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Data Center _ MPO SOC /LC Duplex
FTTH Fusion SOC
Fusion Splice-On Connectors
Advancing Fiber Optic Connectivity
2017 BICSIWinter Conference & Exhibition
January 22-26 / Tampa, FL
MPO SOC
SC SOC
LC SOCLC Duplex
booth #744Pre-conference Seminar _Monday 1:30~4:30 pm
www.ilsintech.com
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Table 1. Comparison of the legacy connectors and their advantages/disadvantages
Fusion Splice-On Connectors
Table Of Contents
In the current age, the era of ubiquitous multimedia based on the Internet and mobile devices, there has been a tremendous explosion in bandwidth requirements for communication networks. Very high speed, long-distance and voluminous data transfers have come to be accepted as the norm today. The needs for high speed/quality access to the Internet have driven academic and commercial interests to grow and accelerate further developments for optical technologies. Traditionally, the copper-based networks (CBNs) have been the foundation for electronic communication. These are now being replaced inevitably with optical networks due to the limitation of bandwidth capacity, which may affect the efficien-cy of content rich delivery. The strength of optical networks are such that there is huge increased in data rates as compared with CBN (i.e., 1.5Mb/s versus nearly 50Tb/s) and transmission of different data formats (i.e., video, audio, and images) over long distance up to several thousand kilo meter is possible. The result is massive installation and deployment of fiber optic cables in the data center and fiber-to-the-home. Various methodologies to terminate the fibers are being used. Table 1 shows the comparison of the legacy connectors and their advantages / disadvantages to select the most appropriate termination method [1~4].
DisadvantagesAdvantages
Fusion splicing with pigtail
▪ Weak tensile strength▪ Not suitable for high density data center environment▪ Excess length of cable (wasting materials)Space for splice tray and cable slack ▪ required (causing electric power increasing)▪ No extra stock on hand, then no fix on-site (Stock with varying lengths of cable)
Pre-connectorized cable assembly
Field installable mechanical splice-on connector
▪ Factory pre-polished endface▪ Quality tested and performance results included on shipment▪ Reliable termination method combined with Fusion splicer
▪ Longer restoration time▪ Difficult installation with long length of cable▪ Excess length of cable (wasting materials)Space for cable slack required▪ No extra stock on hand, 6 to 8 weeks of delivery required
▪ No technical drawbacks (Typical losses of 0.2db or less)▪ Quality tested and performance results included on shipment
▪ Mechanical tool kit is required▪ Low Return Loss : gap Fiber to Fiber, 40~50dB Unconformity in Analog Network (≥55dB)▪ High Insertion Loss & high failure : Spicing Loss no Predictability only Visual Fault Locator Check▪ Weak on vibration▪ Splicing : Skilled person oriented▪ Low Reliability : Buckling, Fiber to Fiber gap, index matching gel▪ Signal interference/noise issues
▪ Easy assembly process▪ Fiber can be reseated▪ No expensive tools required▪ No epoxy required▪ Factory polishing eliminates loss concerns▪ Meet TIA/EIA 568A performance requirements
▪ Fusion splicing machine is required▪ Splicing point and its protective tube located inside the connector▪ No adhesives, crimping or polishingTrue APC performance▪ Superior tensile strength▪ Connectors compliant to GR-326-CORE and GR-1435-CORE
Field installable fusion splice-on connector
1. Introduction
1. Introduction 02
2. Field installable connectivity and technology 04
2.1 Field-installable Mechanical Splice-On Connectivity 04
2.2 Field Installable Fusion Splice-On Connector 07
3. Conclusion 14
Advancing Fiber Optic Connectivity
ILSINTECH 02
SummaryApplicationsSeparation
As shown in Table 1, despite fusion spliced pigtails being common, this method could be avoided in the high density installations, and it is not recommended in installations involving high tensile load. Pre-connectorized cable assemblies may be deployed to reduce construction and installation time, but excess cable assembly may result in high material waste. This kind of waste can inefficiently increase the electric power for operating the air conditioning [5]. While pre-connectorized cable assemblies may appear to be preferred due to easy “plug and play” connections to the subscribers for telecommunications area, it may be difficult to pull the cable assembly though narrow spaces or over bundles of cables stored in cable runs
Considering the various termination methods described above, field installable connectivity is preferred method for the data center and telecommunications applications. There are three requirements for choosing the appropriate termination of the cables. First of all, concerning quality, optical performance should be verified after splicing. Splice quality is the most critical, and it could affect on-site repair/replace-ment and the future maintenance. Second, concerning installation, field installation should be easy with as few practices and as short length of training, as possible and it should be simple to reduce the installation time to save labor cost. Field repair should be easy, quick and safe with superior optical performance and reliability. Finally, concerning cost, low cost with high quality is always preferable. Yield (quality) of the installed connector which can cause extra visits for repair and maintenance, labor expertise (higher paid technicians) and labor time should be taken into consideration.
To choose the most suitable termination methodology, two types of field installable connectivity should be reviewed and selected as a solution for both data center and telecommunications, such as fiber-to-the-home.
Figure 1. Examples for termination and installation of the cables in the data center and in the central office
Excess length of cable and slack storage required
No Excess length of cable and no slack storage required
Field installable mechanical splice-on connectivity is based on mechanical splice technology, in which two cleaved fiber tips are mechanically aligned to each other by a special housing, e.g. v-groove and capillary, as shown in Figure 2. To improve optical performance, the end face of the ferrule should be pre-polished. The pre-cleaved fiber end in the stub is the most important factor to minimize attenuation. For example, the angle of the pre-cleaved fiber is a critical attribute to determine the quality of the connec-tivity. The cleaved fiber angle in the figure 3, (c), will cause poor quality [6, 7].
2. Field installable connectivity and technology
2.1 Field-installable Mechanical Splice-On Connectivity
Figure 2. Basic structure of the Field installable Mechanical Splice-On Connector and its performance
End face of the pre-polished connector Pre-installed fiber Mechanical splice
Index matching gel Field fiberV-groove/Capillary tubeFerrule
Estimated connector loss: Connector loss (typ. 0.1dB) + Fusion splicing loss (typ. 0.02dB, max. 0.05dB)
(a) Fusion splicing with pigtail
(b) Pre-connectorized cable assembly/Termination with FSOC
(c) The example of Fusion Splice-On Connector before and after application
Fusion splicing with pigtail
▪ Not suitable for high density data center environment▪ Space for splice tray and cable slack required (causing electric power increasing)
Pre-connectorized cable assembly
▪ Longer restoration time▪ Difficult installation with long length of cable▪ Excess length of cable (wasting materials)▪ Inventorying various lengths of cable and, types of connectors and polarity and no stock then 6 to 8 weeks of delivery required
Data center andtransmission
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ApplicationsSeparation
Figure 3. Interferograms of 125 μm diameter optical fiber cleaves Figure 4. Incorrectly cleaved fiber ends
There is index matching gel inserted in the splice housing which can prevent reflectance. The refractive index of index matching gel varies with temperature so the optical performance of the mechanical splice can be sensitive to temperature. Another cleaved field fiber from outside can be a significant factor deter-mining the quality, as shown in figure 4. The cleaved fiber end should not be contaminated.
(a) High quality cleave with an end angle of about 0.3⁰.
(b) More typical cleave with an end angle of about 0.5⁰.
(c) Poor quality cleave with an end angle greater than 2⁰ [4]
Typical loss for physically mated fibers in the adapter could be 0.1dB, and the loss of the mechanical splice would typically be 0.15 dB, or max. 0.4dB. Total loss would range from 0.25 dB to 0.5dB. Return loss will be approximately 40dB to 50 dB for UPC and 50dB for APC respectively. Providing RF video signal on fiber, return loss (RL) should be over 60dB, but due to the mechanical splice and index matching gel, RL ranged around 50dB, it could affect interfere in video signals. And although this type of connector is weak on vibration and there could be an air gap between the fiber tips aligned and buckling in the fiber stub, easy to assemble, no expensive tools are required, no epoxy is required and the fiber can be reseated and for repair or restoration in the data center and FTTH network.
Despite the benefits of mechanical connectivity, it has technical drawbacks. Specially, it has higher attenuation than pre-connectorized cable assemblies, and it may not be a proper method to terminate cables in the data center [5]. Table 2 shows the statistics of FTTH failure reported by China Telecom in Jiangsu province in December, 2010 and this will lead Telcos to the right direction of the success of installa-tion.
Problems with terminations at the subscriber end account for more than half of total malfunctions. lIn another developed province, problems with cable terminations account for a high ratio in total malfunc-tions in the major cities from December 2011 to January 2012 43.8% in Foshan, 41.4% in Guangzhou, 35.7% in Zhongshan, 31.7% in Yangjiang, 30.4% in Shanwei,. Average is 29.5%
No. Cause Frequency Share
1 Power down at central office 329 7.6%
2 Feeder or distribution cable failure 179 4.1%
3 Splitter failure 93 2.2%
4 Drop cable failure 425 9.8%
5 Pigtail or connector failure 193 4.5%
6 Project cutover 153 3.5%
7 Termination failure at subscriber end 2180 50.4%
8 ONU failure 473 10.9%
9 Power down at user terminal 54 1.2%
10 Others 251 5.8%
Total 4330 100%
Table 2. Statistics of FTTH malfunction in Jiangsu, China, December 2010
Table 3. Termination method share in Jiangsu, China
Termination menthod share in jiangsu, China
Improved mechanic splicer
54%
Fusion splicing
6%Pre-termination
40%
ApplicationsSeparation
▪ Mechanical tool kit is required▪ Low Return Loss : gap Fiber to Fiber, 40~50dB Unconformity in Analog Network (≥55dB)▪ High Insertion Loss & high failure : Not appropriate solution to the data center▪ Weak on vibration▪ Low Reliability : Buckling, Fiber to Fiber gap, index matching gel▪ Signal interference/noise issues
Summary
Field installable mechanical splice-on connector
Data center and transmission system
▪ Mechanical tool kit is required▪ High Insertion Loss & high failure ▪ Higher maintenance cost (2 to 3 times more than initial installation cost) after installation▪ Low Reliability : Buckling, Fiber to Fiber gap, index matching gel▪ Signal interference/noise issues
Summary
Field installable mechanical splice-on connector FTTH
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ApplicationsSeparation
Fusion Splice-On Connectors are field installable and can be connected in the field, complying with international standards. Additionally, field installation technology is the most reliable connectivity method. Its polishing process results in attenuation similar to field installable mechanical connectors and pigtail solutions (immediate termination on-site with less attenuation from the end face of the ferrule). Furthermore, Fusion Splice-On Connectors provide more stable quality and performance than that of field installable mechanical connectors. They can be aligned and spliced by using Fusion Splicers with no index matching gel. The splice point can be protected with heat shrink protection sleeve in the field. In addition, Fusion Splice-On Connectors allow workers/installers to reduce working time and maintenance/service by providing reliable and quality results. This could increase work efficiency and minimize the installation cost.
The typical loss of the physical contact mated in the adapter may can be 0.1dB. Fusion splicing attenu-ation is typically 0.02dB, and maximum is 0.05dB. Therefore total expected loss is in the range of 0.12dB to 0.15dB. Expected return loss is over 55dB (UPC) and over 60dB (APC) respectively. It can be adapted to analog networks (≥55dB) with no signal interference and no noise. Types of the alignment methods are IPAAS Core, Fixed V-groove and Active clad. Most importantly, fiber angles and cleaved fiber ends can be seen on the fusion splicer while splicing and the splicing point can be protected with heat shrinkable tubes. There are many types of Fusion Splice-On Connectors. Fusion Splice on Connectors that can be applied to cable using Kevlar can also be applicable for drop cable type, and they can be adapted to the Data Center and FTTH markets. Boot type fusion splice on connectors with the Kevlar have an excellent tensile strength that can even hold about 6.8kg load after installation unlike Field installable Mechanical Connectors (Ref. Ilsintech FSOC : Cord type: 6.8kgf/Drop cable type: 4.5kgf)
2.2 Field Installable Fusion Splice-On Connector The Swift Fusion Splice-On Connector (FSOC) complies with international standards, has SC, LC, ST and FC type and is categorized by different Cables and Fibers. The popular 12-fiber MPO field installable fiber optic connector for data center is ready to launch into the market. Pre-connectorized cable assem-blies which used to be a major product for MPO connectors are now considered a waste of resources, time, and labor to repair when cable assemblies are damaged. However, MPO SOCs allow users to fix and recov-er damaged parts easily and enables them to cut and terminate on-site with the desired length of cable. This can minimize cost and efficiency by removing the storage of cable slack. Table 4 shows the types of MPO Connectivity and their advantages / disadvantages.
End face of the pre-polished connector
Fusion splicing point
Cable clamping part
Splicing protection with heat shrinkable tube
Field fiber
Ferrule
Estimated connector loss: Connector loss (typ. 0.1dB) + Fusion splicing loss (typ. 0.02dB, max. 0.05dB)
Estimated connector loss: Connector loss (typ. 0.1dB) + Fusion splicing loss (typ. 0.02dB, max. 0.05dB)
Figure 5. The structure and performance of the Fusion Splice-On Connector (SC type)
Figure 6. MPO SOC structure/performance and the product (Cord type)
Table 4. Types of MPO Connectivity and their advantages / disadvantages
DisadvantagesAdvantagesMPO cable assembly
▪ Inconvenient solution▪ Not suitable for high density data center environment▪ Excess length of cable (wasting materials)▪ Space for splice tray and cable slack required (causing electric power increasing)▪ No extra stock on hand, then no fix on-site (Stock with varying lengths of cable)
MPO Fusion Splice-On Connector
▪ Factory pre-polished endface▪ Quality tested and performance results included on shipment▪ Reliable termination method combined with Fusion splicerSplicing
▪ Inconvenient solution▪ Longer restoration time▪ Difficult installation due to the long length▪ Excess length of cable (wasting materials)▪ Space for cable slack required (causing electric power increasing)▪ No extra stock on hand, then no fix on-site (Stock with varying lengths of cable)
▪ No special skill required▪ No technology drawbacks (Typical losses of 0.2db or less)▪ Quality tested and performance results included on shipment
▪ Field installable ▪ Splicing point and its protective tube located inside the connector▪ Improvement of quality and reliability reduces the maintenance cost and labor cost dramatically ▪ Maximization of energy efficiency and reduction of installation cost – No additional storage for cable slack▪ Reducing the installation cost
Summary
Field InstallableFusion Splice-On Connector
Data center andtransmissionsystem
End face of the pre-polished connector
Kevlar gripping part
Fusion splicing point
Splicing protection with heat shrinkable tube
Field fiber
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Figure 7. LC SOC structure and performance
Figure 8. Non-ribbonization holder and Kit
As shown in Table 4, MPO fusion splice-on connectors are field installable and scalable immediately for termination depending on the types of connectors and fibers and cost efficiency is maximized by less time in installation and restoration. The quality and performance is as good as MPO cable assemblies, and 12-core MPO splice-on connector is available which can be mainly used in the data center with the non-rib-bonization holder (patent pending), as shown in Figure 8, minimizing installation time up to 5 minutes. As seen in Table 5, Swift MPO Fusion Splice-On Connector is superior to the optical performance and minimal components and provide short length of termination time with no ribbonizing tool.
Estimated connector loss: Connector loss (typ. 0.1dB) + Fusion splicing loss (typ. 0.02dB, max. 0.05dB)
End face of the pre-polished connector
Fusion splicing pointKevlar gripping part
Ferrule
Field fiberSplicing protection with heat shrinkable tube
Key points of Data Center Solution (Fusion Splice-On Connector)
MPO HolderRibbonizing Holder
1) No scratches and no physical damage on fiber stripped by the built-in thermal stripper - Small scratches on fiber can cause critical crack or loss in fiber connec-tion. For example, to guarantee service life, the submarine cable is stripped by the chemical stripping method to prevent scratches on the fiber during stripping. ILSINTECH thermal stripper is designed to satisfy this clean stripping.
2) Quality guaranteed for the fusion splice-on connector (MPO, LC, SC) ‒ Premium level of loss (IL: LC and SC, Typ. 0.15dB, Max. 0.3dB, RL: SM UPC ≥55dB, APC ≥ 65dB, MM ≥30dB / MPO Typ. 0.15dB, Max. 0.35dB, RL: MM ≥20dB, SM ≥60dB) and fusion splicing loss typ. 0.02dB
1. Quality (25 year guarantee)
1) In short distance (1~30m), the pre-connectorized cable assemblies are recom-mended.
2) The longer length of the cable assemblies are relatively expensive compared to the fusion splice-on connector solution which allows on-site field termination with the desired length of cable and enables a fast installation to save time for relatively longer distance over 30 meters with narrow and limited space.
3) No additional storage required for cable slack and no splice tray required for protection of fusion splicing points.
2. Cost reduction and fast installation time
1) Most of problems and defects for the cable assemblies come from the connec-tors.
2) While the long length of pre-connectorized cable assembly is very high in manu-facturing cost. ILSINTECH’s fusion splice-on connectors enable to save cost and time by customizing the cable length on-site.
3) The fusion splice-on connectors provide solutions for easy replacement of the malfunctioned connectors, saving time and saving space due to eliminating cable slack. However, if replaced by new pre-connectorized cable assembly, it requires longer time in replacement and the space for the cable storage is required for cable slack.
3. Best options for repair, restoration and maintenance
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2.2.1 Case Study
Case 1
PurposeService ProviderTechnologyRegionSubscribersDate of Deployment
FTTH (Fiber To The Home) Trial ServicePLDT (Philippine Long Distance Telephone Company)FTTH G-PONUrdaneta village in Makati, Philippines.Trials for 2 subscribers Jan 11~15, 2016
The Insertion loss from the NAP was -17.5dBm as measured by the OPM of the F1+. Six terminations have been done for this SO. (NAP to OJB, OJB to connector junction box, and Connector Junction box to IOO). The output result at the IOO as read by the F1+ OPM is -18.5dBm. Average insertion loss per connector at this trial was 0.17dB.
Table 5. Comparison of MPO SOCs
Recently, the application of FTTH has become a trend, bringing a better opportunity globally, such as the spread of human knowledge, improving quality of life and health making business more productive. It’s the start of new era. However, for the successful installation of FTTH, it is most important to choose appro-priate connectors and termination methods which can be very costly [10]. The wrong choice of termination methods in FTTH networks can result in extra maintenance cost after installation, which can equal 2 to 3 times initial installation cost. In the worst case, total system malfunction has occurred, as witnessed in China in 2011. For the successful installation and maintenance, direct purchase of the proper products from Telcos should be a key point and they should distribute the products purchased directly to the instal-lation team and construction/deployment companies, and supervise the installation method. This can be the best solution for Telcos and for the customers.
ILSIN Swift MPO SOC A Company B Company
Insertion Loss
Return loss
No. of Components
Installation time
Ribbonization tools
≤0.35dB
>20dB
6
5~6 minutes
Minimal tools required
(Non-ribbonization holder and
fluid required)
≤0.35dB
>30dB
6
10 minutes
Ribbonize tool required
≤0.35dB
>20dB
8
17 minutes
Ribbonize tools required
Optical Joint Box To Subscriber PremiseNetwork Access Point To Optical Joint Box
5m 20m
Wall Pillar Outside
NAP
OJB
1 termination with FSOC
1c Drop cable
1c Drop cable
Optical Jumper cord
1c Drop cable
2 termination with FSOC
2 termination with FSOC
Clamp
Clamp
Clamp
House BracketClamp
ONT
IOO
POLE
Outdoor FIC storage box
▪ Field installable▪ Convenient installation with no limit of the lengths▪ Superior optical, mechanical and environmental performance▪ Strong tensile (4.5kgf) enables outdoor deployment▪ Improvement of quality and reliability reduces maintenance cost and labor cost dramatically
1. The wrong choice of termination methods in FTTH networks can result in extra maintenance cost after installation, which can equal 2 to 3 times initial installation cost.2. For the successful installation and maintenance, direct purchase of the proper products from Telcos should be a key point and they should distribute the products purchased directly to the installation team and construction/deployment companies, and supervise the installation method.
Summary
Field installableFusion Splice-On Connector
Key point of FTTH
FTTH
ApplicationsSeparation
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Case 2
NAP ‒ ONTBoth terminations with Mechanical SOCInitial Optical Power From ONT: -24.1dBm (NOT OK)Optical Power after 1st replacement of Mechanical SOC to Fusion SOC from ONT: -23.01dBm (OK)Optical Power after 2nd replacement of Mechanical SOC to Fusion SOC from NAP: -16.9dBm (OK)
PurposeService ProviderTechnologyRegionSubscribersDate of Deployment
FTTH (Fiber To The Home) Trial ServiceTrue Corp.FTTH G-PONThailandTrials for several subscribers Juen, 2016
3. Conclusion
Considering the reliability, scalability, performance, cost and recovery time, the most suitable termina-tion method for data center and telecommunications markets is fusion splice-on connectors. Fusion splice-on connectors have been expanding to data centers through telecommunications and it also shifts from the existing termination method/connectivity to fusion splice-on connector. It could be the next generation of fiber optic connectivity
References
1. W. McAvoy, "A comparison of pre-polished connectors vs. fusion-spliced pigtails as field terminable solutions",
Panduit Corp., Document No. WP-04220301, April 22, 2003.
2. C. Everett, “Pre-terminated vs. field terminated fiber optic cables”, Cabling Business Magazine, pp.34-35, July, 2006
3. B. Charuk, “Next Generation Connectivity Solutions for Fiber Optic Networks”, White paper, Sumitomo Electric Lightwave, pp.4-5, 2012
4. J. Vandenbroeck, “Spliced versus factory pre-terminated solutions A comparison of architectures”, Whitepaper, Commscope, 2015
5. Y. Suzuki, “Field Installable Splice-on Connector for Data Center”, Proceedings of the IWCS Conference, vol. 63, pp.41-46, 2014
6. K. Hogari, et al.: “Field-installable Single-fiber Connector”, Electronics Letters, vol.33, No.12, pp.1072, 1997
7. J. D. Jackson, “Mechanical Splice with Keyed Angle Cleave Fibers”, Business white paper, 3M, p.4 2011
8. H. Yang, et al., "Evaluation of Different Cable Termination Solution for FTTH Deployment in China", Proceedings of the
6th IWCS Conference, pp.839-843, 2012
9. A. D. Yablon, “Optical Fiber Fusion Splicing”, Springer pp.40-42, 2005
10. G. Togan, et al., “Customer Premises Optical Connectivity Solutions”, FTTH Council Asia Pacific, p.8, 2016
1. Pre-connectorized cable assembly is preferable only for short distance.2. It is appropriate to cut and terminate on-site with the desired length of cable. 3. It is better to use fusion splice-on connector termination for repair, restoration and maintenance
1. The wrong choice of the termination method in FTTH network can cause the extra maintenance cost after installation which can be 2 to 3 times amount of cost compared to the initial installation cost.2. For the successful installation and maintenance, direct purchase of the proper products from Telcos should be a key point and they should distribute the products purchased directly to the installation team and construction/deployment companies, and supervise the installation method.
SummaryApplicationsConclusions
Data center and
transmission system
FTTH
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ILSINTECH 14
LC & SC Splice-on-Connector Products
Discover the difference,Unlike any other!
MPO SOC Ribbonizing Holder
MPO Splice-on-Connector Products
LC SOC SC SOC
Cost reduction and fast installation time
1) In short distance (1~50m), the pre-connectorized cable assemblies are recommended.2) The longer length of the cable assemblies are relatively expensive compared to the fusion
splice-on connector solution which allows on-site field termination with the desired length of cable and enables a fast installation to save time for relatively longer distance over 30 meters with narrow and limited space.
3) No additional storage required for cable slack and no splice tray required for protection of fusion splicing points.
Key points of Data Center Solution
Quality (25 year guarantee)
1) No scratches and no physical damage on fiber stripped by the built-in thermal stripper - Small scratches on fiber can cause critical crack or loss in fiber connection. For example, to guarantee service life, the submarine cable is stripped by the chemical stripping method to prevent scratches on the fiber during stripping. ILSINTECH thermal stripper is designed to satisfy this clean stripping.
2) Quality guaranteed for the fusion splice-on connector (MPO, LC, SC) ‒ Premium level of loss (IL: LC and SC, Typ. 0.15dB, Max. 0.3dB, RL: SM UPC ≥55dB, APC ≥ 65dB, MM ≥30dB / MPO Typ. 0.15dB, Max. 0.35dB, RL: MM ≥20dB, SM ≥60dB) and fusion splicing loss typ. 0.02dB
Data CenterSolution
01
Best options for repair, restoration and maintenance
1) Most of problems and defects for the cable assemblies come from the connectors.2) While the long length of pre-connectorized cable assembly is very high in manufacturing cost.
ILSINTECH’s fusion splice-on connectors enable to save cost and time by customizing the cable length on-site.
3) The fusion splice-on connectors provide solutions for easy replacement of the malfunctioned connectors, saving time and saving space due to eliminating cable slack. However, if replaced by new pre-connectorized cable assembly, it requires longer time in replacement and the space for the cable storage is required for cable slack.
Data CenterSolution
02
Data CenterSolution
03
Fusion Splice-on-connectors provide the best solutionfor installation, repair, and maintenance.
1. It’s less expensive to cut long cables in the field and splice them to FSOC2. Reduced the Installation cost 3. No extra cable remained4. FSOC connectivity complete without cable replacement in case of connector failure5. No Storage shelves required6. No Splice Trays required7. No scratches from heated stripping
Swift MPO Splice-on-Connectors provide high quality termination from Ribbon or Multi core fiber cable in the Data Center. Swift MPO Splice-on-Connectors are available with up to 12 fibers featuring OM1, OM2, OM3, OM4, OS1 and OS2 Fibers. Swift Ribbonizing Holder Uses For Multi Core Fiber Without Using Another Ribbonizer, Shortening Installation Time And Simplifying Installation Method.
Swift LC&SC Splice-on-Connectors provide high quality termination from the fiber optical cable in the Data Center. Swift LC&SC Splice-on-Connectors are available with up to duplex fibers featuring OM1, OM2, OM3, OM4, OS1 and OS2 Fibers.
A holder can have a termination after Ribbonizing fibers directly on the holder.By shortening the separate Ribbon-ize tool process, Completed work with fast fiber clustering time (Average 5-6 minutes) (PATENT PENDING)
MPO Splice-on-Connector Products LC&SC Splice-on-Connector Products
MPO Splice-on-Connector
Ribbonizing Holder Kit
MPO HolderRibbonizing Holder
Fusion Splicer SWIFT S5
SC Patch Cords SC Splice-on-Connector
SC SOC
LC SOC
- Remote Maintenance via Internet
- Integrated 7 Function in One Unit (Stripping, Cleaning, Cleaving, Splicing, Protecting, Power Meter and Visual Fault Locator-OPTION)
- No scratches on fiber by thermal stripping
- Compatible with Fusion Splice-On Connector(SOC) in accordance with the Telcordia Industrial Standard
- Electrode Life Up to 21,000
- Rotating Blade Life Up to 75,000
Fusion Splicer SWIFT KF4A- Remote Maintenance via Internet
- Integrated 5 Function in One Unit (Stripping, Cleaning, Cleaving, Splicing, Protecting)
- No scratches on fiber by thermal stripping
- 4.3-inch Color LCD Monitor with Touch Screen & Bidirectional Operation System
- Powerful Lithium Polymer Battery with Large Capacity
- Rotating Blade Life Up to 75,000
Ribbonizing Holder Kit MPO SOC FUSION SPLICER-Ribbon to Ribbon
Estimated connector loss: Connector loss (typ. 0.1dB) + Fusion splicing loss (typ. 0.02dB, max. 0.05dB)
End face of the pre-polished connector
Kevlar gripping part
Fusion splicing point
Splicing protection with heat shrinkable tube
Field fiber
Jacket Types ; R : 3.0mm Round B : Bare Ribbon Fiber S : Stub only Fiber Types ; M1 : OM1 M2 : OM2 M3 : OM3 M4 : OM4 S1 : OS1 S2 : OS2 SM : Specify the fiber types if required Polishing Types ; F : Flat Polishing A : Angled Polishing Connector Types ; P : Pin Type (Male) H : Hole Type (no Pins, Female) # of Fibers ; 08, 12
MPO/SOC 12PFM3R
Specifications
MPO(MM)
MPO(SM)
ConnectorTypes
Flat
APC
PolishingTypes
0.15
0.15
Typical Insertion Loss (dB)
0.35
0.35
Max. InsertionLoss (dB)
≥20
≥60
Return Loss(dB)
*
* Including Splice Loss
Estimated connector loss: Connector loss (typ. 0.1dB) + Fusion splicing loss (typ. 0.02dB)
End face of the pre-polished connector
Fusion splicing pointKevlar gripping part
Ferrule
Field fiberSplicing protection with heat shrinkable tube
Jacket Types ; 09 : 0.9mm 20 : 2.0mm Round Fiber Types ; M1 : OM1 M2 : OM2 M3 : OM3 M4 : OM4 S1 : OS1 S2 : OS2 SM: Specify the fiber types if required Polishing Types ; U : UPC A : APC Cable Types ; S : Simplex D : Duplex
LC/SOC SUM3-20
Connector Types ; LC:LC SC:SC
Specifications
LC(SM)
LC(MM)
ConnectorTypes
UPC/APC
UPC
PolishingTypes
0.15
0.15
Typical Insertion Loss (dB)
0.3
0.3
Max. InsertionLoss (dB)
≥55(UPC)≥65(APC)
Return Loss(dB)
Specifications
SC(SM)
SC(MM)
ConnectorTypes
UPC/APC
UPC
PolishingTypes
0.15
0.15
Typical Insertion Loss (dB)
0.3
0.3
Max. InsertionLoss (dB)
≥55(UPC)≥65(APC)
Return Loss(dB)
SC SOCLC SOC
End face of the pre-polished connector
Fusion splicing point
Cable clamping part
Splicing protection with heat shrinkable tube
Field fiber
Ferrule
Estimated connector loss: Connector loss (typ. 0.1dB) + Fusion splicing loss (typ. 0.02dB)
Data Center Cables Data Center Cables
Swift MPO Patch Cables provide high density connections in the Data Center. Swift MPO Patch Cables are available with up to 12 fibers. These Patch Cables offer low insertion loss and high return loss.
MPO Patch Cables
Swift SC Patch Cords provide high connections in the Data Center. Swift SC Patch Cords are available both simplex and duplex. These Patch Cords offer low insertion loss and high return loss.
Swift LC Patch Cords provide high connections in the Data Center. Swift LC Patch Cords are available both simplex and duplex. These Patch Cords offer low insertion loss and high return loss.
SC Patch Cords
Swift MPO Trunk fanout Cables provide high quality transitions from Multi core fiber cable to individual Single fiber connectors. Swift MPO Trunk fanout Cables are available with up to 12 fibers featuring SC, FC, ST and LC connectors. These fanout Cables offer low insertion loss and high return loss.
MPO Trunk Fanout Cables LC Patch Cords
1. MPO Connector2. MPO Connector Boot3. 3mm Multi Core Fiber Cord6. Breakout Module7. 2mm Furcation Tubes8. Number Label9. Discrete Connector10. Discrete Connector Boot
Length
Breakout
Specifications
MPO(MM)
MPO(SM)
LC(MM)
LC(MM)
ConnectorTypes
Flat
APC
UPC
UPC
PolishingTypes
0.10
0.10
0.10
0.10
Typical Insertion Loss (dB)
0.35
0.35
0.30
0.30
Max. InsertionLoss (dB)
≥20
≥60
≥30
LC(MM) APC 0.10 0.30 ≥65
≥55
Return Loss(dB)
Breakout Length : 0.5m~ Patch Cable Total Length : 3.0m (Minimum 1.0m) Jacket Types ; R : Riser P : Plenum Z : LSZH Fiber Types ; M1 : OM1 M2 : OM2 M3 : OM3 M4 : OM4 S1 : OS1 S2 : OS2 Polishing Types ; F : Flat Polishing A : Angled Polishing Connector Types ; P : Pin Type (Male) H : Hole Type (no Pins, Female) # of Fibers ; 08, 12 Polishing Type for Single Fiber Connector ; U : UPC, A : APC Connector Type for Single Fiber ; LC, SC, FC, ST
MPO/LCU 12PFM3R-30/05
Specifications
MPO(MM)
MPO(SM)
ConnectorTypes
Flat
APC
PolishingTypes
0.10
0.10
Typical Insertion Loss (dB)
0.35
0.35
Max. InsertionLoss (dB)
≥20
≥60
Return Loss(dB)
Patch Cable Total Length : 3.0m (minimum 1.0m) Jacket Types ; R : Riser P : Plenum Z : LSZH Fiber Types ; M1 : OM1 M2 : OM2 M3 : OM3 M4 : OM4 S1 : OS1 S2 : OS2 Polishing Types ; F : Flat Polishing A : Angled Polishing Connector Types ; P : Pin Type (Male) H : Hole Type (no Pins, Female) # of Fibers ; 08, 12
MPO 12PFM3R-30
Specifications
SC(SM)
SC(MM)
ConnectorTypes
UPC/APC
UPC
PolishingTypes
0.15
0.15
Typical Insertion Loss (dB)
0.3
0.3
Max. InsertionLoss (dB)
≥55(UPC)≥65(APC)
≥30
Return Loss(dB)
Jacket Types ; 09 : 0.9mm 20 : 2.0mm Round 30 : 3.0mm Round Fiber Types ; M1 : OM1 M2 : OM2 M3 : OM3 M4 : OM4 S1 : OS1 S2 : OS2 SM: Specify the fiber types if required Polishing Types ; U : UPC A : APC Cable Types ; S : Simplex D : Duplex
SC SUM3-20
Specifications
LC(SM)
LC(MM)
ConnectorTypes
UPC/APC
UPC
PolishingTypes
0.10
0.10
Typical Insertion Loss (dB)
0.3
0.3
Max. InsertionLoss (dB)
≥55(UPC)≥65(APC)
≥30
Return Loss(dB)
Jacket Types ; 09 : 0.9mm 20 : 2.0mm Round 30 : 3.0mm Round Fiber Types ; M1 : OM1 M2 : OM2 M3 : OM3 M4 : OM4 S1 : OS1 S2 : OS2 SM: Specify the fiber types if required Polishing Types ; U : UPC A : APC Cable Types ; S : Simplex D : Duplex
LC SUM3-20
Data Center ApplicationsMEMO
Data Hall
SC/SOC Termination
Patch Panel
Switches SwitchesMain Distribution Panels Main Distribution Panels
Entrance Room
No Storage shelves required
MPO PigtailMPO/SOC MPO Trunk
Fanout CablesMPO Trunk
Fanout Cables
MPO Patch Cables MPO Patch Cables
PULL
PULL
PULL
No splice trays required
No Storage shelves requiredNo splice trays required
Breakout Cable
Pre-connectorized cable assembly/Termination with FSOC The example of Fusion Splice-On Connector before and after application
Excess length of cable and slack storage required
No Excess length of cable and no slack storage required
Swift
Solu
tion
for F
TTH
Last
Mile
Con
nect
ivity
Th
e key
poi
nts o
f FTT
H im
plem
enta
tions
are n
ot o
nly 1
) dec
idin
g the
appr
opria
te te
rmin
atio
n m
etho
d w
ith th
e fus
ion
splic
e-on
conn
ecto
rs at
the
subs
crib
ers’
ends
but
also
2) u
sing t
he go
od-q
ualit
y opt
ical s
plitt
er.
Invi
sibl
e Fi
ber
Solu
tions
Feat
ures
- Per
fect
sol
utio
n fo
r the
exi
stin
g se
rvic
e pr
oble
ms
in L
ast M
ile- S
igni
fican
t red
uctio
n of
mai
nten
ance
exp
ense
s- P
rovi
ding
con
veni
ence
at t
elep
hone
pol
e or
man
hole
jobs
ite b
y al
l-in-
one
splic
er- E
asy
and
quic
k in
stal
latio
n- S
tripp
ing,
cle
anin
g, a
nd c
leav
ing
inte
grat
ed in
one
spl
icer
Offi
ce. (
+82)
42-
671-
5610
Fax
. (+8
2) 4
2-67
1-56
12
ILSI
NTE
CH
CO
., Lt
d
> Sw
ift So
lutio
n fo
r FTT
H La
st M
ile C
onne
ctiv
ity
OPT
ION
1Sp
litte
rFS
OC
(Fus
ion
Splic
e-O
n Co
nnec
tor)
Fusi
on S
plic
erDr
op ca
ble
SFF t
ype,
SC
conn
ecto
rized
PL
C Sp
litte
r SM
,SC,
2x3 D
ropC
able
Ha
rdbo
ot
SC Ty
pe,
2 por
ts av
aila
ble
SM,S
C,2x
3 Dr
opCa
ble
Hard
boot
SM,S
C,09
So
ftboo
tSM
,SC,
09
Softb
oot
0.9m
m In
visib
leOp
tical
Fibe
r in
ho
use
Pole
and
Wal
l Mou
ntab
le,
1x8 P
LC S
plitt
er an
d 8 d
rop
ports
OPT
ION
2Ae
rial C
losu
re1x
8 PLC
Spl
itter
s(2pc
s) an
d 16
dro
p po
rts.
KF4A
All-i
n-on
e Sys
tem
2x5m
m b
ow-ty
pe,
2x3m
m w
ithou
t mes
seng
er
wire
ON
TFS
OC
HTB
FSO
CFS
OC
Swift
Con
nect
ivity
Sol
utio
nO
utsi
de H
ouse
Insi
de H
ouse
Invi
sibl
eO
ptic
al F
iber
Vend
or p
rovid
ed O
NT
OTB
Opt
ical
Ter
min
al B
ox
OPT
ION
3Do
me
Clos
ure
The
key
poin
ts of
FTTH
impl
emen
tatio
ns a
re n
ot o
nly
1) d
ecid
ing
the
appr
opria
te
term
inat
ion
met
hod
with
the
fusio
n sp
lice-
on c
onne
ctor
s at t
he su
bscr
iber
s’ en
ds
but a
lso 2
) usin
g th
e go
od-q
uality
opt
ical
splitt
er.
Adva
ntag
es- S
uper
ior o
ptic
al, m
echa
nica
l and
env
ironm
enta
l per
form
ance
- Spl
icin
g po
int a
nd it
s pro
tect
ive
tube
loca
ted
insid
e th
e co
nnec
tor
- No
cabl
e sla
ck re
quire
d- S
trong
tens
ile (4
.5~6
.8kg
f) en
able
s out
door
dep
loym
ent
- Im
prov
emen
t of
qua
lity
and
relia
bilit
y re
duce
s m
aint
enan
ce c
ost
and
labo
r cos
t dra
mat
ical
ly- R
educ
tion
of in
stal
latio
n co
st- C
ompl
iant
with
Tel
cord
ia G
R-32
6-CO
RE
The
key
poin
ts o
f FTT
H im
plem
enta
tions
are
not
onl
y de
cidin
g th
e ap
prop
riate
term
inat
ion
met
hod
whi
ch sh
ould
be t
he fu
sion
splic
e-on
conn
ecto
rs at
the s
ubsc
riber
s’ en
ds b
ut al
so u
sing
the g
ood-
qual
ity o
ptica
l spl
itter
.
The
num
ber o
f pro
blem
s in
FTTH
is m
ostly
com
ing
from
the
conn
ectiv
ity in
dro
p ca
blin
g, a
nd
the
fusio
n sp
lice-
on c
onne
ctor
s can
be
the
mos
t rel
iabl
e so
lutio
n an
d cu
t dow
n th
e m
aint
e-na
nce c
ost d
ram
atica
lly.
1) T
he w
rong
choi
ce o
f ter
min
atio
n m
etho
ds in
FTTH
net
work
can
resu
lt in
extra
main
te-
nanc
e cos
t afte
r insta
llatio
n, w
hich
can
equa
l 2 to
3 tim
es in
itial
insta
llatio
n co
st.
2) Fo
r the
succ
essfu
l insta
llatio
n an
d m
ainte
nanc
e, di
rect
pur
chas
e of t
he p
rope
r pro
duct
s fro
m Te
lcos s
houl
d be
a ke
y poi
nt a
nd th
ey sh
ould
dist
ribut
e the
pro
duct
s pur
chas
ed
dire
ctly
to t
he i
nsta
llatio
n te
am a
nd c
onstr
uctio
n/de
ploy
men
t co
mpa
nies
, an
d su
perv
ise th
e ins
talla
tion
met
hod.
3) Th
e mos
t-like
ly fa
ilure
poi
nts i
n the
PLC
(Pla
nar L
ightw
ave C
ircui
t) ty
pe of
optic
al sp
litte
r co
uld b
e fibe
r misa
lignm
ent a
nd ch
ip bo
ndin
g are
as be
twee
n PLC
chip
and fi
ber a
rrays
, an
d th
ose
can
be p
artic
ular
ly vu
lner
able
to fa
ilure
dep
endi
ng o
n th
e qu
ality
of t
he
split
ter’s
asse
mbl
y pro
cess
and
coul
d lea
d to
failu
re o
f the
split
ter, w
hich
coul
d re
sult i
n ne
twor
k dow
ntim
e, tro
ubles
hoot
ing a
nd re
pair i
n 3 t
o 5 y
ears.
4) PL
C Sp
litter
plac
ed in
outd
oor e
nviro
nmen
t, ter
mina
l box
and c
losu
re m
ight b
e exp
osed
by
harsh
wea
ther
con
ditio
n lik
e a
tem
pera
ture
fluc
tuat
ion a
nd h
igh h
umid
ity. B
ecau
se o
f di
ffere
nt th
erm
al ex
pans
ion co
efficie
nt o
f eac
h m
ater
ial, b
ondi
ng su
rface
s bet
ween
chip
an
d fib
er a
rrays
tend
to b
e hig
hly
influe
nced
by
thos
e en
viron
men
t. Po
or a
dhes
ive
prop
ertie
s and
align
men
t tech
nolo
gy m
ay ca
use m
alfun
ction
to m
ultip
le su
bscr
iber
s.
The
key
poin
ts of
FTTH
impl
emen
tatio
ns
1FT
TH im
plem
enta
tions
2Fu
sion
Splic
e-O
n-C
onne
ctor
s
Key
Fea
ture
s- T
he fu
sion
splic
er w
ith A
ll-In
-One
TM s
yste
m p
rovid
es th
e be
st w
orka
bility
on
the
pole
and
also
in
the
limite
d w
ork
spac
e.- N
o sc
ratc
hes
on fi
ber b
y th
erm
al s
tripp
ing
High
qua
lity,
low
cos
t Fu
sion
Splic
e-on
Con
nect
or (
FSOC
) ha
s be
com
e th
e m
ost
relia
ble
solu
tion
to te
rmin
ate t
he fi
ber o
ut in
the fi
eld
for F
TTH
outs
ide p
lant
.Th
e FT
TH F
usio
n SO
C ha
s a
fact
ory
pre-
polis
hed
ferru
le a
nd it
requ
ires
no e
poxy
or n
o fie
ld
polis
hing
. And
the F
TTH
Fusio
n SO
C ut
ilizes
Sw
ift se
ries o
f the
fusio
n sp
licer
s,su
ch a
s F1
, KF
4A a
nd S
5 to
ter
min
ate
conn
ecto
r, an
d it
is co
mpl
iant
with
Tel
cord
ia
GR-3
26-C
ORE.
SC,
LC, F
C an
d ST
conn
ecto
rs ar
e ava
ilabl
e for
APC
and
UPC
appl
icatio
ns.
Swift
KF4
A is
the
high
ly ad
vanc
ed a
nd p
recis
e AC
TIVE
clad
ding
alig
nmen
t fus
ion
splic
er, w
hich
is
desig
ned
to p
erfo
rm 5
maj
or m
ultif
unct
iona
l fea
ture
s in
a ro
w : s
tripp
ing,
clea
ning
, cle
avin
g,
splic
ing
and
sleev
ing.
(ALL
INON
E) T
he S
wift
KF4
A is
the
best
fit f
or fu
sion
splic
ing
and
fusio
n Sp
lice-
On C
onne
ctor
(SOC
) of F
TTx
netw
ork
appl
icatio
ns, w
hich
elim
inat
es e
xistin
g pr
oble
ms
with
con
vent
iona
l mec
hani
cal c
onne
ctor
s.(lo
w q
ualit
y, lo
w d
urab
ility
and
high
mai
nten
ance
co
st)
FSO
C (F
usio
n Sp
lice-
On
Con
nect
or)
Fusio
n Sp
licer
Hea
t Shr
inka
ble
Slee
ve
Plug
Fra
meFe
rrule
Bus
h
Dro
p C
able
Boot
Sprin
g
Hou
sing
Ferru
le
Splic
e po
int Sp
ecifi
catio
ns
SC(S
M)
S C
(MM
)
Con
nect
orTy
pes
UPC
/APC
UPC
Polis
hing
Type
s
0.15
0.15
Typi
cal I
nser
tion
Loss
(dB)
0.3
0.3
Max
. Ins
ertio
nLo
ss (d
B)
≥55(
UPC
)≥6
5(AP
C)
≥30
Ret
urn
Loss
(dB)
Spec
ifica
tions
LC(S
M)
LC(M
M)
Con
nect
orTy
pes
UPC
/APC
UPC
Polis
hing
Type
s
0.15
0.15
Typi
cal I
nser
tion
Loss
(dB)
0.3
0.3
Max
. Ins
ertio
nLo
ss (d
B)
≥55(
UPC
)≥6
5(AP
C)
≥30
Ret
urn
Loss
(dB)
Spec
ifica
tions
FC(S
M)
FC(M
M)
Con
nect
orTy
pes
UPC
/APC
UPC
Polis
hing
Type
s
0.15
0.15
Typi
cal I
nser
tion
Loss
(dB)
0.3
0.3
Max
. Ins
ertio
nLo
ss (d
B)
≥55(
UPC
)≥6
5(AP
C)
≥30
Ret
urn
Loss
(dB)
Spec
ifica
tions
ST(S
M)
ST(M
M)
Con
nect
orTy
pes
UPC
/APC
UPC
Polis
hing
Type
s
0.15
0.15
Typi
cal I
nser
tion
Loss
(dB)
0.3
0.3
Max
. Ins
ertio
nLo
ss (d
B)
≥55(
UPC
)≥6
5(AP
C)
≥30
Ret
urn
Loss
(dB)
CAT
EGO
RY
Fibe
r alig
nmen
t
Appl
icabl
e ty
pe o
f fib
ers
Fibe
r cou
nt
Fibe
r set
ting
and
cleav
ed le
ngth
Splic
ing
mod
es
Typi
cal s
plice
Los
s
IPAA
S C
lad
to C
lad
Alig
nmen
t
0.25
mm
, 0.9
mm
, 2.0
mm
, 3.0
mm
Indo
or c
able
Sing
le fi
ber
5mm
to 1
6mm
Splic
e m
ode:
300
, Hea
t mod
e: 1
00
SM: 0
.02d
B, M
M: 0
.01d
B, D
S:0.
04dB
, NZD
S: 0
.04d
B
Ret
urn
loss
> 60
dB
DES
CR
IPTI
ON
Splic
ing
time
Slee
ve h
eatin
g tim
e
Dim
ensio
n
Wei
ght
View
ing
met
hod
and
disp
lay
No.
of s
plice
/hea
ting
per b
atte
ry fu
ll cha
rge
Elec
trode
life
Blad
e life
Typi
cal 7
sec
with
SM
Typi
cal 1
3sec
with
IS-6
0 m
ode,
IS-6
0 sle
eve
132(
W) x
212
(L) x
73(
H)m
m (W
ithou
t rub
ber p
rote
ctor
)
1.5k
g(In
cludi
ng b
atte
ry)
2 AX
IS T
wo
CM
OS
cam
eras
with
4.3
-inch
col
or L
CD
mon
itor
Typi
cal 2
00 c
ycle
s
21,0
00 s
plice
s
75,0
00
SFF
type
, SC
con
nect
oriz
ed P
LC S
plitt
er
Swift
1xN
Pla
nar
Split
ters
hav
e hi
gh p
erfo
rman
ce w
ith v
ery
low
inse
rtion
los
s, ex
celle
nt
unifo
rmity
, low
PDL
, and
flat
wav
elen
gth
oper
atio
n (1
260~
1650
nm).
The
Split
ters
are
pig
taile
d w
ith s
ingl
e m
ode
fiber
s an
d co
mpa
ct p
acka
ge. T
he S
plitt
ers
are
avai
labl
e in
4, 8
, 16
and
32
chan
nel c
onfig
urat
ion,
with
conn
ecto
r typ
e ope
n to
custo
miza
tion.
Opt
ical
Spl
itter
Pole
and
Wal
l Mou
ntab
le, 1
x8 P
LC S
plitt
er a
nd 8
dro
p po
rts
Key
Fea
ture
s- 3
por
ts fo
r dist
ribut
ion
cabl
e an
d 8
ports
for d
rop
cabl
e- 1
x4 ~
1x8
PLC
spl
itter
(2x4
~ 2
x8) c
an b
e in
stal
led
insid
e- W
all/P
ole
mou
ntab
le b
ox- U
V pr
oof,
Wat
er p
roof
, Dur
able
at o
utdo
or e
xpos
ure
- Stra
ight
, bra
nch
and
mid
-spa
n jo
int a
vaila
ble
- Enc
losu
re b
ox fo
r spl
ice, s
plitt
er a
nd c
onne
ctor
- Com
pact
in d
esig
n, lig
ht w
eigh
t
The
Optic
al T
erm
inal
Box
is a
pol
e an
d w
all m
ount
able
term
inal
box
. It i
s des
igne
d fo
r use
in
resid
entia
l and
for f
ast d
eplo
ymen
t and
pro
vidin
g eas
y con
nect
ivity
to th
e sub
scrib
ers.
The b
ox
cont
ains
fibe
r spl
ices a
nd st
ores
buff
er tu
be o
r rib
bon
fiber
, and
acc
omm
odat
es 1
x4, 1
x8 P
LC
split
ter a
nd 4
to 8
drop
cabl
es.
OTB
(Opt
ical
Term
inal
Box
)
Key
Fea
ture
s- V
ery
low
inse
rtion
loss
- Bro
adba
nd o
pera
tion
- Low
PD
L- E
xcel
lent
Uni
form
ity- C
ompa
ct P
acka
ge- G
reat
opt
ical p
erfo
rman
ce in
har
sh(o
utdo
or) e
nviro
nmen
ts
App
licat
ions
- FTT
x-PO
N- C
ATV
- Low
cos
t com
bine
r for
CW
DM
1X2
1X8
The
Optic
al A
eria
l Clo
sure
is a
clo
sure
dev
ice th
at is
equ
ippe
d w
ith a
n op
tical
ter
min
atio
n as
a c
onne
ctio
n po
int
betw
een
optic
al d
istrib
utio
n ca
ble
and
the
optic
al d
rop
cabl
e. I
t is
desig
ned
for t
he a
eria
l fibe
r acc
ess n
etw
ork,
esp
ecia
lly F
TTH.
Th
is ae
rial c
losu
re c
onsis
ts o
f tw
o se
para
te ro
oms:a
dist
ribu-
tion
cabl
e spl
ice ro
om an
d a d
rop
term
inat
ion
room
. Th
e di
strib
utio
n ca
ble
goes
into
cab
le s
plice
room
to s
plice
fib
ers
whe
re b
uffer
tube
or r
ibbo
n fib
er s
lack
con
tain
ed. T
he
drop
term
inat
ion
room
acco
mm
odat
es 1x
8 spl
itter
and
16 d
rop
cabl
es
Aeria
l Clo
sure
Pole
Mou
ntab
le, 1
x8 P
LC S
plitt
er a
nd 1
6 dr
op p
orts
- 4 p
orts
for d
istrib
utio
n ca
ble
and
16 p
orts
for d
rop
cabl
e- 2
pcs
1x8
PLC
spl
itter
can
be
inst
alle
d in
side
- In-
line
Aeria
l clo
sure
for o
utdo
or u
se- U
V pr
oof,
Wat
er p
roof
, Dur
able
at o
utdo
or e
xpos
ure
- Acc
omm
odat
ion
for s
plice
, spl
itter
and
con
nect
or- C
ompa
ct in
des
ign,
light
wei
ght
- M
id-s
pan
acce
ss a
vaila
ble
in a
ny lo
catio
ns o
n th
e di
strib
utio
n ca
ble,
suc
h as
SC
PT (
Sing
le C
ore
Per T
ube)
cab
le, a
nd it
can
re
duce
the
inst
alla
tion
time
and
rem
ove
fixed
loop
s w
ith c
able
sla
ck a
nd e
nabl
e sp
licin
g se
lect
fib
ers
with
out
inte
rrupt
ing
the
serv
ices
prov
ided
by
unin
volve
d fib
ers.
Key
Fea
ture
s
Dom
e C
losu
reFi
ber O
ptic
Clos
ures
, CL5
00H
Serie
s de
signe
d fo
r ope
ratio
nal
efficie
ncy
and
scal
abilit
y ar
e in
frast
ruct
ure
solu
tions
for F
TTx
netw
orks
. Th
e clo
sure
sim
plifi
es F
TTx
netw
ork
insta
llatio
n,
mai
nten
ance
and
man
agem
ent f
rom
cent
ral o
ffice
to th
e ea
ch
outs
ide p
lant
s. C
L500
H Se
ries
prov
ide
for c
onne
ctio
ns b
etw
een
fiber
opt
ic ca
bles
and
pas
sive
optic
al s
plitt
ers
in th
e ou
tsid
e pl
ant.
The
closu
re p
rote
cts fi
ber o
ptic
splic
ing
poin
t and
can
be m
ount
ed
to su
ppor
t aer
ial a
nd b
urie
d an
d un
derg
roun
d ap
plica
tions
. C
L500
H Se
ries
have
hig
h m
echa
nica
l stre
ngth
aga
inst
any
en
viron
men
tal c
ondi
tions
and
allo
w ra
pid
netw
ork i
nsta
llatio
n.
Key
Fea
ture
s- B
utt s
plice
con
figur
atio
n- C
ompa
ct in
des
ign
and
light
wei
ght
- Aer
ial,
unde
rgro
und
and
dire
ct b
urie
d ap
plica
tions
- App
licab
le fo
r mul
ti br
anch
ing
inst
alla
tion
- Rob
ust a
nd ri
gid
with
a h
igh
stre
ngth
she
ll- E
xcel
lent
dur
abilit
y an
d lo
ng te
rm re
liabi
lity- H
igh
mec
hani
cal s
treng
th a
gain
st a
ny e
nviro
nmen
tal c
ondi
tions
- Com
plia
nt w
ith T
elco
rdia
GR
-771
-CO
RE
Invi
sible
Fibe
r Sol
utio
nsIn
visib
le in
stalla
tion
of H
ome D
rop
Solu
tion
prov
ides
faste
r and
vir
tual
ly in
visib
le 90
0um
Dro
p Fi
ber w
ith U
-BIF
(G.6
57B3
).Th
e In
visib
le D
rop
Fibe
r is e
asy t
o in
stall o
nto
a va
riety
of w
alls
by u
sing s
impl
ified
fibe
r clip
s. Th
e Ho
me
Term
inat
ion
Box
(HTB
) is
desig
ned
for
FTTH
to
term
inat
e the
dro
p ca
ble a
nd co
nnec
t the
ONT
with
the o
ptica
l pa
tch
cord
. It h
as p
rovis
ion
to im
plem
ent fi
ber s
plici
ng, p
rote
ct
fiber
from
the b
endi
ng an
d pr
ovid
e opt
ical p
orts
for c
onne
ctin
g su
bscr
iber
. The
HTB
is u
sual
ly m
ount
ed o
n th
e w
all i
n th
e su
bscr
iber
s’ ho
use.
The
box
allo
ws
2 in
com
ing
cabl
es a
nd 2
co
nnec
tor p
orts
for t
he fi
ber o
ptic
adap
ter.
Key
Fea
ture
s- V
irtua
lly in
visib
le in
stal
latio
n- E
asily
inst
alla
tion
onto
a v
arie
ty o
f wal
ls- F
ast i
nsta
llatio
n- C
ost-e
ffect
ive- E
co-fr
iend
ly
※Th
e fib
er c
lip c
an b
e se
para
ted
for i
ndivi
dual
use
HTB
(Hom
e Te
rmin
atio
n Bo
x)SC
Typ
e, 2
por
ts a
vaila
ble
Para
met
erIn
serti
on lo
ss(T
yp.)
(1,2
,3)
Inse
rtion
loss
(max
) (1,2
,3)
Loss
uni
form
ity(m
ax) (1
,3,4
)
PDL(
max
) (1)
WD
L(m
ax)
TDL(
max
)
3.6d
B
3.8d
B
0.6d
B
0.15
dB
0.5d
B
0.3d
B
Ret
urn
loss
(min
) (1,3
)
Dire
ctivi
ty(m
in) (1
,3)
Ope
ratin
g W
avel
engt
h
Inpu
t Pow
er(m
ax)
55.0
dB
55.0
dB
1260
~165
0nm
300m
W
1X2
6.8d
B
7.2d
B
0.5d
B
0.2d
B
0.5d
B
0.3d
B
1X4
9.8d
B
10.3
dB
1.0d
B
0.25
dB
0.5d
B
0.3d
B
1X8
13.0
dB
13.5
dB
1.3d
B
0.25
dB
0.5d
B
0.5d
B
1X16
16.5
dB
16.8
dB
1.5
dB
0.3d
B
0.5d
B
0.5d
B
1X32
19.8
dB
20.2
dB
1.9d
B
0.3d
B
0.5d
B
0.5d
B
1X64
(1) M
easu
red
at ro
om te
mpe
ratu
re, a
nd w
avel
engt
h of
1.3
1 &
1.55
μm.
(2) C
oupl
ing
loss
es a
t the
inte
rface
s be
twee
n th
e sp
litter
chi
p an
d I/O
fibe
rs a
re in
clude
d.(3
) Con
nect
or lo
ss is
exc
lude
d.(4
) See
App
endi
x A fo
r det
ails.
MEMO MEMO