This document discusses using an optical time domain reflectometer (OTDR) to troubleshoot point-to-multipoint fiber-to-the-home (FTTH) networks, also known as passive optical networks (PONs). It outlines three common troubleshooting scenarios for PONs: 1) a single customer is affected, 2) all customers connected to the same splitter are affected, and 3) all customers on the network are affected. It provides guidance on selecting the appropriate OTDR test location, direction, pulse width, and specific in-service OTDR device needed to efficiently troubleshoot each scenario while minimizing network outages.
In this paper, we delve into the basics of existing monitoring technology and discuss an interesting in-service real-time monitoring solution that provides instantaneous root cause of
the fault without any influence on data traffic. Furthermore, applications of this novel technology are also illustrated.
In this paper, we delve into the basics of existing monitoring technology and discuss an interesting in-service real-time monitoring solution that provides instantaneous root cause of
the fault without any influence on data traffic. Furthermore, applications of this novel technology are also illustrated.
How to Use the DTX-EFM2 Fiber Modules to Test Installed Corning Multimode Pre...Fluke Networks
The Corning Pretium EDGE® Tap Module allows passive tapping into optical networks for monitoring purposes. The modules contain splitters that divide each optical signal into two
outputs, one for network link traffic and one for monitoring.
Installation and Maintenance of PON Services. PON Network Overview
o FTTH Architecture, Standards, and Wavelength allocations
o PON Lifecycle
o Responsibilities
• FTTH Installation Testing
o Recommended procedure
o Potential issues during Service Activation
• Difference between aerial and burial deployments
• Cause of high loss
o Drop fiber verification
o Achieving and Validating QoE
• Pass/Fail Thresholds and Standards
• Expectations when turning up different networks
• Streamline Result Transfer
o FLOW/NO App
How to Use the DTX-MFM2 Fiber Modules to Test Installed Corning Multimode Pre...Fluke Networks
The Corning Pretium EDGE® Tap Module allows passive tapping into optical networks for monitoring purposes. The modules contain splitters that divide each optical signal into two
outputs, one for network link traffic and one for monitoring.
Benefits of fiber optic and passive optical lan testsmithponting
Passive optical LANs are a point-to-multipoint fiber architecture that use passive optical splitters to divide the signal from one singlemode fiber into multiple fiber signals. The signals are transmitted simultaneously in both directions over separate wavelengths using wavelength division multiplexing (WDM) technology—1310nm for upstream data and 1490nm for downstream data.
As the use of fiber in premise networks continues to grow, so do the requirements for testing and certifying it. An optical time-domain reflectometer (OTDR) is an electronic-optical instrument used to characterize optical fibers. It locates defects and faults, and determines the amount of signal loss at any point in an optical fiber. This article describes how an OTDR works and the key specifications that should be considered when choosing an OTDR.
These are sample slides taken from my 4 days long "GPON-FTTx" training course. This course has over 380 slides and it is a great source of learning about various topics related to GPON & FTTx. There are tons of exercises and real-world examples provided in teaching material.
How to Use the DTX-EFM2 Fiber Modules to Test Installed Corning Multimode Pre...Fluke Networks
The Corning Pretium EDGE® Tap Module allows passive tapping into optical networks for monitoring purposes. The modules contain splitters that divide each optical signal into two
outputs, one for network link traffic and one for monitoring.
Installation and Maintenance of PON Services. PON Network Overview
o FTTH Architecture, Standards, and Wavelength allocations
o PON Lifecycle
o Responsibilities
• FTTH Installation Testing
o Recommended procedure
o Potential issues during Service Activation
• Difference between aerial and burial deployments
• Cause of high loss
o Drop fiber verification
o Achieving and Validating QoE
• Pass/Fail Thresholds and Standards
• Expectations when turning up different networks
• Streamline Result Transfer
o FLOW/NO App
How to Use the DTX-MFM2 Fiber Modules to Test Installed Corning Multimode Pre...Fluke Networks
The Corning Pretium EDGE® Tap Module allows passive tapping into optical networks for monitoring purposes. The modules contain splitters that divide each optical signal into two
outputs, one for network link traffic and one for monitoring.
Benefits of fiber optic and passive optical lan testsmithponting
Passive optical LANs are a point-to-multipoint fiber architecture that use passive optical splitters to divide the signal from one singlemode fiber into multiple fiber signals. The signals are transmitted simultaneously in both directions over separate wavelengths using wavelength division multiplexing (WDM) technology—1310nm for upstream data and 1490nm for downstream data.
As the use of fiber in premise networks continues to grow, so do the requirements for testing and certifying it. An optical time-domain reflectometer (OTDR) is an electronic-optical instrument used to characterize optical fibers. It locates defects and faults, and determines the amount of signal loss at any point in an optical fiber. This article describes how an OTDR works and the key specifications that should be considered when choosing an OTDR.
These are sample slides taken from my 4 days long "GPON-FTTx" training course. This course has over 380 slides and it is a great source of learning about various topics related to GPON & FTTx. There are tons of exercises and real-world examples provided in teaching material.
Neuro-symbolic is not enough, we need neuro-*semantic*Frank van Harmelen
Neuro-symbolic (NeSy) AI is on the rise. However, simply machine learning on just any symbolic structure is not sufficient to really harvest the gains of NeSy. These will only be gained when the symbolic structures have an actual semantics. I give an operational definition of semantics as “predictable inference”.
All of this illustrated with link prediction over knowledge graphs, but the argument is general.
GDG Cloud Southlake #33: Boule & Rebala: Effective AppSec in SDLC using Deplo...James Anderson
Effective Application Security in Software Delivery lifecycle using Deployment Firewall and DBOM
The modern software delivery process (or the CI/CD process) includes many tools, distributed teams, open-source code, and cloud platforms. Constant focus on speed to release software to market, along with the traditional slow and manual security checks has caused gaps in continuous security as an important piece in the software supply chain. Today organizations feel more susceptible to external and internal cyber threats due to the vast attack surface in their applications supply chain and the lack of end-to-end governance and risk management.
The software team must secure its software delivery process to avoid vulnerability and security breaches. This needs to be achieved with existing tool chains and without extensive rework of the delivery processes. This talk will present strategies and techniques for providing visibility into the true risk of the existing vulnerabilities, preventing the introduction of security issues in the software, resolving vulnerabilities in production environments quickly, and capturing the deployment bill of materials (DBOM).
Speakers:
Bob Boule
Robert Boule is a technology enthusiast with PASSION for technology and making things work along with a knack for helping others understand how things work. He comes with around 20 years of solution engineering experience in application security, software continuous delivery, and SaaS platforms. He is known for his dynamic presentations in CI/CD and application security integrated in software delivery lifecycle.
Gopinath Rebala
Gopinath Rebala is the CTO of OpsMx, where he has overall responsibility for the machine learning and data processing architectures for Secure Software Delivery. Gopi also has a strong connection with our customers, leading design and architecture for strategic implementations. Gopi is a frequent speaker and well-known leader in continuous delivery and integrating security into software delivery.
GraphRAG is All You need? LLM & Knowledge GraphGuy Korland
Guy Korland, CEO and Co-founder of FalkorDB, will review two articles on the integration of language models with knowledge graphs.
1. Unifying Large Language Models and Knowledge Graphs: A Roadmap.
https://arxiv.org/abs/2306.08302
2. Microsoft Research's GraphRAG paper and a review paper on various uses of knowledge graphs:
https://www.microsoft.com/en-us/research/blog/graphrag-unlocking-llm-discovery-on-narrative-private-data/
Key Trends Shaping the Future of Infrastructure.pdfCheryl Hung
Keynote at DIGIT West Expo, Glasgow on 29 May 2024.
Cheryl Hung, ochery.com
Sr Director, Infrastructure Ecosystem, Arm.
The key trends across hardware, cloud and open-source; exploring how these areas are likely to mature and develop over the short and long-term, and then considering how organisations can position themselves to adapt and thrive.
Epistemic Interaction - tuning interfaces to provide information for AI supportAlan Dix
Paper presented at SYNERGY workshop at AVI 2024, Genoa, Italy. 3rd June 2024
https://alandix.com/academic/papers/synergy2024-epistemic/
As machine learning integrates deeper into human-computer interactions, the concept of epistemic interaction emerges, aiming to refine these interactions to enhance system adaptability. This approach encourages minor, intentional adjustments in user behaviour to enrich the data available for system learning. This paper introduces epistemic interaction within the context of human-system communication, illustrating how deliberate interaction design can improve system understanding and adaptation. Through concrete examples, we demonstrate the potential of epistemic interaction to significantly advance human-computer interaction by leveraging intuitive human communication strategies to inform system design and functionality, offering a novel pathway for enriching user-system engagements.
PHP Frameworks: I want to break free (IPC Berlin 2024)Ralf Eggert
In this presentation, we examine the challenges and limitations of relying too heavily on PHP frameworks in web development. We discuss the history of PHP and its frameworks to understand how this dependence has evolved. The focus will be on providing concrete tips and strategies to reduce reliance on these frameworks, based on real-world examples and practical considerations. The goal is to equip developers with the skills and knowledge to create more flexible and future-proof web applications. We'll explore the importance of maintaining autonomy in a rapidly changing tech landscape and how to make informed decisions in PHP development.
This talk is aimed at encouraging a more independent approach to using PHP frameworks, moving towards a more flexible and future-proof approach to PHP development.
Transcript: Selling digital books in 2024: Insights from industry leaders - T...BookNet Canada
The publishing industry has been selling digital audiobooks and ebooks for over a decade and has found its groove. What’s changed? What has stayed the same? Where do we go from here? Join a group of leading sales peers from across the industry for a conversation about the lessons learned since the popularization of digital books, best practices, digital book supply chain management, and more.
Link to video recording: https://bnctechforum.ca/sessions/selling-digital-books-in-2024-insights-from-industry-leaders/
Presented by BookNet Canada on May 28, 2024, with support from the Department of Canadian Heritage.
Builder.ai Founder Sachin Dev Duggal's Strategic Approach to Create an Innova...Ramesh Iyer
In today's fast-changing business world, Companies that adapt and embrace new ideas often need help to keep up with the competition. However, fostering a culture of innovation takes much work. It takes vision, leadership and willingness to take risks in the right proportion. Sachin Dev Duggal, co-founder of Builder.ai, has perfected the art of this balance, creating a company culture where creativity and growth are nurtured at each stage.
Connector Corner: Automate dynamic content and events by pushing a buttonDianaGray10
Here is something new! In our next Connector Corner webinar, we will demonstrate how you can use a single workflow to:
Create a campaign using Mailchimp with merge tags/fields
Send an interactive Slack channel message (using buttons)
Have the message received by managers and peers along with a test email for review
But there’s more:
In a second workflow supporting the same use case, you’ll see:
Your campaign sent to target colleagues for approval
If the “Approve” button is clicked, a Jira/Zendesk ticket is created for the marketing design team
But—if the “Reject” button is pushed, colleagues will be alerted via Slack message
Join us to learn more about this new, human-in-the-loop capability, brought to you by Integration Service connectors.
And...
Speakers:
Akshay Agnihotri, Product Manager
Charlie Greenberg, Host
Let's dive deeper into the world of ODC! Ricardo Alves (OutSystems) will join us to tell all about the new Data Fabric. After that, Sezen de Bruijn (OutSystems) will get into the details on how to best design a sturdy architecture within ODC.
1. Application Note
WEBSITE: www.jdsu.com/test
CO
ONT 1
Coaxial cable
Final
customer
1
ONT 1
ONT 1
ONT 1
Coaxial cable
Final
customer
1
ONT 2
Final
customer
2
Coaxial cable
ONT 2
ONT 2
ONT 2
Final
customer
2
Coaxial cable
ONT 3
Coaxial cable
Final
customer
3
ONT 3
ONT 3
ONT 3
Coaxial cable
Final
customer
3
Splitter
OLT
ONT or ONU
OLT
ONT or ONU
ONT 1
Coaxial cable
Final
customer
1
ONT 1
ONT 1
ONT 1
Coaxial cable
Final
customer
1
ONT 2
Final
customer
2
Coaxial cable
ONT 2
ONT 2
ONT 2
Final
customer
2
Coaxial cable
ONT 3
Coaxial cable
Final
customer
3
ONT 3
ONT 3
ONT 3
Coaxial cable
Final
customer
3
Splitter
CO
Maintenance & Troubleshooting of a PON Network with an OTDR
Point-to-Point FTTx Network
When a failure occurs on a point-to-point FTTx network, the network completely shuts down. It is then
easytodisconnectthefiberwithoutfurtheraffectingthecustomerissue.
To troubleshoot and fix FTTx network problems, an optical time domain reflectometry (OTDR) test can
beperformedwithanytestwavelength,suchas1310or1550nmasthetransmissionsignalsareshutdown.
ONT 1
Coaxial cable
Final
customer
1
ONT 1
ONT 1
ONT 1
Coaxial cable
Final
customer
1
Switch or
OLT
ONT or DSLAM
CO
Figure1.FTTxCase=Point-to-PointFTTHNetwork
Figure2.SimplePONNetworkTopology Figure3.CascadedPONTopology
Point-to-Multipoint FTTH Network (PON) Topology
Troubleshooting a point-to-multipoint fiber-to-the-home (FTTH) network (also defined as a PON net-
work)differssignificantly.
The International Telecommunications Union (ITU-T) and Institute of Electrical and Electronic
Engineers (IEEE) have created several standards for optical access systems based on PON architecture
(G.982, G.983 or G.984 for ITU and 802.3ah or 802.3av for IEEE). As Figure 2 shows, a PON network
consists of one optical line terminal (OLT) connected via a splitter to multiple optical network terminals
(ONTs) (one for each subscriber, up to 64 subscribers). Sometimes, a second splitter can be connected in
cascadetothefirstsplitter(asFigure3shows)todispatchservicestobuildingsorresidentialareas.
Troubleshooting a faulty passive optical point-to-multipoint network (PON) can be more complex than
a point-to-point network. This application note looks at the use of non-intrusive or active fiber testing for
troubleshootingPONnetworks.
2. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 2
Using the network monitoring system at the Network Operation Center (NOC), operators can easily
determine which subscribers are affected. They can also identify possible fault elements such as how many
customersareaffectedandwhetherthePONiscascaded.
Thecasesbelowdescribeeachpossiblescenario:
PONCase1:SimplePON-OnlyOneCustomerisAffected
Whenonlyonesubscribercannotreceiveservice,threepotentialfaultsareprobable,seeFigure4:
‒ Faultinthedistributionfiberbetweenthecustomerandtheclosestsplitter
‒ FaultintheONTequipment
‒ Faultinthecustomer’shomewiring
Figure4.PONCase1—PossibleFaultsWhenOnlyOneSubscriberisAffected
PONCase2:CascadedPONandallAffectedCustomersareConnectedtotheSameSplitter
When all customers connected to the same splitter cannot receive service, but others connected to the
sameOLTcan,thecausemaybebecauseofoneofthefollowing(seeFigure5):
‒ Faultatthelastsplitter
‒ Faultinthefiberlinkbetweenthecascadedsplitters
Figure5.PONCase2—CascadedPONwithAffectedSubscribersConnectedtoLastSplitter
ONT 1
Coaxial cable
Final
customer
1
ONT 1
ONT 1
ONT 1
Coaxial cable
Final
customer
1
ONT 2
Final
customer
2
Coaxial cable
ONT 2
ONT 2
ONT 2
Final
customer
2
Coaxial cable
ONT 3
Coaxial cable
Final
customer
3
ONT 3
ONT 3
ONT 3
Coaxial cable
Final
customer
3
Case 1.A - Simple PON - Only one customer affected
Splitter
1
2
3
OLT
ONT or ONU
ONT 1
Coaxial cable
Final
customer
1
ONT 1
ONT 1
ONT 1
Coaxial cable
Final
customer
1
ONT 2
Final
customer
2
Coaxial cable
ONT 2
ONT 2
ONT 2
Final
customer
2
Coaxial cable
ONT 3
Coaxial cable
Final
customer
3
ONT 3
ONT 3
ONT 3
Coaxial cable
Final
customer
3
First splitter
Last splitter
1 2
3
OLT
ONT or ONU
ONT 1
Coaxial cable
Final
customer
1
ONT 1
ONT 1
ONT 1
Coaxial cable
Final
customer
1
ONT 2
Final
customer
2
Coaxial cable
ONT 2
ONT 2
ONT 2
Final
customer
2
Coaxial cable
ONT 3
Coaxial cable
Final
customer
3
ONT 3
ONT 3
ONT 3
Coaxial cable
Final
customer
3
First splitter
Case 2 Cascaded PON
Last splitter
1
2
OLT
ONT or ONU
3. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 3
PONCase3:AllCustomersareAffected(attheOLTlevel)
Whether or not the PON is cascaded, all customers dependant on the same OLT may be affected. If all cus-
tomersareaffected,thecausemaybefromofthefollowing:
‒ FaultinthesplitterclosesttotheOLT
‒ Faultinthefeederfiber/cableofthefibernetwork
‒ FaultintheOLTequipment
Figure6.PONCase3—AllSubscribersareAffected(AllConnectedtotheFirstSplitter)
Other Variable: Splices or Connectors at Strategic Places
If connectors are available at the splitters, terminals, or drops, isolating part of the faulty network easier.
Inspecting connectors and taking OTDR measurements using 1310/1550 nm wavelengths are often per-
formedonnetworksectionsthatareoutofservice.
In-service testing (test on a network carrying traffic) is needed mostly when the entire network is spliced
andwhensomebutnotallcustomersareaffected.
Constraints of In-service Testing Measurements
InordertotroubleshootPONnetworksinservice,twodedicatedtoolsareavailable:
-PONpowermeter
-In-service1625or1650nmOTDR
Traffic wavelengths are typically 1310/1490 or 1310/1490/1550 nm. A PON power meter is normally
employed to verify that the signal is transmitted correctly to and from the ONT. A PON meter measures
the power levels of all the signals and can then discriminate whether the issue comes from the customer’s
ONTorfromthenetwork.
The use of a classical OTDR with 1310 or 1550 nm test wavelengths would interfere with the traffic signals
and disturb the traffic. At the same time, the traffic signals could also disturb the receiver of the OTDR,
making it difficult to interpret OTDR traces. Because of these mutual disturbances, classical OTDRs
cannot be used, and specific in-service OTDRs are required (see section on Specific In-service Portable
OTDR Device).
ONT 1
Coaxial cable
Final
customer
1
ONT 1
ONT 1
ONT 1
Coaxial cable
Final
customer
1
ONT 2
Final
customer
2
Coaxial cable
ONT 2
ONT 2
ONT 2
Final
customer
2
Coaxial cable
ONT 3
Coaxial cable
Final
customer
3
ONT 3
ONT 3
ONT 3
Coaxial cable
Final
customer
3
First splitter
1
2
3
OLT
ONT or ONU
4. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 4
Recommended Steps for Locating Faults
Despite the fact companies with diverse fiber networks have their own methods and procedures, most of
themoptimizetheirfaultlocationprocesstoreducethenumberoftruckrolls.
TheschematicinFigure7offersacompleteviewof:
‒ Allofthepossiblefaultlocations,dependingonhowmanycustomersareaffected
‒ ThebestlocationtoshootanOTDRwhileminimizingtruckrolls
‒ Whetherornotaspecificin-serviceOTDRdeviceshouldbeused
Figure7.SchematicSummary
- The OLT
- The distribution fiber
- The ONT
- The customer home wiring
PONNetwork
(Multi-Point FTTHnetwork
- The distribution fiber
between the customer &the
closest splitter
- The ONT
- The customer home wiring
See Figure 4
More than one
Shoot an OTDR
from the last
splitter towards
the ONT
In service
measurement
Yes
Shoot an OTDR
from the ONTup
to the closest
splitter
No
Possible faultyelements
Shoot an OTDR
from the OLT
towardsthe ONT
- The last splitter
- The fiber link between the
cascaded splitters
See Figure 5
Are connectors
availabe at the last
splitter?
No
Shoot an OTDR
from the last
splitter towards
the fist splitter
Yes
- The OLTitself
- The feeder part of the fiber
network
- The first splitter
See Figure 6
What type of
FFTx Network is
it?
How many
customersare
affected?
Are affected
customers
connected to
the same first
splitter? Shoot an OTDR
from the OLT
towardsthe first
splitter
Which scenario? Second step analysis
Shoot an OTDR
from the ONT
towardsthe
closest splitter
One only(whethercascaded splitterornot)
PON
Case 1
PON
Case 2
No=> cascaded splitter
Yes(wethercascaded splittersornot)
PON
Case 3
Test 1
Test 2
Test 3
Test 4
Test 5
Test 6
Out of service
measurement
Point toPoint FTTx Network
Case
FTTx
Are connectors
availabe at the last
splitter? (Assuming
problem could not be
solved by phone)
5. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 5
Specific In-service Portable OTDR Device
The in-service OTDR was designed specifically for testing live fiber networks. This dedicated device uses
an out-of band wavelength (test wavelength far away from traffic wavelength) to enable OTDR testing
withoutdisturbingeitherthenetworktransmittersorthereceivers.
JDSU first developed this particular OTDR a few years ago, allowing dark fiber providers to perform
in-service monitoring on metropolitan and long-distance networks. In this case, a wavelength dense mul-
tiplexer(WDM)isrequiredtoconnecttheOTDRtothenetworkitselfwhilethetrafficremainsactive.
In the case of a PON network, this WDM is no longer needed, except for monitoring purposes (using a
remote fiber test system). The PON network is a point-to-multipoint configuration and the troubleshoot-
ing test is performed directly from an accessible element (ONT or splitter). The operator can disconnect
theelementbecauseserviceisalreadyoffdownstreamtowardthecustomer.
First, the in-service OTDR must not disturb the other customers while shooting the OTDR test wave-
length upstream toward the OLT, which is most likely the case, as OLTs reject signals above 1625 nm,
basedonITU-Trecommendations.
Second, the traffic signals that the OTDR receives will be rejected to obtain accurate OTDR traces. The
specific long-pass filter used to protect the OTDR diode can be added either via a jumper between the
OTDRandthenetworkorbuiltintotheOTDR.
Most equipment providers enable the use of the 1625 nm wavelength for safe testing. Some countries, such
as Japan, are nevertheless pushing the 1650 nm wavelength as reflected in the ITU-T L.41 recommen-
dation, which provides maintenance wavelengths on fiber-carrying signals. The 1650 nm wavelength is
preferred based on the design of the filters and also because it is further away from the traffic signals (cur-
rentandfuturePONtechnologies).
Figure8.OTDRInsertionforIn-serviceMonitoring Figure9.OTDRInsertionforFTTHTroubleshootingataCustomerLocation(ONTisdisconnected)
Tx
OTDR
WDM
Link #1
SP
Filter
LP Filter
Multiplexer
OTDR Filter
ONT 2
Final
customer
2
Coaxial cable
OLT
OTDR with built-in LP filter
ONT disconneted
Signals
……………….. Live traffic ………………………………………
ONT 3
Coaxial cable
Final
customer
2
ONT 3
ONT 3
ONT 3
Coaxial cable
Final
customer
2
……………….. Live traffic ……………………
………………..NO TRAFFIC ……………………
Test wavelength
6. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 6
Making the Right Testing Decisions
To optimize maintenance costs and time, it is essential to select the right OTDR tool, the correct pulse
width, and the best location to start troubleshooting. OTDR configuration should be set according to the
equipmentbeingqualifiedandthedistancetocover.
Consider each case from the scenarios presented in Figure 7. To avoid complexity, this document only
analyzesthecaseswhere connectorsareonlyavailableattheONT/OLTs.
Case1:TroubleshootingoftheDistributionFiber
SimplePON—Onlyonesubscriberaffected.
Considerthatnoconnectorsareavailableatthesplitter(seeFigure7,Test3)
Case Test OTDR WhatMust Comment PulseWidth SpecificOTDR
Location Direction beSeen toUse
Case 1 Customer’s Upstream Distribution Testing through Short pulse In-service OTDR
One Home fiber up to the splitter 3 to 30 ns
customer Disconnect the closest splitter is not required,
down the ONT as the issue
is only on the
distribution fiber side.
Figure10.OTDRisShotUpstreamandTraceonlyMattersuptotheSplitter
Test the distribution
Fiber from Customer 2
up to the closest splitter
No need to test beyond
the splitter
The OTDR trace must clearly
show all events until the closest splitter
Test direction (upstream)
7. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 7
Test the distribution
Fiber from Customer 2
up to the very first splitter
Last splitter First splitter
Test direction (upstream)
Need to test beyond the
closest splitter up to the first
splitter
Case2: TroubleshootingoftheDistributionFiberandtheFiberbetweentheTwoSplittersincase
ofaCascadedNetwork
Acascadednetworkwith1x4or1x8splittersisoftenfoundinEurope.
Information received at the network operations center (NOC) says that all customers linked to the second
splitter are down. Let’s consider the case where no connectors are available at the splitter (see Figure 7,
Test5).
Case Test OTDR WhatMust Comment PulseWidth SpecificOTDR
Location Direction beSeen toUse
Case 2 Customer’s Upstream Distribution fiber Testing through Medium pulse In-service OTDR
All customers home and fiber between the closest splitter 100 to 300 ns - Short dead zone
are down Disconnect the two splitters is required
after the the ONT
second splitter
This case requires viewing the signal after the splitter. The OTDR used must be optimized for this applica-
tionandhavetheshortestpossibledeadzoneasthesplittertypicallyprovides7to10dBloss.
Figure11.OTDRisShotUpstreamandTraceshouldDisplaytheTrafficthroughtheLastSplitteruptotheFirstOne
8. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 8
Case3:TroubleshootingoftheFeeder
Whether it is a non-cascaded network, which is typical in the USA, or a cascaded network, which is typical
inEuropeandAsiaPacific,informationreceivedattheNOCshowsthatallcustomersaredown.
As the problem likely comes from the feeder side, the most common way to test the faulty network is to
shootanOTDRdownstreamfromtheOLT(seeFigure7,Test6).
Case Test OTDR WhatMust Comment PulseWidth SpecificOTDR
Location Direction beSeen toUse
Case 3 OLT Downstream Feeder Testing through Short pulse Unnecessary
All the splitter is 3 to 30 ns
customers unnecessary
are down
Figure12.OTDRisShotDownstreamandTraceshouldDisplaytheTrafficDowntotheFirstSplitter
Test the feeder
up to the splitter
No need to test
beyond the first
splitter
The OTDR trace must clearly
show all events down to the first splitter
Test direction (downstream)
9. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 9
TroubleshootingtheDistributionFiberand/ortheFiberbetweenSplitterswithAlternativeOTDRTesting
fromtheOLT
OTDR testing directly from the OLT is certainly the preferred choice when a faulty feeder is suspected
(Case 3), but this method is not recommended in the other cases. JDSU OTDR instruments can indeed
test through splitters and provide accurate traces. Nevertheless, complete analysis of the resulting trace
requireslinkingthattracetotheexact(preciselydocumented)networktopology.
Figure13.OTDRisShotDownstreamandTraceDisplaysManyEventsthatareDifficulttoIdentifywithoutExactNetworkTopology(and
correspondingdistances)
Total Trace from the OLT
Shoot downstream from the feeder All splitters & ONTs can be seen
The OTDR trace shows
all events, including the first splitter 1*8,
some end of fibers, the second splitter 1*4…
Test direction (downstream)
10. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 10
Complete PON Test Tools
This application note focuses primarily on the maintenance and troubleshooting of a PON network
using an OTDR. Nevertheless, other tools can be used during the installation and maintenance/trouble-
shootingstages:
InstallationPhase
Thefollowingequipmentmaybeused:
‒ Losstestset(providesinsertionlossandORL,eitherunidirectionallyorbidirectionally)
‒ OTDR
For this phase, JDSU recommends the SmartClass™ Family and/or the T-BERD®/MTS-4000 or -6000 to
optimizethisprocess.
Figure14.Recommendedtools:aSmartClassFamilyopticalhandheldoraT-BERD/MTS-4000orT-BERD/MTS-6000equippedwithan
OTDRmodule
Turn-upPhase
Thefollowingequipmentsshouldbeusedinconjunction:
‒ APONpowermeter(1310/1490,1490/1550,or1310/1490/1550nm)
‒ IPtesters(voice,data,video)andcoaxialtesters
For this phase, JDSU recommends our SmartClass Family, in particular the PON-dedicated OLP-57, the
T-BERD/MTS-4000andtheHST-3000tooptimizethisprocess.
Figure15.Recommendedtools:anHST-3000,aSmartClassFamilyOLP-57andaT-BERD/MTS-4000equippedwithaPONpowermeter
11. Application Note: Maintenance & Troubleshooting of a PON Network with an OTDR 11
MaintenanceandTroubleshootingPhase
Thefollowingequipmentsshouldbeusedinconjunction:
‒ APONpowermeter(1310/1490,1490/1550,or1310/1490/1550nm)
‒ AlosstestsetoranOTDR
‒ IPtesters(voice,data,video)andcoaxialtesters
Forthisphase,JDSUrecommendsoncemorethematerialdescribedabove.
Figure16.TheDedicatedFTTxT-BERD/MTS-4000PlatformcanbeEquippedwithaPON,anOTDR,andTriple-Play/WiFiTesting
*Refer to the JDSUTriple-Playbookformoreinformation,whichisavailableondemandat:
www.jdsu.com/products/communications-test-measurement/products/details/triple-play-service-deployment.html