Testing Installed Cabling - we know not what we do! Mike Gilmore FIA Technical Director

Testing Installed Cabling - we know not what we do! Mike Gilmore FIA Technical irector

Mike Gilmore tandards Activities Member: IO/IEC JTC1 C25 WG3: Generic Cabling IO/IEC JTC1 C25 Project Team: OHO Convenor: IO/IEC JTC1 C25 WG3 IPTG: Industrial Premises Cabling Convenor: CENELEC TC215 WG1: IT Cabling CENELEC TC215 WG1 PT Industrial Premises Cabling ecretary: CENELEC TC215 WG1 PT ata Centre Cabling Mike Gilmore enior Partner, The Cabling Partnership Managing irector e-ready Building Chairman: BI TCT7/-/1: IT Cabling BI TCT7/-/3: IT Cabling upport Group Technical and tandards irector: Fibreoptic Industry Association e-mail: mike.gilmore@btinternet.com Mobile: +44 (0) 7860 110563

The Measurement of Links Link (optical performance) Link (physical) Link measurements Attenuation/insertion loss Installed component measurements Attenuation/ insertion loss Return loss

The Measurement of Channels Channel (physical) Channel (optical performance) Transceiver T R R T Transceiver Channels measurements Attenuation/insertion loss Propagation delay Installed component measurements Attenuation/ insertion loss Return loss

The Measurement of Channels Channel (physical) Channel (optical performance) Transceiver T R R T Transceiver Channels measurements Attenuation/insertion loss Propagation delay Installed component measurements Attenuation/ insertion loss Return loss

Measurement Errors - Interface Connections Link measurements Attenuation/insertion loss Channels measurements Attenuation/insertion loss Propagation delay MEAUREMENT ERROR due to INTERFACE CONNECTION Installed component measurements Attenuation/ insertion loss Return loss MEAUREMENT ERROR due to INTERFACE CONNECTION

Measurement Errors - LM Link measurements Attenuation/insertion loss Channels measurements Attenuation/insertion loss Propagation delay MEAUREMENT ERROR due to LAUNCHE MOAL ITRIBUTION (MMF) Installed component measurements Attenuation/ insertion loss Return loss MEAUREMENT ERROR due to LAUNCHE MOAL ITRIBUTION (MMF)

tatistical Behaviour of Connecting Hardware L A L A T Reference measurement P 0 Connection AT measurement P 1 L B L B T Reference measurement P 0 Connection BT measurement P 1 L C L C T Reference measurement P 0 Connection CT measurement P 1 AT BT CT

tatistical Behaviour of Connecting Hardware IO/IEC 11801 (2002) and EN 50173-1 Attenuation (db max) Wavelength All Multimode OF inglemode OF 95%<0,5dB 100%<0,75 db

Conventional Test Methods LINK L Launch cord Reference measurement P 0 Measured loss L Launch cord Link Tail cord Test measurement P 1 CHANNEL L Launch cord ummy cord Tail cord Reference measurement P 0 Measured loss L Launch cord Channel Tail cord Test measurement P 1

Interface Measurement Error Forecast: One Connection 1,000 Trials Frequency Chart 0 Outliers.228 228.171 171.114 114.057 57.000 0 0.00 1.88 3.75 5.63 7.50 0<99.8%<0.75 Forecast: Two Connections 1,000 Trials Frequency Chart 0 Outliers.163 163.122 122.2.082 81.5.041 40.75.000 0.00 1.88 3.75 5.63 7.50 0 0.05<100%<1.35

Improving Interface Error for L MMF Launch cord ummy cord Tail cord Terminations made with sized-ferrule M components MF Launch cord ummy cord Tail cord Terminations made with sized-ferrule M components against reference cords

ingle Test L Method L Launch cord ummy cord Tail cord Reference measurement P 0 Measured loss L Launch cord Cabling under test Tail cord Test measurement P 1 L Launch cord Tail cord Reference measurement P 0 L Reference measurement P 1 Tail cord ummy cord Launch cord L Launch cord Measured loss Tail cord Test measurement P 1 L Test measurement P 1 Tail cord Cabling under test Launch cord

The Impact of Modes on MMF Testing The number of modes = function {(N.A x core diameter)/(λ)} n 1 (r) n 2 Mode Group 1 Modes 2 Σ Modes 2 2 4 6 3 6 12 4 8 20 5 10 30 50/125 MMF @ 850nm 6 12 7 14 8 16 9 18 10 20 11 22 42 56 72 90 110 132 12 24 156 13 26 182 14 28 210 15 30 240 16 32 272 17 34 306 18 36 342 19 38 380 Mode Group 1 Modes 2 Σ Modes 2 2 4 6 50/125 MMF @ 1300nm 3 6 4 8 5 10 6 12 7 14 12 20 30 42 56 8 16 72 9 18 90 10 20 110 11 22 132 12 24 156 Mode Group 1 Modes 2 Σ Modes 2......... 15 30 240 16 32 272 17 34 306 62,5/125 MMF @ 850nm 18 36 19 38 20 40 21 42 22 44 23 46 342 380 420 462 506 552 24 48 600 25 26 27 28 29 30 31 50 52 54 56 58 60 62 650 702 756 812 870 930 992 Mode Group 1 Modes 2 Σ Modes 2 62,5/125 MMF @ 1300nm... 13 14... 26 28... 182 210 15 30 240 16 32 272 17 34 306 18 36 342 19 38 380

Mode Groups and Power istribution The number of modes = function {(N.A x core diameter)/(λ)} n 1 (r) n 2 Mode Group 1 Modes 2 Σ Modes 2 2 4 6 3 6 12 4 8 20 5 10 30 50/125 MMF @ 850nm 6 12 7 14 8 16 9 18 10 20 11 22 42 56 72 90 110 132 12 24 156 13 26 182 14 28 210 15 30 240 16 32 272 17 34 306 18 36 342 19 38 380 Mode Group 1 Modes 2 Σ Modes 2 2 4 6 50/125 MMF @ 1300nm 3 6 4 8 5 10 6 12 7 14 12 20 30 42 56 8 16 72 9 18 90 10 20 110 11 22 132 12 24 156 Mode Transfer Function Mode Power istribution (normalised) Cumulative Power istribution (normalised) 0 0.2 0.4 0.6 0.8 1 Mode Group (normalised)

Testing installed cabling - they know not what they do! Investigating Modal istributions

Launched Modal istribution - LM OVERFILLE LAUNCH X-axis = Mode Group (normalised) EQUILIBRIUM TYLE LAUNCH VCEL LAUNCH 0 0.2 0.4 0.6 0.8 1 0 0.2 0.4 0.6 0.8 1 Mode Transfer Function Mode Power istribution (normalised) Cumulative Power istribution (normalised) 0 0.2 0.4 0.6 0.8 1

Coupled Power Ratio - MMF L MMF/125 cord Reference measurement P 0 L MMF/125 cord MF cord CPR measurement P 1 5 µm @ 850 nm 9 µm @ 1300 nm 50/125 MMF @ 850nm 20-21 db 0.8-1% 50/125 MMF @ 1300nm 16-17 db 2.0-2.5% 62.5/125 MMF @ 850nm 25-26 db 0.25-0.32% 62.5/125 MMF @ 1300nm 21-22 db 0.63%-0.8% HOW TO OBTAIN THE CORRECT CPR The right light source Modify the launch using: Mandrels? Mode conditioning?

tandardised MP 1.0 0.9 0.8 0.7 0.6 Normalised power 0.5 Allowed distribution must not enter shaded areas 0.4 0.3 0.2 0.1 0 0 0.1 0.2 0.3 0.4 0.5 0.6 0.7 0.8 0.9 1.0 Normalised mode group HOW TO OBTAIN THE CORRECT MP The right light source Modify the launch using: Mandrels? Mode conditioning?

Mandrels? 62.5/125 High NA source 0 0.2 0.4 0.6 0.8 1 NO MANREL Mode Transfer Function Mode Power istribution (normalised) Cumulative Power istribution (normalised) WITH MANREL 62.5/125 Medium NA source 62.5/125 Low NA source 0 0.2 0.4 0.6 0.8 1 0 0.2 0.4 0.6 0.8 1 Mode Group (normalised) Mode Transfer Function Mode Power istribution (normalised) Cumulative Power istribution (normalised)

FIA-ponsored Mode Conditioning Cords 25.8 Output CPR vs Input CPR output CPR, db 25.6 25.4 25.2 25 24.8 24.6 24.4 24.2 24 0 5 10 15 20 25 30 input CPR, db Opportunity for universal test cords

New Test ystems - I Link measurements Attenuation/insertion loss Channels measurements Attenuation/insertion loss Propagation delay MEAUREMENT ERROR due to INTERFACE CONNECTION Reduced Installed component measurements Attenuation/ insertion loss Return loss Reduced MEAUREMENT ERROR due to INTERFACE CONNECTION

New Test ystems - II Link measurements Attenuation/insertion loss Channels measurements Attenuation/insertion loss Propagation delay MEAUREMENT ERROR due to LAUNCHE MOAL ITRIBUTION (MMF) Removed Installed component measurements Attenuation/ insertion loss Return loss Removed MEAUREMENT ERROR due to LAUNCHE MOAL ITRIBUTION (MMF)

Testing installed cabling - they know not what they do! Universal Test Results tandardised LM and low error connections offers universality of test equipment and comparison of results

Testing Installed Cabling - we know not what we do! Mike Gilmore FIA Technical irector