Conductor
|
Material
|
CCA (Copper content: 22%–31%)
|
Diameter
|
0.5 mm ± 0.01 mm
|
Wire Gauge
|
24 AWG
|
Insulation
|
Material
|
HDPE
|
Thickness
|
0.18 mm
|
Diameter
|
0.90 mm ± 0.06 mm
|
Color
|
Blue, white/blue; orange, white/orange; green, white/green; brown, white/brown
|
Rip Cord
|
Material
|
Polyester fiber
|
Specification
|
500D
|
Sheath
|
Material
|
FR-PVC (ROHS compliant)
|
Min. Average Thickness
|
0.5 mm
|
Diameter
|
5.1 mm ± 0.3 mm
|
Color
|
Orange
|
Electrical
|
Max. DC Resistance of a Single Conductor
|
14.5 Ω/100 m (14.5 Ω/328.08 ft)
|
Min. Insulation Resistance
|
5000 MΩ/km
|
Max. DC Resistance Unbalance
|
2% (pair intra), 4% (pairs inter)
|
Max. Mutual Capacitance
|
5.6 nF/100 m (5.6 nF/328.08 ft)
|
Dielectric Strength
|
No breakdown with 1kV DC for 1 min
|
Mechanical
|
Tensile Strength
|
Sheath ≥13.5 MPa, insulation ≥16 MPa
|
Elongation at Break
|
Sheath ≥150%, insulation ≥300%
|
Installation Bending Radius
|
>8 times of the outer cable diameter
|
Conductor Elongation at Break
|
≥8%
|
Environmental
|
Shrinkage of Insulation
|
≤5%
|
Color Migration Resistance of Insulation
|
No migration
|
Sheath Tensile Strength and Elongation at Break after Aging
|
≥12.5 MPa, ≥100%
|
Low Temperature Bending Test
|
No cracking after the test
|
Heat Shock Test
|
No cracking after the test
|
Operation Temperature
|
–20 °C to +60 °C (–4 °F to +140 °F)
|
Installation Temperature
|
0 °C to +50 °C (32 °F to 122 °F)
|
Storage Temperature and Humidity
|
–10 °C to +40 °C (14 °F to 104 °F), <60% (RH)
|
Security
|
Vertical Fire Propagation Test
|
Comply with IEC 60332-2-2
|
Packaging
|
Cable Length
|
305.0 m ± 2 m (1000.66 ft ± 6.56 ft)
|
Net Weight
|
6.2 kg ± 0.5 kg (13.67 lb ± 1.1 lb)
|
Gross Weight
|
7.0 kg ± 0.5 kg (15.43 lb ± 1.1 lb)
|
Inner Carton Dimensions
|
364 mm × 216 mm × 364 mm (14.33" × 8.5" × 14.33") (L × W × H)
|
Packaging Dimensions
|
447 mm × 382 mm × 386 mm (17.6" × 15.04" × 15.2") (L × W × H)
|
Packaging Method
|
305.0 m (1000.66 ft) per carton, and 2 cartons per transport package
|
Compliance
|
Executive Standards
|
Q/DXJ 067-2019
|