Thanks to its broad usable optical spectrum and outstanding attenuation performance, FullBand® Plus Low Loss
Single-mode Fibre is the optimum choice that supports various applications such as Ethernet, Internet Protocol
(IP), Asychronous Transfer Mode (ATM), Synchronous Distribution Network (SDH) and Wavelength Division
Multiplexing (WDM). FullBand® Plus Low Loss Singlemode Fibre provides wider bandwidth and much lower
signal attenuation for backbone, metropolitan area and access networks.
• Designed for operation over the full optical spectrum from 1260-1625 nm, and hence the transmission capacity is increased
• Much lower attenuation over the full optical spectrum from 1260 nm to 1625 nm, which meet the demand of extended long distance transmission
• Outstanding optical performance supporting high-speed transmission technologies such as DWDM and CWDM
• Being compatible with existing 1310 nm equipment
• Good protection and excellent strip force stability
• Accurate geometrical parameters that insure low splicing loss and high splicing efficiency
Characteristics |
Conditions |
Specified values |
Units |
|
---|---|---|---|---|
Optical Characteristics |
||||
Attenuation |
1310nm |
≤0.32 |
[dB/km] |
|
1383nm(after H2-aging) |
≤0.31 |
[dB/km] |
||
1550nm |
≤0.18 |
[dB/km] |
||
1625nm |
≤0.20 |
[dB/km] |
||
Attenuation vs. Wavelength Max. α difference |
1285-1330nm, in reference to 1310nm |
≤0.03 |
[dB/km] |
|
1525-1575nm, in reference to 1550nm |
≤0.02 |
[dB/km] |
||
Dispersion Coefficient |
1285-1340nm |
-3.5 to 3.5 |
[ps/(nm·km)] |
|
1550nm |
≤18 |
[ps/(nm·km)] |
||
1625nm |
≤22 |
[ps/(nm·km)] |
||
Zero Dispersion Wavelength(λ0) |
-- |
1300-1324 |
[nm] |
|
Zero Dispersion Slope(S0) |
-- |
≤0.092 |
[ps/(nm2·km)] |
|
Typical Value |
-- |
0.086 |
[ps/(nm2·km)] |
|
PMD |
Maximum Individual Fibre |
-- |
≤0.1 |
[ps/√km] |
Link Design Value(M=20,Q=0.01%) |
-- |
≤0.06 |
[ps/√km] |
|
Typical Value |
-- |
0.04 |
[ps/√km] |
|
Cable Cutoff Wavelength (λCC) |
-- |
≤1260 |
[nm] |
|
Mode Field Diameter(MFD) |
1310nm |
8.7-9.5 |
[μm] |
|
1550nm |
9.8-10.8 |
[μm] |
||
Effective Group Index of Refraction(Neff ) |
1310nm |
1.466 |
-- |
|
1550nm |
1.467 |
-- |
||
Point Discontinuities |
1310nm |
≤0.05 |
[dB] |
|
1550nm |
≤0.05 |
[dB] |
||
Geometrical Characteristics |
||||
Cladding Diameter |
-- |
125.0±0.7 |
[μm] |
|
Cladding Non-Circularity |
-- |
≤1.0 |
[%] |
|
Coating Diameter |
-- |
235-245 |
[μm] |
|
Coating-Cladding Concentricity Error |
-- |
≤12.0 |
[μm] |
|
Coating Non-Circularity |
-- |
≤6.0 |
[%] |
|
Core-Cladding Concentricity Error |
-- |
≤0.6 |
[μm] |
|
Curl(radius) |
-- |
≥4 |
[m] |
|
Delivery Length |
-- |
Up to 50.4 |
[km/reel] |
|
Environmental Characteristics |
1310nm, 1550nm & 1625nm |
|||
Temperature Dependence Induced Attenuation |
-60℃ to +85℃ |
≤0.05 |
[dB/km] |
|
Temperature-Humidity Cycling Induced Attenuation |
-10°C to +85°C, 98% RH |
≤0.05 |
[dB/km] |
|
Watersoak Dependence Induced Attenuation |
23°C,for 30 days |
≤0.05 |
[dB/km] |
|
Damp Heat Dependence Induced Attenuation |
85°C and 85% RH,for 30 days |
≤0.05 |
[dB/km] |
|
Dry Heat Aging |
85℃, for 30 days |
≤0.05 |
[dB/km] |
|
Mechanical Specification |
||||
Proof Test |
-- |
≥9.0 |
[N] |
|
-- |
≥1.0 |
[%] |
||
-- |
≥100 |
[kpsi] |
||
Macro-bend Induced Attenuation |
100 Turns Around a Mandrel of 30 mm Radius |
1625nm |
≤0.05 |
[dB] |
100 Turns Around a Mandrel of 25 mm Radius |
1310nm and 1550nm |
≤0.05 |
[dB] |
|
1 Turn Around a Mandrel of 16 mm Radius |
1550nm |
≤0.05 |
[dB] |
|
Coating Strip Force |
typical average force |
1.5 |
[N] |
|
peak force |
1.3-8.9 |
[N] |
||
Dynamic Fatigue Parameter(nd) |
-- |
≥20 |
-- |