

036ZM4-T3120A20
MiniXtend® Cable, LT, A-DQ(ZN)2Y 3x12 E9/125 SMF-28® Ultra
General Specifications
Product Number | 036ZM4-T3120A20 |
光缆类型 | 绞合松套管 |
环境 | 室外 |
产品类型 | 绝缘 |
光纤类别 | SMF-28® Ultra |
应用 | 微管 |
Cable geometry | Round |
标准
RoHS | 无有害物质根据RoHS 2011/65/EU |
环境条件
温度范围,安装 | -5 °C to 40 °C (23 °F to 104 °F ) |
温度范围,操作 | -30 °C to 70 °C (-22 °F to 158 °F ) |
温度范围,存储 | -30 °C to 70 °C (-22 °F to 158 °F ) |
光缆设计
光缆标识 | Meter - Handset - Sine - CORNING - Year -MINIXTEND (R) CABLE 3X12 E9/125 ULTRA LT 1.4 |
中心单元 | 绝缘 |
光纤芯数 | 36 |
撕拉绳数 | 2 |
外护套颜色 | 黑色 |
外护套材料 | 高密度聚乙烯(HDPE) |
外护套标称厚度 | 0.5 mm |
缓冲管尺寸 | 1.4 mm |
活跃管数量 | 3 |
填充单元数 | 3 |
管位置数 | 6 |
带子 | 水膨胀 |
光纤配色 | 蓝色, 橙色, 绿色, 棕色, 石板色, 白色, 红色, 黑色, 黄色, 紫色, 玫瑰色, 水蓝色 |
每管光纤芯数 | 12 |
机械特性
파쇄 저항(가역적) | 1000 N/10 cm |
最大拉伸强度,短期 | 350 N |
最小安装弯曲半径 | 106 mm |
最小操作弯曲半径 | 79.5 mm |
标称外径 | 5.3 mm |
Optical Characteristics
Fibre code | Z |
Performance option code | 20 |
Fibre category | OS2 |
Fibre Type | Single-mode (OS2) / 250 µm |
Fibre name | Bend-Improved Single-mode (OS2) |
Maximum Attenuation | 0.34 dB/km / 0.34 dB/km / 0.20 dB/km |
Wavelengths | 1310 nm / 1383 nm / 1550 nm |
Fibre compliance | ITU-T G.652.D and ITU-T G.657.A1 |
Fibre core diameter | 8.2 µm |
Cladding diameter | 125 µm |
Coating diameter | 242 µm |
Dispersion @ 1550 nm | ≤ 18 [ps/(nm*km)] |
Dispersion @ 1625 nm | ≤ 22 [ps/(nm*km)] |
Cable cutoff wavelength | 1260 nm |
Mode-Field Diameter at 1310 nm | 9.2 µm |
Mode-Field Diameter at 1550 nm | 10.4 µm |
PMD Link Design Value | ≤ 0.04 ps/√km |
PMD (Polarization Mode Dispersion) maximum individual fibre | ≤ 0.1 ps/√km |
尺寸
Cable Weight | 23 kg/km |
Max. cable length per reel/drum | 4000 m |
Reduced outer cable diameter
High fibre density in microduct systems
Compact and light
CapEx-optimised installations & upgrades
Optimised cable stiffness
Long installation lengths
Fully-dielectric
No grounding required
Colour-coded tubes & fibres
Easy identification of tubes & fibres
SMF-28e+® according to ITU-T G.652.D
Transmission security, low attenuation and polarization mode dispersion