Tag Archives: SFF

The LC Connector in Fiber Management and Transceivers

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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 (Fig. 2) 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.

SFF Connector, SFP Transceivers and the march towards 10Gb/s Enterprise Networking

Original SFF transceivers (GBICs) on equipment have now been overshadowed by the SFP (“pluggable”versions of the SFF) transceiver. Equipment vendors are starting to offer SFP on switches/NICs for Gb/s Ethernet. The optical receptacle on the SFP for Fibre Channel and Gb/s Ethernet is the LC connector. Most major transceiver vendors, including early proponents of “MT-RJ-only” transceivers, now sell SFPs with the LC interface only.

On 200 pin XenPAK transceivers, only SFF options are specified in the Multi Source Agreement (MSA). Vendors have offered XenPAK with both SC and LC pigtails, but the majority offers “LC only” XenPAK product lines. The LC is also used in competing transceivers such as XenPAK, X2 and XFP.

LC Market Acceptance

The LC is the market leader in SFF connectors. Press releases from the major vendors of LCs (Lucent) and MT-RJs (Tyco/AMP) in similar time frames (mid 01) indicate unit volumes of 20 million and 3 million respectively.

According to the Fiber Optic Connector/Mechanical Splice Global Market Report by Electronicast, the North American Market for private network use of SFF connectors is expanding quite rapidly. In this report, the multimode LC is estimated to grow at double the rate of that of the multimode MT-RJ (Table 1). The difference embedded in the Electronicast data is the creation of new installations (LC) versus the support of existing facilities (MT-RJ).

The multimode MT-RJ found early support in 100BASE-F applications. In spite of this, the LC is becoming the optoelectronics interconnect solution for 1-10Gb/s applications. The emerging 10Gb/s market has forced transceiver vendors to evolve toward pluggable designs with the LC as the primary choice of interconnect.

The LC connector patch cable have LC to LC, LC to MT-RJ, LC to SC, LC ST fiber patch cable .  The LC fiber optic patch cable is with a small form factor (SFF) connector and is ideal for high density applications. The LC fiber patch connector has a zirconia ceramic ferrule measuring 1.25mm O.D. with either a PC or APC end face, 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 cable connectors are available in cable assembled or one piece connectors. The LC fiber optic assemblies family is Telcordia, ANSI/EIA/TIA and IEC compliant.

lc fiber optic patch cable

We offer LC fiber cables and LC fiber patch, including single mode 9/125 and multimode 50/125, multimode 62.5/125, LC-LC, LC-SC, LC-ST, LC-MU, LC-MTRJ, LC-MPO, LC-MTP, LC-FC, OM1, OM2, OM3. Other types also available for custom design. Excellent quality and fast delivery.

Talk about LC connector, the common connector type we have seen, there are FC connector, SC connector, ST connector, ect. The following is some connector type features.

FC: A metal screw on connector, with a 2.5mm ferrule, developed by NTT. The ruggedness of this connector leads to its extensive use at the interfaces of test equipment. It is also the most common connector used for PM, polarization maintaining, connections. Please note that there are currently four different specifications for the key width on FC connectors and for the slot width on FC adapters. Therefore not all FC connectors will fit into all FC adapters.

LC: As mall form factor plastic push/pull connector, with a 1.25mm ferrule, developed by Lucent. The LC has been referred to as a miniature SC Connector. It is mainly used in the United States.

MTP: A push/pull ribbon connector, which holds up to 12 fibers. The 12-fiber capacity allows for very dense packing of fibers and a reduction in the number of connectors required.

SC: A plastic push-pull connector, with a 2.5mm ferrule, developed by NTT. Push-pull connectors require less space in patch panels than screw on connectors. The SC is the second most commonly used connector for PM, polarization maintaining, connections.

ST: A metal bayonet coupled connector, with a 2.5mm ferrule, developed by AT&T. The ferrule moves as load is applied to the cable in this aging design. There is a version of the ST, which the Navy uses extensively, where the ferrule does not move as a load is applied to the cable.

Fiberstore has a global reputation for bringing best-in-class technology and design concepts to the marketplace. Added to close customer relationships, decades of experience in the industry and outstanding service and support, make Fiberstore the right choice for fiber optic components and systems that will splice your fiber optic components together. We offer fiber optic patch cable, fiber optic cable, fiber optic transceivers, ect. In particular, Fiberstore products include optical subsystems used in fiber-to-the-premise, or FTTP, deployments which many telecommunication service providers are using to deliver video, voice, and data services.

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Small Form Factor Fiber-Optic Connectors

One of the more popular styles of fiber-optic connectors is the small form factor (SFF) style of connector. SFF connectors allow more fiber optic terminations in the same amount of space over their standard-sized counterparts. The two most popular are the mechanical transfer registered jack (MT-RJ or MTRJ), designed by AMP, and the Local Connector (LC), designed by Lucent.

MT-RJ

The MT-RJ fiber optic connector was the first small form factor fiber optic connector to see widespread use. It is one-third the size of the SC and ST connectors it msot often replaces. It had the following benefits:

● Small size
● TX and RX strands in one connector
● Keyed for single polarity
● Pre-terminated ends that require no polishing or epoxy
● Easy to use

LC

Local Connector is a newer style of SFF fiber optic connector that is overtaking MT-RJ as fiber optic connector. It is especially popular for use which Fiber Channel adapters and Gigabit Ethernet adapters. It has similar advantages to MT-RJ and other SFF-type connectors but is easier to terminate. It uses a ceramic insert as standard-sized fiber-optic connectors do. Figure 1.21 shows an example of the LC connector. Mentioned fiber optic connector, we know fiber optic patch cords, a fiber optic patch cord is constructed from a core with a high refractive index, surrounded by a coating with a low refractive index that is surrounded by a protective jacket. Transparency of the core permits transmission of optic signals with little loss over great distances. The coating’s low refractive index reflects light back into the core, minimizing signal loss. The protective jacket minimizes physical damage to the core and coating.

Connector design standards 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, FC-ST, SC-SC, and SC-ST.

lc to lc fiber patch cord is used to send high-speed data transmissions throughout your network. LC/LC fiber optic cables connect two components with fiber optic connectors. A light signal is transmitted so there is no outside electrical interference. Our LC/LC fiber optic patch cables are 100% optically tested for maximum performance. We have all lengths and connectors available.

Multimode LC/LC fiber optic patch cable send multiple light signals. They are 62.5/125µ. Common connectors are ST, LC, SC and MTRJ. Our 62.5/125µ LC/LC multi-mode fiber cables can support gigabit ethernet over distances up to 275 meters.

Cable Type Summary

common-ethernet

Fiber optic patch cables are used for linking the equipment and components ,we have fiber optic patch cable with different fiber connector types,our low insertion loss and low back reflection .Axen Technologies fiber patch cable is widely applied in Telecommunication Networks ,Gigabit Ethernet and Premise Installations.

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