A fiber optic drum for drone use enables secure, high-bandwidth connection between the drone and the commander control station, allowing real-time transmission of video and data with minimal latency and immunity to electromagnetic interference.
Tactical Fiber Drum
- Provides real-time data and video transmission between drone and ground control
- Immune to EMI, jamming, and interception– perfect for contested environments
- Tactical-grade optical fiber for UAV, drones and UGV
- Field-proven solution, tested under real-world conditions
- Lightweight, rugged drum design optimized for airborne and mobile platforms
- Enables high-speed communication with low latency and high reliability
- Optional integration with automatic retraction mechanism
- For 270 µm fiber
SPECIFICATIONS
G.657A2 0.27 mm
|
Characteristics |
Conditions |
Specified Values |
Units |
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|
Optical Characteristics |
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Attenuation |
1310 nm |
≤0.35 |
[dB/km] |
|
|
|
1383 nm (after H2-aging) |
≤0.35 |
[dB/km] |
|
|
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1460 nm |
≤0.25 |
[dB/km] |
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|
|
1490 nm |
≤0.23 |
[dB/km] |
|
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1550 nm |
≤0.21 |
[dB/km] |
|
|
|
1625 nm |
≤0.23 |
[dB/km] |
|
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Attenuation vs. Wavelength Max. α difference |
1285~1330 nm |
≤0.03 |
[dB/km] |
|
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1525~1575 nm |
≤0.02 |
[dB/km] |
|
|
Zero dispersion slope |
|
≤0.092 |
ps/(nm2·km) |
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|
PMD |
|
|
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Maximum Individual Fibre |
|
≤0.1 |
[ps/√ km] |
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Link Design Value (M=20,Q=0.01%) |
|
≤0.06 |
[ps/√ km] |
|
|
Typical value |
|
0.04 |
[ps/√ km] |
|
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|
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|
Cable cutoff wavelength |
|
λcc ≤1260 |
[nm] |
|
|
Mode field diameter (MFD) |
1310 nm |
8.4~9.2 |
[μm] |
|
|
|
1550 nm |
9.3~10.3 |
[μm] |
|
|
Effective group index of refraction (Neff) |
1310 nm |
1.466 |
|
|
|
|
1550 nm |
1.467 |
|
|
|
Point discontinuities |
1310 nm |
≤0.05 |
[dB] |
|
|
|
1550 nm |
≤0.05 |
[dB] |
|
|
Geometrical Characteristics |
|
|
|
|
|
Cladding diameter |
|
125.0±0.7 |
[μm] |
|
|
Cladding non-circularity |
|
≤0.7 |
[%] |
|
|
Coating diameter |
|
245±5 |
[μm] |
|
|
Coating-cladding concentricity error |
|
≤12.0 |
[μm] |
|
|
Coating non-circularity |
|
≤6.0 |
[%] |
|
|
Core-cladding concentricity error |
|
≤0.5 |
[μm] |
|
|
Curl (radius) |
|
≥4 |
[m] |
|
|
Delivery length |
|
2.1 to 50.4 |
[km/reel] |
|
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Environmental Characteristics (1310 nm, 1550 nm & 1625 nm) |
||||
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Temperature dependence |
-60℃ to +85℃ |
≤0.05 |
[dB/km] |
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Induced attenuation at |
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Temperature-humidity cycling |
-10℃ to +85℃ |
≤0.05 |
[dB/km] |
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Induced attenuation at |
98% RH |
|
|
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|
Watersoak dependence |
23℃ |
≤0.05 |
[dB/km] |
|
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Induced attenuation at |
For 30 days |
|
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Damp heat dependence |
85℃ and 85% |
≤0.05 |
[dB/km] |
|
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Induced attenuation at |
For 30 days |
|
|
|
|
Dry heat |
85℃ |
≤0.05 |
[dB/km] |
|
|
aging at |
For 30 days |
|
|
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Mechanical Specification |
|
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|
Proof test |
off line |
≥9.0 |
[N] |
|
|
|
|
≥1.0 |
[%] |
|
|
|
|
≥100 |
[kpsi] |
|
|
Macro-bend induced attenuation |
|
|
|
|
|
10 turns around a mandrel of 15 mm radius |
1550 nm |
≤0.03 |
[dB] |
|
|
10 turns around a mandrel of 15 mm radius |
1625 nm |
≤0.1 |
[dB] |
|
|
1 turn around a mandrel of 10 mm radius |
1550 nm |
≤0.1 |
[dB] |
|
|
1 turn around a mandrel of 10 mm radius |
1625 nm |
≤0.2 |
[dB] |
|
|
1 turn around a mandrel of 7.5 mm radius |
1550 nm |
≤0.2 |
[dB] |
|
|
1 turn around a mandrel of 7.5 mm radius |
1625 nm |
≤0.5 |
[dB] |
|
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|
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Coating strip force |
average force (typical) |
1.7 |
[N] |
|
|
|
peak force |
≥1.3 ≤8.9 |
[N] |
|
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|
|
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|
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Dynamic stress corrosion susceptibility parameter nd(typical) |
27 |
|
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Reel Dimensions 10 km / 15 km Diameter: 120 mm Length: 325 mm
Reel Dimensions 20 km / 25 km Diameter: 140 mm Length: 360 mm
Reel Weight
10 km = 980 g / 15 km = 1250 g / 20 km = 1760 g / 25 km = 2210 g
- Airborne and Mobile Platforms
- Military
- Civil Applications
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