144ZD9-T1301-20
MIC® 250 2.0 Cable 144 F, SMF-28® Ultra fiber, Single-mode (OS2)
General Specifications
Product Number | 144ZD9-T1301-20 |
Cable Type | Loose Tube |
Environment | Indoor |
Product Type | Distribution |
Fiber Category | Single-mode (OS2) |
Flame Rating | Plenum (OFNP) |
Application | General purpose, Horizontal, Plenum, Vertical Riser |
Cable geometry | Round |
Standards
RoHS | Free of hazardous substances according to RoHS 2011/65/EU |
Approvals and Listings | National Electrical Code® (NEC®) OFNP, CSA FT-6 |
Design and Test Criteria | ICEA S-83-596 |
Environmental Conditions
Temperature Range, Installation | 0 °C to 60 °C (32 °F to 140 °F ) |
Temperature Range, Operation | 0 °C to 70 °C (32 °F to 158 °F ) |
Temperature Range, Storage | -40 °C to 70 °C (-40 °F to 158 °F ) |
Cable Design
Fiber Count | 144 |
Outer Jacket Color | Yellow |
Outer Jacket Material | Flame-retardant |
Tensile Strength Elements and/or Armoring - Layer 1 | Dielectric strength members |
Fiber Coloring | Blue, Orange, Green, Brown, Slate, White, Red, Black, Yellow, Violet, Rose, Aqua |
Fibers per Subunit | 12 |
Number of Subunits Layer 1 | 3 |
Number of Subunits Layer 2 | 9 |
Subunit Color | Yellow |
Subunit Diameter | 2 mm (0.08 in) |
Mechanical Specifications
Max. Tensile Strength, Short-Term | 660 N (148.37 lbf) |
Min. Bend Radius Installation | 187.5 mm (7.38 in) |
Min. Bend Radius Operation | 62.5 mm (2.46 in) |
Optical Characteristics
Fiber Code | Z |
Fiber Name | SMF-28® Ultra fiber |
Fiber Type | Single-mode |
Performance Option Code | 01 |
Maximum Attenuation | 0.4 dB/km / 0.4 dB/km / 0.3 dB/km |
Wavelengths | 1310 nm / 1383 nm / 1550 nm |
Fiber Category | G.652.D/G.657.A1 |
Dimensions
Cable Weight | 1.303 kg/km (0.88 lb/1000 ft) |
Length | 0 mm (0 in) |
Color-coded fibers
Quick and easy identification
Small design
Alternative to traditional indoor cables when smaller diameter required
All-dielectric construction
Requires no grounding or bonding
Compatible with CCH pigtailed cassettes
Ideal for splicing 250 µm to 250 µm fibers