose fiber tole rances and mechanical tolerances of the connector design. The body and mating adapter also provide a keying function allowing the connector to mate in only one rotational position. This, combined with the tight tolerances of today’s optical fiber, ensures compliance with the Telcordia GR326 generic requirements repeatability standard of less than 2 dB connection loss over 500 mating cycles for single-mode fibers.

Today most lensed connectors work by expanding the beam exiting one fiber, then collimating the beam to the adjacent plug where a second lens is used to collect that light and re-direct it to the core of the second fiber. The main advantage of this approach is that the connector is less sensitive to alignment tolerances, so attenuation will remain more constant in the presence of vibration or temperature cycling. In addition the large area of the beam minimizes the impact of contaminants. The largest supplier of multi fiber expanded beam connectors are developed and manufactured by TE Connectivity and are provided in many variations for harsh environments such as mining, military, and aerospace applications.

Note: Fiber Optic Connector is an important components used in the fiber optic network. It is also the key part used in fiber optic patch cord and fiber optic pigtail. There are many kinds of fiber optic connectors. We supply one piece fiber optic connectors various types, including standard connectors and irregular types, epoxy types. we supply fiber optic types include: SC fiber optic connector, FC fiber optic connector, ST fiber optic connector, LC fiber optic connector, MU fiber optic connector, SC/APC fiber optic connector, FC/APC fiber optic connector,etc. Both Single mode fiber optic connector and multimode fiber optic connector available.

LC Connector Design

The LC connector footprint is approximately half the size of an SC connector. The LC has a back shell designed to accommodate standard 1.6mm or 2.0mm diameter cable designs. The standard construction of the LC fiber connector consists of a spring loaded, 1.25mm diameter zirconia ceramic ferrule housed in a thermoplastic connector back shell.

The latch configuration depicted (Figure 1) is a front pivot design. The drawback with this design, especially in simplex (buffered) cross connect applications, is that the latch is open on the back and can easily snag on rack components, other connectors or conduit. In duplex applications it is less of a problem because the design of most duplexing clips incorporates a feature that allows the connector set to become “snagless”. Unfortunately, some of these designs necessitate the installation of the duplexing clip during the connector installation process. Installers performing behind the wall or behind the rack applications sometimes pull multiple channel pre-terminated cables through conduit and perform the duplexing at the outlet or rack port. The design of the “Rear Pivot Latch” LC Connector (Figure 2) is intrinsically snagless in simplex form (no clip is required to render the connector snagless) and minimizes risk in both applications mentioned above. The increased finger landing area on the rear pivot latch connector (Figure 2) also provides ergonomic latch access in high-density applications.

Another area of design differentiation among LC connectors is the protective cap included with the connector. Some LC designs include a cap that fits snuggly to the outside diameter of the ceramic ferrule nose of the connector (Figure 3). If an LC connector utilizing this type of cap is subject to a sudden impacting load to the front area of the connector that houses the ferrule, the possibility of breakage exists. The Rear Pivot Latch LC connector includes an innovative protective dust cap. The cap installs on the connector with an audible "click", and it does not directly bear on the sensitive ferrule end face (Figure 4).

In duplexing connectors together, a feature that enhances the ease of installation and minimizes TCO is a duplex clip that has the ability to be installed after connector termination. This type of clip snaps into place (Figure 5), providing the correct center-to-center spacing for the duplex application and the required A-B polarization markings. Some LC duplex designs require that these clips be mounted onto the connector pair in the course of fiber termination. If polarity changes are required, connectors must be re-terminated. Still, other LC duplex designs require tools to install or remove the clip. The design shown in Figure 5, requires no tools and can be easily installed and removed to facilitate connector changes.

The “Rear Pivot Latch” LC Connector design (Figure 6) incorporates design features that satisfy all of the design concerns mentioned earlier.

The snagless rear pivot latch assures easy installation by reducing the chance that the connector body will become snagged. The large, ergonomically shaped finger land area on the latch provides efficient moves, adds and changes. The duplexing clip can be installed after termination to assure rapid polarity changes. The unique protective dust cap with audible “click” serves to reduce the chance that the ceramic ferrule broken (during install or adds/changes). All of these things directly impact the TCO of the interconnect solution.

Fiberstore listened to our customers, and responded by delivering the next generation fiber optic LC Connector Solution for private and public networks. The LC Connector Solution was developed in response to customer needs for smaller and easier to use fiber optic connectivity. It simplifies moves, adds, and changes and saves you money. The LC Connector uses an improved version of the familiar, user friendly telephone plug, which provides a reassuring, audible click when engaged. The unique combination of small size and the click of connectivity makes the LC Connector the right choice for your network.

Key Features

• Low insertion loss
• Corrosion resistant body
• Precision mechanical dimension
• Meets Telecordia-GR-326-CORE

Fiberstore as the main professional fiber optic products manufacturer in china offer a various kinds of fiber cable connectors, FC Connectors, LC Connectors, SC Connectors, MPO Connectors and ST Connectors. You can buy fiber optic connection products on our store with your confidence. All of fiber optics supplies with high quality but low price.

Popular Fiber Optic Connector Types You Must Know

Fiber optic connectors offer a disconnectable method for joining fibers to transmitters and receivers, other fibers and devices such as couplers and multiplexers. Most connectors are in the form of a cable-mount plug in which plugs mate with a feed-through receptacle that resembles a cylindrical coupling bushing. The inner diameter of the receptacle often has a split sleeve to provide a snug alignment of the mated plugs.

Because connector size is a primary factor in port density, cable connectors continue to get smaller. Most of this gain comes from the use of smaller ferrules. The newer MU and LC connectors use a 1.25 mm diameter ferrule, exactly half the size of a 2.5 mm diameter ferrule used in traditional FC, ST and SC connectors. Also, MT ferrule connectors are being combined in high-density arrays. Table 1 gives typical values for popular styles of connectors, grouped by ferrule size.

Popular Fiber Optic Connector Types

 
LC Connectors: The fully standardized LC connector utilizes a 1.25-mm ceramic ferrule and the versatile, pull-proof RJ-45 latching mechanism. Available in single-mode, multimode, simplex and duplex versions, they offer low insertion loss, low back reflectance and repeatable performance.

MU Connectors: The MU connector is one half the size of the standard SC connector, and is sometimes referred to as the mini-SC. Featuring a push-pull latching mechanism similar to the SC, the MU connector is easy to connect and disconnect. It provides a single point of disconnect in high-density applications, a feature often required by telecom operators.

SC Connectors: These emerged in the early 1990s as the general-purpose connectors of choice and are the recommended interfaces for premises cabling, ATM, Fibre Channel and low-cost FDDI. SC connectors use a 2.5 mm ferrule, push-pull locking mechanism and pull-proof design that prevents a slight pull on the cable from pulling the ferrule out of optical contact. Single connector plugs can be snapped together to form multiposition connectors.

ST Connectors: Originally developed by AT&T, they use quick-release bayonet couplings. A key ensures consistent, repeatable mating with the coupling bushing. They are available in a range of variations including ceramic, polymer or stainless steel ferrules and epoxy or epoxyless style termination. ST connectors remain the most widely and broadly used connector type.

FC Connectors: Used mainly by the telecommunications industry from which they derive, they use threaded couplings and 2.5 mm ferrules. Some variations of the connector use tunable keying to achieve the lowest loss. Tuning allows one ferrule to be rotated in relation to the other to minimize losses. The connector is keyed so that connectors will always mate in the tuned position.

FDDI-MIC Connectors and ESCON Connectors: Designed to meet the specifications of the ANSI X3.166 FDDI PMD (physical medium dependent) document, this duplex connector uses a side-latching mechanism and two 2.5 mm ferrules, as well as a fixed protective shroud to protect the ferrules. The connectors can be keyed according to fiber distributed data interface (FDDI) specifications, and also can be used for non-FDDI applications.

ESCON connectors, used in IBM ESCON channel interfaces, are similar to the FDDI-MIC connectors, but use retractable shrouds.

Plastic Fiber Connectors: These are available at low cost for fast termination to the cable, even at the expense of low loss. Most connectors require no epoxy, allow end finish to be achieved by trimming the fiber with a hot knife, and require little or no polishing.

Performance is in the 1 to 3 dB range. Many designs tend to be proprietary, although several standards have evolved using plastic fibers and connectors. Standardized applications include MIDI and digital audio, automotive and industrial automation. Many plastic fiber connectors incorporate LEDs and detectors directly as a means of reducing cost, simplifying the system and providing standardized parts.

MT-RJ Connectors: The MT-RJ is a two-fiber connector that resembles a standard telephone plug. The resemblance is intentional, as the connector is aimed at replacing the ST and SC types in wiring closets and at the desk. The connector fits in the same cutout as an RJ-45 jack, allowing fiber to be installed in network equipment, patch panels and wall plates without space penalties. The connector features a single, snagless latch. Rather than the typical fiber mating scheme that uses two plugs joined in a coupling adapter, the MT-RJ connector offers a true plug-to-receptacle mating technique. Plugs on the patch cable plug into a jack on the panel or faceplate. Fibers are terminated directly to the back of the jack with an epoxyless and no-polish termination.

High-Density Array Connectors: Multifiber array connectors such as LIGHTRAY MPX and MPO, and fiber-ribbon cable have been gaining in popularity (Figure 4). MT-style connectors, which use a small ferrule to hold 4, 8, 12 or 72+ fibers, provide the high-density interface required for high-bandwidth communications.

These connectors are used mainly in fiber arrays that replace the rat’s nest of coaxial cable associated with mainframe computers. They offer a neat, compact and orderly method to connect equipment.These arrays are typically fanned out with jumper cables terminated in standard connectors, such as an ESCON duplex connector, to form the interface to the system equipment.

Conclusion

Fiber optic connectors are available in a wide range of configurations. The choice of connector typically depends on the applications.

Connectors offer low insertion losses well within the reasonable demands of applications. Application speed, the required interface and special environmental or mechanical requirements may narrow the selection, but overall connector selection should be neither difficult nor tricky.

50 versus 62.5 Micron Multimode Fiber

Multimode fiber systems continue to provide the most cost-effective cabling solution for data centers, local area networks (LANs), and other enterprise applications. Compared to singlemode fiber, multimode systems offer significantly lower costs for transceivers, connectors, and connector installation while meeting and exceeding the bandwidth and reliability requirements of the most demanding networks.

If you are designing a new short-reach installation, you will probably choose laser-optimized 50-micron (µm) OM3 or OM4 multimode fiber. These fibers preserve the systems-cost benefits over singlemode fiber by using low-cost 850-nm vertical-cavity surface-emitting laser (VCSEL) technology, are capable of 10-Mbit/sec through 10-Gbit/sec operation, and will support upcoming 40- and 100-Gbit/sec transmission speeds.

But if you are upgrading an existing system, many of which have 62.5-µm multimode already installed, should you stick with 62.5-µm? Or can you go with the higher performance of 50-µm OM3 or OM4 fiber? This article highlights the things you must consider when upgrading an existing 62.5-µm system.

Before discussing the 62.5-µm and 50-µm fiber, we first display you 62.5-µm and 50-µm fiber patch cable from Fiberstore.

Multimode 62.5-µm (OM1) Optical Fiber Patch Cords

Multimode optical fiber patch cords can be used as cross-connect jumpers, equipment and work area cords. All Fiberstore optical fiber patch cords are manufactured using OFNR riser grade cable and are 100% factory tested for insertion and return loss to ensure transmission performance per ANSI/TIA-568-C.3 standard specifications. Multimode 62.5-µm patch cords terminated with ST, SC, and LC connectors (uniform and hybrid versions) are available in duplex and simplex designs. They are LC SC 62.5/125 multimode fiber patch cable, LC ST simplex multimode fiber patch cable, SC ST duplex multimode fiber patch cable, ect.

Features

• LC, FC, SC, ST, MU, MTRJ, E2000, SMA connector
• Fiber Types: Simplex, Duplex
• Micron: 62.5/125um
• Complete with Lucent Technologies aqua jacket Bandwidth transmitting rates up to 10 gigabits
• All of our fiber optic patch cables feature the high degree connectors 100% optically tested to ensure high performance
• Color: Orange
• Fiber class: OM1

Multimode 50-µm Optical Fiber Patch Cords

Fiberstore 50/125 Multimode Fiber Optic patch cables feature machine polished ceramic ferrules in a variety of connector terminated including FC, LC, MT-RJ, MU, SC, and ST. 50-µm fiber has OM2, OM3, OM4. Common 50-um fiber patch cable have LC-MTRJ 50/125 Multimode Fiber Patch Cords, LC SC 50/125 Multimode Fiber Patch Cords, ST SC 50/125 Multimode Fiber Patch Cords, ect. 50-Micron Multimode Fiber (MMF) is rapidly gaining in popularity due to its expanded bandwidth potential over traditional multimode fiber runs. Supporting nearly 3X the bandwidth over twice the distance, 50/125 fiber is recommended for all new premise applications including intra-building connections. When fiber optic band cables are needed that offer more bandwidth than traditional options, this product is one that delivers.

Why two fiber sizes?

The numbers under discussion—50-µm and 62.5-µm—refer to the diameter of the fiber’s core, through which light signals are transmitted. The first optical fibers, deployed in the 1970s for both short- and long-reach applications, were 50-µm multimode fibers. In the early 1980s, singlemode fiber replaced 50-µm fiber in longer-distance installations. However, 50-µm multimode continued to be more cost-effective for short-reach interconnects, such as building and campus backbones, up to 2,000-meter distances.

But as data rates increased, 50-µm fiber could not support 10-Mbit/sec rates over the 2-kilometer distances required by some campus installations. Not enough power could be coupled from the light-emitting diode (LED) sources in use at that time into the 50-µm core to support these link distances.

62.5-µm multimode fiber was introduced in 1985 to solve this problem. It could capture more light from a LED in its larger core, and 2-km campus links operating at 10 Mbits/sec were easily supported. Also, the larger-core fiber was easier to cable and connectorize. It became the most commonly used fiber for short-reach enterprise applications in North America.

Today, as data rates surpass 10-Gbits/sec and lasers have replaced LEDs, 62.5-µm fiber has reached its performance limit. 50-µm fiber offers as much as 10 times the bandwidth of the 62.5-µm fiber. What’s more, improvements in technology have made 50-µm fiber easier to use.

Which technology should I choose?

Given its superior technical characteristics for high-speed links, 50μm fiber is the clear choice for new multimode fiber links in most circumstances. Standards organizations including IEEE, INCITS, InfiniBand, OIF, TIA, IEC and ITU-T all specify laser-optimized 50μm fiber for new high-speed network installations. OM3-grade, high-bandwidth 50/125-micron fiber cable increases the flexibility of network designs and achieves data transfer rates up to 10 Gbps at the lowest available cost. Multimode 50μm fiber is the medium of the future, with 62.5μm fiber being supported chiefly for legacy purposes. However, the majority of the fiber deployed in the world today is 62.5μm, so backward compatibility is an important concern.

Assuming you already have 62.5μm fiber in your plant, should you stick with 62.5μm, or migrate to 50μm? As a first consideration, industry standards and leading media and equipment manufacturers recommend that you should not mix different types of fiber in a single link. If you have a 62.5μm run in the wall, that link should use all 62.5μm patch cables and equipment, including 62.5μm Net Optics Taps. However, extensive testing by Corning has shown that the signal loss from joining dissimilar fiber segments, when necessary, is small.

On the other hand, there are no technical drawbacks to using different fiber types in separate network links, as long as the ports at both ends of the link are compatible with the cable. Moreover, there is little if any cost difference between 62.5μm and a 50μm products in today’s market. Therefore, installing 50μm fiber for new network links is a good investment for future growth, even if your current plant has mostly 62.5μm fiber.

With the demand for network capacity increasing daily, upgrades must be planned with an eye to the future. Installing 50μm multimode fiber today brings immediate benefits of longer cable reach and improved light loss budget margins, and prepares the network for future upgrades. If you haven’t started already, it’s time to begin phasing out 62.5μm fiber and moving into the world 50μm for higher performance and better returns on your network investments.

About Fiberstore

Fiberstore provides both Singlemode and Multimode patch cables (including OM1, OM2, 10G OM3 and 10G OM4) that are available in Duplex and Simplex, as well as Plenum-rated. In addition, all the cables can be customized in optional lengths. On the other hand, Fiberstore provides a wide range options of plenum fiber patch cable which include SC, FC, LC, ST, MU, MTRJ, E2000, MTP etc, both single mode and multimode plenum rated fiber optic cable assemblies. Additionally, custom lengths, connector combinations and polishes are available. Our each fiber optic patch cable is individually tested and certified to be within acceptable optical insertion loss limits for guaranteed compatibility and 100% reliability, and is backed by our lifetime warranty.

This article comes from: http://www.fiber-patch-cords.com/blog/a/85/50-versus-62.5-Micron-Multimode-Fiber

LC Connector in Fiber Management and Transceivers

Fiber Optic Connector is an important components used in the fiber optic network. It is also the key part used in fiber optic patch cord and fiber optic pigtail. There are many kinds of fiber optic connectors.we supply one piece fiber optic connectors various types, including standard connectors and irregular types, epoxy types. we supply fiber optic types include: SC fiber optic connector, FC fiber optic connector, ST fiber optic connector, LC fiber optic connector, MU fiber optic connector, SC/APC fiber optic connector, FC/APC fiber optic connector, etc. Both Single mode fiber optic connector and multimode fiber optic connector available. Today we mainy introduce the LC connector in fiber management.

 

LC connector is a small form-factor (SFF) fiber optic connector. It uses a 1.25 mm ferrule, half the size of the ST. Otherwise, it is a standard ceramic ferrule connector. The LC has good performance and is highly favored for small form factor, high-density fiber optic connectivity with simplex, duplex, single-mode and multi-mode options. It has been gaining the preference of equipment manufacturers because of its compact size and performance.

The LC connector system, standardized as TIA/EIA FOCIS-10, was designed specifically to address the needs of increasing network interconnect density. In the past, fiber management systems (for D4, ST, FC and Biconic), have required twice as many individual connectors as copper systems, hence, crowding racks and closets with additional patch bays, management hardware and line terminating electronics. SFF connectors have either a unitary body design (FJ and MT-RJ) or a provision for clipping simplex connectors together to form a single SFF end (LC). The LC connector provides the potential for twice the interconnect density in closets and racks when compared to a SC connector. Although, there is a point at which additional density cannot be utilized because of the difficulty in fiber routing inordinately large cable counts. Also at issue in these higher density racks, is the problem of disturbing adjacent circuits in MACs. Most important in fiber management, is the decreased footprint of the LC on electronics (hubs, switches, etc.) for fiber transceivers.

 

In the emerging SFF connector landscape, the LC connector is clearly the leader in performance as well as installed base. Since the LC connector has been licensed widely and is now offered by most major cabling system vendors (including some early proponents of MT-RJ), the exact number of LC connectors shipped is difficult to ascertain. However, at least one vendor has shipped over 24 million LC connectors, with a mix of approximately 60% multi-mode and 40% single-mode. The MT-RJ connector places a distant second in both performance and installed base. The multi-mode version has found some support with a few large transceiver vendors and LAN equipment manufacturers, particularly for the less demanding 100BASE-FX interfaces. However, the LC connector is quickly becoming the preferred transceiver connector for high bit rate applications (1 Gb/s and above) due to its numerous advantages for transceiver design. More transceiver manufacturers support the LC interface than any other SFF connector, and LC transceivers are available from numerous sources for applications ranging from 10 Mb/s to 10 Gb/s.

The specific characteristics of the LC connector, including wide fiber spacing, better fiber alignment, precision mating, ease of connector cleaning, and simplex/duplex configuration, combine to produce overall superior performance for both factory-terminated and field installed connectors. This is apparent that the LC connector is the best choice for a cabling infrastructure. Meanwhile, for fiber management and transceivers, there is no doubt that LC connector is an ideal solution.

Fiberstore as the main professional fiber optic products manufacturer in china offer a various kinds of fiber cable connectors, FC Connectors, LC Connectors, SC Connectors, MPO Connectors and ST Connectors. Each fiber optic connector family has supporting performance data based on accepted industry testing procedures specified by the most current version of ANSI/TIA/EIA-455B. You can buy fiber optic connection products on our store with your confidence. All of fiber optics supplies with high quality but low price.

In-Depth Understanding of Fiber Optic Patch Cable

Fiber optic patch cable can be one of the most commonly used components in fiber optic networks, since the increasing popularity of fiber optic cable. Fiber optic patch cable serves as a bridge during the information transferring through fiber optic cable. This post aims to help you get a better understanding of fiber optic patch cable and propose solutions by Fiberstore.

What is Exactly Fiber Optic Patch Cable?

Fiber optic patch cable, often called fiber optic patch cord or fiber jumper cable, is a fiber optic cable capped at either end with connector that allows it to be rapidly and conveniently connected to CATV (Cable Television) an optical switch or other telecommunication equipment. Its thick layer of protection is used to connect the optical transmitter, receiver, and the terminal box. This is known as "interconnect-style cabling".

Applications

Fiber optic patch cables are used for wide applications, such as, connections to CATV, telecommunication networks, computer fiber networks and fiber test equipment, including communication rooms, FTTH (Fiber to The Home), LAN (Local Area Network), FOS (fiber optic sensor), Fiber Optic Communication System, optical fiber connected and transmitted equipment, defense combat readiness, etc.

Types of Fiber Optic Patch Cables

Fiber optic patch cables can be divided into different types based on varies criteria.

In terms of fiber cable mode, fiber optic patch cables can be described in single-mode and multi-mode fiber patch cables. Single-mode fiber optic patch cables use 9/125 micron bulk single-mode fiber cable and single-mode fiber optic connectors at both ends. Single-mode fiber optic cable jacket color is usually yellow. While multi-mode fiber optic patch cables use 62.5/125 micron or 50/125 micron bulk multi-mode fiber cable and terminated with multi-mode fiber optic connectors at both ends. Multi-mode fiber optic cable jacket color is usually orange.

From fiber cable structure aspect, fiber optic patch cables can be classified into simplex fiber optic patch cables and duplex fiber optic patch cables. Simplex fiber patch cable has one fiber and one connector on each end. Duplex fiber patch cable has two fibers and two connectors on each end. Each fiber uses "A" or "B" or different colored connector boots to mark polarity.

By connector construction standard, fiber optic patch cables include FC, SC, ST, LC, MTRJ, MPO, MU, SMA, FDDI, E2000, DIN4, and D4. Cables are classified by the connectors on either end of the cable; some of the most common cable configurations include FC-FC, FC-SC, FC-LC, LC ST fiber cable, SC-SC, and SC-ST.

Fiberstore Solution

Fiber optic patch cables with high quality are characterized by low insertion loss, high return loss, good repeatability, good interchange, excellent environmental adaptability. Fiberstore can supply various types of fiber patch cables, including LC to SC fiber patch cable and LC-LC Simplex 9/125 Single-mode Fiber Patch Cable. With LC to LC termination, complete with Lucent Technologies aqua jacket, bandwidth transmitting rates up to 10 gigabits, cost-effective solution that specifically designed for gigabit Ethernet applications, these fiber optic patch cables can provide 100% optically tested to ensure high performance. Fiberstore provides high standard and trusted quality, accurate return purchase and barter service, professional maintenance service to satisfy your requirements.

Share Some Basic Knowledge About Fiber Optic Connectors

Remember that connectors are used as terminating fixtures for temporary non-fixed joints. As such, they are made to be plugged in and disconnected hundreds and possibly thousands of times. Since no one connector is ideal for every possible situation, a wide variety of connector styles and types have been developed over the short life of fiber communications. We can classify connectors by assigning them into five major categories:

1, Resilient ferrule 2. Rigid ferrule 3. Grooved plate hybrids 4. Expanded beam 5. Rotary

Of these types the rigid ferrule is by far the most common. Rigid ferrule types include the popular ST (compatible), FC, and SC, which use a single 2.5 millimeter cylindrical ferrule for fiber alignment. Other simplex connectors housing a single fiber, but no longer in common use today, include the SMA (905 and 906), D4, and the Biconic.

Duplex connectors contain two fibers allowing for a single connector body for both transmit and receive fibers. These connectors have come to the fore in recent years and are expected to gain popularity in the LAN arena. LAN hard ware manufacturers have already adopted these connectors since they offer a much smaller size, allowing more links per panel space on network equipment.

Early examples of duplex connectors include the FDDI and ESCON. These connectors are rather large and cumbersome. Newer duplex connectors are designed to fit in the same work area outlet space as a standard RJ45 telephone jack and include the MT-RJ, Opti-Jack, and Volition connectors. These are commonly referred to as small form factor (SFF) connectors.

Although some SFF connectors are duplex designs, several others are miniature simplex connectors that are similar in design to the SC. The LC, LX-5, and MTRJ connector use smaller 1.25-millimeter ferrules and miniature bodies to allow twice the panel density of the earlier simplex connector designs.

The end of an optical connector (Figure 6-4) can be either polished flat or with a PC finish, a slightly rounded, domed end to create a “physical contact,” hence the PC designation. Physical contact of the fibers reduces the back reflection caused by air between the fiber ends. Some singlemode connectors may also have an “angled PC” (APC) finish. The ends are angled at 8 degrees to minimize back reflections at the point of connection. These connectors cannot be mated with the normal flat or domed polish types (Figure 6-4).

Although few, if any, of the original designs were compatible, nowadays compatibility exists between the same types from different manufacturers (i.e., ST or SC designs), thanks to marketplace pressures and standards committees. Although not compatible with all other connector styles, most ferrules are 2.5 millimeters and will loose fit for temporary testing purposes. For example, by lightly inserting the ferrule of an ST into an FC coupler, a “quick-and-dirty” test can be made for continuity. Hybrid adapters to allow coupling of different types of connectors are generally available as either sleeve connectors or patch cords. Although no single connector is best for every application, Table 6-1 lists the currently popular connectors found in many different types for various applications.

Choosing a Fiber Connector

With all of the myriad selections of connector types, styles, and physical characteristics available on the market, choosing the specific connector for your job is often a mystifying task. One important criterion is connector performance. When selecting a connector, comparisons of performance are generally based on:

* Insertion loss, usually 0.10 to 1.0 dB per connection * Return loss (back reflection) varies from –20 (air gap like a SMA) to –60dB (the best APC angle polished connectors) * Repeatability of connection, usually specified at thousands of times

Your choice of fiber connector also may depend on whether you are mounting it onto singlemode or multimode fiber. Since singlemode connectors have a much tighter tolerance than multimode connectors, they may be used on either type of fiber. However the reverse is not true, that is, one may not use multimode connectors on single mode fiber because the loose tolerance will cause high loss with the very small singlemode core size. Generally multimode connectors are fitted onto multimode fibers because they are less precise and cost about one-half to one-third the cost of single mode connectors.

The accessibility of the fiber to casual users may cause you to anticipate rough handling. In this case, gripping strength of the connector on the cable becomes important to avoid pullouts by users. Gripping points of the connector may include the fiber itself, the primary plastic buffer coating (tight buffer), the loose tube buffer, the cable strength members (Kevlar), and/or the cable jacket itself.

Another reason for choosing a particular type of connector is the type of equipment already purchased or currently in use. If, for instance, you are adding to an existing system already equipped with ST fiber connector, you should continue to use ST connectors to ensure compatibility systemwide. If you are using previously purchased electronics with Biconic connectors installed, then that will be your choice, unless, of course, you want to change all of the connections on the patch panels and electronics.

Finally, your choice may be influenced by industry standards or new developments in the marketplace. The Electronic Industries Alliance/Telecommunications Industry Association (EIA/TIA) standards for premises cabling calls for the SC connector, although they are considering the new SFF connectors. Many of the newer connectors offer the promise of lower cost or higher performance, which can also influence the decision.

Fiberstore Fiber Optic Patch Cable Custom Solutions

What Is Fiber Optic Patch Cable?

 

Fiber optic patch cable is a fiber optic cable terminated with different connectors on both ends used for linking the equipment and components in fiber optic network, also known as fiber jumper or fiber optic patch cord. There are many kinds of fiber optic patch cables with different connectors and cable types. The common core sizes of multimode fiber are OM1 62.5 micron, 50 micron in OM2, 10 Gigabit Laser Optimized OM3 and OM4. Single mode patch cord and multimode fiber patch cable can be with a variety of connector types such as LC, FC, SC, ST, MU, MTRJ and E2000. You can find LC SC singlemode fiber patch cable, LC LC multimode fiber patch cable, ST SC fiber patch cable and other types patch cable in our store. Simplex fiber patch cable is consist of single fiber core, while duplex fiber patch cable is consist of two fiber cores and can be either multimode or singlemode. You can customize fiber optic patch cables of any cut length in Fiberstore.

Common types of fiber optic patch cables

Fiber optic patch cables can be divided into different types based on fiber cable mode, cable structure, connector types, connector polishing types and cable sizes.

1) Classfied by the various kinds of fiber optic cables, there are PVC, Riser, Plenum, OFNR, OFNP, LSZH and 10 Gig Aqua etc. 2) Classfied by the cores of optical fibers, there are simplex and duplex fiber optic patch cables. 3) Classfied by the modes of fiber optic cables, there are single mode fiber optic patch cable and multimode fiber optic patch cable. The word mode means the transmitting mode of the fiber optic light in the fiber optic cable core. Single mode patch cables are with 9/125 fiber and are yellow jacket color, while multimode patch cables are with OM1 62.5/125 or OM2 50/125 fiber and are orange color. In addition, multimode patch cables also include OM3 and OM4 types.

Fiber Cable Mode:

1. Single mode fiber patch cables: Single mode fiber optic patch cables use 9/125 micron bulk single mode fiber cable and single mode fiber optic connectors at both ends. The Single-mode fiber patch cables offered in standard PC polish and UPC (Ultra Polish). Single-mode fiber cable indoor type is usually with a yellow color jacket so that it is easy to identify.

2. Multimode fiber patch cables: Multimode fiber optic patch cables use 62.5/125 micron or 50/125 micron bulk multimode fiber cable and terminated with multimode fiber optic connectors at both ends. Multimode fiber optic cable jacket color is usually orange.

Fiber optic oatch cables with different fiber optic connectors

Fiber optic patch cable can be also classfied by the types of fiber optic connector. For example, LC fiber optic patch cable is named as it is with LC connector. Similarly, there are SC, ST, FC, MT-RJ, E2000, MU and MPO/MTP fiber optic patch cables. What's more, there are PC, UPC, APC type fiber patch cords, which are differentiated from the polish of fiber connectors. Fiberstore is biggest supplier of fiber patch cords, here we recommend you LC LC simplex fiber patch cable, SC/APC SC UPC fiber patch cable, LC SC multimode fiber patch cable, they are all our hot sale products in our store.

• LC Fiber Optic Patch Cable
• SC Fiber Optic Patch Cable
• ST Fiber Optic Patch Cable
• FC Fiber Optic Patch Cable
• MTRJ Fiber Optic Patch Cable
• E2000 Fiber Optic Patch Cable
• MU Fiber Optic Patch Cable
• MPO/MTP Fiber Optic Patch Cable

Fiber Optic Patch Cable Custom Options

In order to get the most appropriate fiber patch cables, we should understand the parameters of fiber optic patch cables before making an order for customization. In general, when we choose or custom fiber optic patch cable, we should consider these several parameters:

• Fiber Optic Connectors
• Polish Types
• Fiber Types
• Fiber Count
• Fiber Diameter
• Cable Jacaket Materials
• Jacket Colors
• Length

Why Choose Fiberstore Fiber Optic Patch Cable Custom Solutions?

Fiberstore designs, manufactures, and sells a broad portfolio of optical communication products. The global, vertically-integrated business model and expertise in optical design enables us to rapidly deliver market-leading, high performance fiber optic components and subsystems. The R&D and engineering teams provide strong innovative capability, who have core technical knowledge ranging from optoelectronic device, optical subassembly, and module design, to product and manufacturing process development expertise.

As one of the most important part in optical communication, fiber optic patch cables are also one of the key products of us. We offered a wide range of options for fiber optic patch cables. You can order to custom the fiber patch cables according to your requirements. Any fiber types, connectors, fiber cores, cable jackets, color and cable length can be found and customized here. In addition, custom labeling is also available. Based on our great strength of the professional team, Fiberstore promises to offer the most cost-effective and perfect fiber optic patch cables custom solutions for you. With the on-site, precision manufacturing equipment and our skilled workers, our fiber optic patch cords are reliable and 100% tested according to industrial and international standards to guarantee top performance. All our fiber patch cords are with flexible customization, good prices and very prompt delivery.

Which Optical Fiber Should I Choose, 50 micron or 62.5 micron

Multimode fiber optic cable has a large-diameter core that is much larger than the wavelength of light transmitted, and therefore has multiple pathways of light-several wavelengths of light are used in the fiber core.

Multimode fiber optic cable can be used for most general fiber applications. Use multimode fiber for bringing fiber to the desktop, for adding segments to your existing network, or in smaller applications such as alarm systems. Multimode cable comes with two different core sizes: 50 micron or 62.5 micron.

What are 50 um fiber and 62.5 um fiber?

The numbers 50μm and 62.5μm refer to the diameters of the glass or plastic core, the part of the fiber that carries the light which encodes your data. The dimensions are sometimes specified as 50/125μm and 62.5/125μm, to include the diameter of the cladding. (The cladding confines the light to the core because it has a lower index of refraction.) Cable construction is shown in the following diagram, indicating the cable core, cladding, and outer jacket diameters.

The

Differences

Although 50-micron fiber features a smaller core, which is the light-carrying portion of the fiber, both 62.5- and 50-micron cable feature the same glass cladding diameter of 125 microns. You can use both in the same types of networks, although 50-micron cable is recommended for premise applications: backbone, horizontal, and intrabuilding connections, and should be considered especially for any new construction and installations. Both types can use either LED or laser light sources.

The main difference between 50-micron and 62.5-micron cable is in bandwidth-50-micron cable features three times the bandwidth of standard 62.5-micron cable, particularly at 850 nm. The 850-nm wavelength is becoming more important as lasers are being used more frequently as a light source.

Other differences are distance and speed. 50-micron cable provides longer link lengths and/or higher speeds in the 850-nm wavelength.



Fiberstore 50 um and 62.5 um Fiber Patch Cable Series



OM1 Multimode Fiber Cables: OM1 fiber has a bigger core diameter, it makes the OM1 fiber better ability on concentrating the light and bend-resistance. OM1 fiber optic patch cable are widely used especially before the mid 1990s and it became a standard multimode fiber in the U.S.A. OM1 fiber was the indoor cabling standard chosen by AT&T, ANSI and IBM. For OM1 fiber cable, the max attenuation is 3.5Db/km working at 850nm, 1.5dB/km at 1300nm. Overfilled launch of OM1 fiber optic cable at 850nm is 200MHz*km, at 1300nm is 500MHz*km. Today, OM1 fiber optic cables are still a popular indoor use multimode fiber optic cable. Fiberstore supply high quality OM1 fiber patch cables to ensure the performance and reliability of data storage, servers, and network switches. The fiber cables are with high return loss and low insertion loss, and they can be available in OM1 LC patch cable, OM1 SC patch cable, OM1 FC fiber patch cable, and other types of connector. These fiber cables are compatible with all major brands like Cisco, HP, Foundry and Juniper. We also provide OM1 fiber cables in Riser, Plenum, and LSZH (Low smoke - Zero Halogen) types.

OM2 Multimode Fiber Cables: OM2 fiber optic cable refer to the commonly used 50/125 traditional multimode fiber cable. OM2 is a standard for multimode cable defined by ISO/IEC 11801. OM1 and OM2 are both orange jacketed cable, and you cannot judge from the outer diameter to identify OM1 and OM2 fiber cable, because the 50/125 and 62.5/125 refer not to whole cable diameter but to the fiber inside. OM2 50/125 multimode fiber cables are used in fiber optic telecommunications and high speed transmission systems that require simultaneous, bi-directional data transfer. 50 µm fiber offers as much as ten times the bandwidth of 62.5 µm fiber. Our OM2 50/125 fiber patch cables can be available in simplex and duplex with FC, SC, LC, ST, MTRJ or MU connectors.

OM3 Multimode Fiber Cables: OM3 has a suggested jacket color of aqua. Like OM2, its core size is 50µm, but the cable is optimized for laser based equipment that uses fewer modes of light. As a result of this optimization, it is capable of running 10 Gigabit Ethernet at lengths up to 300 meters. Since its inception, production techniques have improved the overall capabilities of OM3 to enable its use with 40 Gigabit and 100 Gigabit Ethernet up to 100 meters. 10 Gigabit Ethernet is its most common use. Fiberstore offer a variety of OM3 fiber patch cables, there are OM3 simplex LC patch cable, OM3 SC patch cable, OM3 FC patch cable, OM3 fiber cable LC ST, and other types of OM3 fiber patch cable. All the cables are 100% optically tested for maximum performance before shipping worldwide.

OM4 Multimode Fiber Cables: OM4 fiber has been on the market since 2005, sold as premium OM3 or OM3 fiber. The OM4 designation standardizes the nomenclature across all manufacturers so that the customer has a clearer idea of the product that they are buying. OM4 is completely backwards compatible with OM3 fiber and shares the same distinctive aqua jacket. OM4 was developed specifically for VSCEL laser transmission and allows 10 Gig / second link distances of up to 550 Meters (compared to 300M with OM3). OM4 multi mode fiber optic cable is the highest level of multi-mode fiber optic cable that you can use. The om4 multi mode fiber cable has the highest bandwidth possible and therefore can be used in networks where an overwhelming or extreme amount of data transfers will take place.

Fiberstore is one of the leading fiber optic patch cords supplier of China with huge experience of manufacturing fiber optic parts and accessories. We supply high class and long lasting patch cords according to the international standards. We are a reliable name in producing and supplying fiber optic patch cords in reasonable prices to our customers belonging from various parts of the world. We have a wide category of optical fiber attenuators, multi-mode duplex patch cables, custom made optical fiber patch cables, MTP and MPO multiple use fiber cable, Fiber optic pigtails, and many other sorts of fiber cables. Our PVC/LSZH Fiber Patch Cables are standard fiber optic cables terminated with LC/SC/ST/FC/MTRJ/MU/SMA connectors on both ends, such as LC-LC, LC-SC, LC-ST, SC-ST, SC-SC, ST-ST etc. These fiber patch cables are used for fiber link connection between equipment during fiber cabling.

LC to SC Fiber Patch Cords From Fiberstore

Fiberstore's LC to SC patch cable is made and customized to order worldwide and are fully tested to guarantee top performance. Each cable assembly is serialized for easy idenfication ANS sealed in individual Ziploc bags. Test results are included in each order. They are constructed with high quality fiber glass abd high grade connectors with ceramic ferrules for increased durability and accuracy. Fiberstore offer a complete selection of LC to SC fiber optic cable assemblies, these LC-SC fiber cords including single mode and multimode types, in simplex and duplex versions. Cables jacket can be Riser rated or Plenum rated, with LSZH cable and PVC options, and are all RoHS compliant cables.

LC part of the fiber optic cable is the compact small form LC fiber optic connector. It feature the RJ-45 style interface with low insertion loss and low back reflection, it is with high precision alignment and is widely used all over the world. We supply both simplex LC cable and duplex LC cable. The connector is with a 1.25mm O.D zirconia ceramic ferrule; LC fiber cable can be 9/125 single mode or 50/125 multimode or 62.5/125 multimode, PC, UPC or APC end face. It is compliant to Telcordia, EIA/TIA and IEC standards.

The SC part of the cable is a high precision SC fiber optic connector. The connector is compliant to IEC, TIA/EIA, NTT and JIS specifications. It is with one piece construction and pulls proof design. SC is low cost but high performance, which makes it one of the most popular cables. We supply the single mode 9/125, multimode 50/125 and multimode 62.5/125 types SC cables. They are with various PC, UPC, and APC connectors respectively. Our SC cables are available in simplex or duplex versions, with custom design available.

Options about Our LC-SC Fiber Patch Cords

Fiber Count: Simplex, Duplex, Multi Fiber
Jacket Type: Riser, PVC, Plenum rated, LSZH
Cable Length: Customized
Jacket Color: Customized
Fiber Type: 9/125μm Single Mode, 50/125μm Multimode, 62.5/125μm Multimode
Cable Diameter: 0.9 mm, 1.8 mm, 2.0 mm, 3.0mm
Polish Type: PC, UPC, APC

Common Types

Fiberstore manufactures fiber optic patch cables, fiber optic patch cords, and pigtails. We provide various types of fiber patch cords including single mode, multimode, multi core, and armored versions. You can find 4 connector types: LC, SC, ST and MTRJ which may be arranged in a configuration to match your connection needs. Including SC fiber cable (SC LC fiber patch cord), LC fiber patch cable (LC to ST fiber cable), ST fiber patch cable (ST to LC fiber patch cable, ST to SC fiber patch cable), ect. Custom lengths, connector combinations and polishes are available. Our each fiber patch cable is individually tested and certified to be within acceptable optical insertion loss limits for guaranteed compatibility and 100% reliability, and is backed by our lifetime warranty.

LC Patch Cords - High Density Fiber Optic Patching For Data Centers

As a global leading designer, manufacturer of high quality components and systems for the photonics industry at competitive prices, Fiberstore provides various type of fiber optic cables and fiber patch cords including common single-mode 9/125, OM1 62.5/125, 10GOM3/OM4 patch cables, armored patch cables, fiber optic pigtails, multi core patch cables, 12 fiber MTP to LC and other special patch cables, with SC, ST, FC, LC, MU, MTRJ, E2000, APC/UPC terminations. Take LC fiber optic patch cable for example, we will intros the main features and applications of Fiberstore fiber patch cord.

The LC patch cord is with a small form factor (SFF) connector and is ideal for high density applications.The LC fiber connector has a zirconia ceramic ferrule measuring 1.25mm O.D. with either a PC or APC endface, and provides optimum insertion and return loss.The LC fiber patch cable connector is used on small diameter mini-cordage (1.6mm/2.0mm) as well as 3.0mm cable. LC fiber patch cords are available in cable assembled or one piece connectors. The LC fiber optic assemblies family is Telcordia, ANSI/EIA/TIA and IEC compliant.

Fiberstore LC duplex jumper offers a unique solution for high-density fiber optic patching environments. It features a revolutionary and innovative push-pull boot design to control the latch, enabling easy access and removal in tight-fitting areas. The LC patch cord utilizes a smaller diameter uni-tube cable design which reduces cable pathway congestion improving air flow and increasing energy efficiency while simplifying overall cable management. The LC patch cord provides low-loss performance for Multimode and Singlemode supporting the precise optical performance requirements for high speed networks and improving network performance. The LC patch cord is ideal for patching high density blade servers, patch panels and equipment.

Fiberstore LC duplex/simplex fiber optic patch cords containing the custom push-pull strain relief boot and duplex/simplex chip, allow users easy accessibility in tight areas when deploying very high density LC patch fields in data center applications. They are available in OM4, OM3, or OS1/OS2 fiber types, LC-LC, LC-SC, LC-ST, LC-MU, LC-MTRJ, LC-MPO, LC-MTP, LC-FC. 10 Gigabit Ethernet and high speed Fiber Channel.

Fiberstore LC Fiber Patch Cable Assemblies

Applications:
Gigabit Ethernet
Active Device Termination
Premise Installations
Telecommunication Networks
Multimedia

Features:
Compact, pull-proof design
RJ-45 style interface
Low insertion loss and low back reflection
Polarized and color coded (TIA 568-A & ISO 11801)
UL-Rated plastic housing and boot
High precision alignment
Behind the Wall (BTW) style short connector & boot

Fiberstore Fiber Optic Patch Cable Solution

Fiberstore provides various types of fiber patch cables including single mode, multimode fiber patch cable, multi core, and armored versions. You can aslo find fiber optic pigtails and other special patch cables here. For most of them, the SC, ST, FC, LC, MU, MTRJ, E2000, APC/UPC connectors are all available, even we supply MPO/MTP fiber cables. In addition, Fiberstore is a professional manufacturer and supplier of fiber optic cables. Any customized service is offered here. All the cables are 100% optically tested for maximum performance before shipping worldwide.

Two types of Fiber patch cables

Introduction Of Fiber Patch Cable

Fiber patch cable, known as fiber optic patch cord or fiber jumper cable, is really a fiber optic cable terminated with fiber optic connectors on both ends. It’s two major application areas: computer work station to outlet and fiber optic patch panels or optical cross connect distribution center. Fiber patch cables would be the backbone from the fiber optics industry. They’re strands of optically pure glass as thin as real hair. These cables carry information via mode of transmission of light. Short patch leads usually created using stranded wire are flexible patch cables. The fiber patch cables are used to plug one piece of equipment into another.

Fiber patch cables are utilized to two nearby components with fiber connectors. Fiber patch cables come with their respective connectors. They can be an ideal and easy replacement of copper cables because they make use of the same RJ45 connector as copper patch cables. Fiber patch cables can be found in simplex, duplex, multimode, single mode with ST-ST, ST-SC, SC-SC connectors. They are of two prominent types – single mode and multimode.

Single Mode Fiber Patch Cable

Single mode fiber patch cables are utilized in long-distance high capacity voice applications like telephone transmission or long-distance gigabit networking. These fiber patch cables can use 9/125 micron bulk fiber cables and connectors at both ends. The follow introductions all about our hot sale singlemode fiber patch cord products.

Hot Sale LC-LC Duplex 9/125 Single-mode Fiber Patch Cable

LC to LC Single-Mode Duplex Fiber Cable features 9/125 micron fiber for high-speed, high bandwidth data transmissions over Gigabit Ethernet and Fiber Channel networks, with support for duplex single-mode applications. Each Duplex 9/125 Single-Mode Fiber Patch Cable is individually tested and certified to be within acceptable optical insertion loss limits for guaranteed compatibility and 100% reliability, and is backed by our lifetime warranty.

Key Features

LC-LC Connectors
Singlemode Duplex fiber optic cable
Micron: 9/125um
Complete with Lucent Technologies aqua jacket
Bandwidth transmitting rates up to 10 gigabits
All of our fiber optic patch cables feature the high degree connectors
100% optically tested to ensure high performance
Color: Yellow

SC/APC to SC/APC Singlemode 9/125 Simplex Fiber Patch Cable

Characteristics

SC/APC to SC/APC Connectors
Single-mode simplex fiber optic cable
Complete with orange OFNR rated riser/jacket
All of our fiber optic patch cables feature the high degree connectors
100% optically tested to ensure high performance
Micron: 9/125um
Color: Yellow

Multimode Fiber Patch Cable

Multimode fiber patch cables are utilized in computer industry that is standard for data applications like local area network, wide area network, etc. Fiber patch cables in multimode are available in 50/62.5 micron. SC, ST, LC, FC, MT-RJ, E2000 and MU connectors have polished ceramic ferrules for precision and durability. The SC and LC duplex fiber patch cables come designed with a clip to keep polarity. The following is best seller multimode patch cord from Fiberstore, see the detail introduction.

LC-LC Duplex 10G OM3 50/125 Multimode Fiber Patch Cable

Our LC-LC 10G OM3 50/125 multimode fiber patch cords provide 10 gigabit data transfer speeds in high bandwidth applications, and they are five times faster than standard 50um fiber cables. These aqua OM3 10G 50/125 fiber patch cables are with LC connectors at the ends of them, and they work with both VCSEL laser and LED sources. Also, our 10G fiber optic patch cables are 100% optically tested for maximum performance. We have all lengths and connectors available.

Key Features
LC-LC Connectors
Multimode Duplex fiber optic cable
Micron: 50/125um
Complete with Lucent Technologies aqua jacket
Bandwidth transmitting rates up to 10 gigabits
All of our fiber optic patch cables feature the high degree connectors
100% optically tested to ensure high performance
Color: Aqua Fiber class: OM3

Fiber Optic Patch Cord Application

Fiber Jumpers products are widely applied to: the communications room, fiber to the home, local area networks, fiber optic sensors, optical fiber communication systems, fiber optic connector stransmission equipment, and defense readiness. Applicable tocable television and telecommunications networks, computer and fiber-optic network, and optical test equipment.

Subdivision down is mainly used in several ways.
1 .An optical fiber communication system
2. optical access network
3. fiber-optic data transmission
4. fiber optic CATV
5. a local area network (LAN)
6. Test equipment
7. Fiber optic sensors

Fiber Optic Patch Cable Solution

Fiberstore provides a full set of fiber optic patch cable solution cover from the production processes, product series introduction, description, application and using guide to after-sale maintenance that can satisfy our customers with a full range of services. All of our ST to ST, SC to SC and LC to LC fiber optic patch cables deliver high-capacity, high-data-rate transfer and are optimized for dense wavelength division multiplexing (DWDM) and optical networking technology. In addition, Fiberstore can also offer the custom service for your special requirements. We will keep on improving to achieve offering the high quality fiber optic patch cables for your projects.