1 Inner conductor: AWG 26/19, highly flexible, bare copper wire, stranded
2 PE insulated conductor: Ø 1.0 mm
3 Screen (pair): Alu PETP foil
4 Overall screen: Tinned CU braid, 85% nom. cover
5 Outer sheath: PUR
Product variants & stock
Article No.
Stock
Product
Reaction to fire
Dimensions n x p x [mm² (AWG)]
Outer sheath dimensions [mm]
CU rate [kg/km]
Weight [kg/km]
GTIN / EAN
24015800EK
CU 5431 4P hflex Industrial PUR UL
Eca
4 x 2 x 0.15 (AWG26/19)
6.9
29
56
40393910409987
Technical specifications
Cat.5e cable with excellent electrical and mechanical properties – meets the requirements of ISO/IEC 11801 and IEC 61156-6.
Specifically designed for use in drag chain applications.
Different core colors ensure that the cores in the assembled connector are clearly distinguished.
Compatible with the RJ45 and M12 connector systems commonly used in industrial environments.
Available as standard with the coat color green.
Tensile strength (4P)
75
N
AWG
26/19
Solid / Flex
Stranded wire (highly flexible)
Minimum bending radius (permanently installed)
56
mm
Minimum bending radius (flexible)
69
mm
Minimum bending radius (dynamic)
83
mm
Supports the transmission of analogue and digital signals up to 100 MHz and enables fast information exchange via Ethernet with Cat.5 performance up to 1 Gbit/s.
The copper shield braid offers excellent protection against electromagnetic interference – particularly suitable for EMC-critical environments.
UL/CSA certified and therefore also approved for use in North America.
Due to the special design it can be used very flexibly and permanently in machine parts and drag chains.
The PUR outer jacket is extremely durable and has been tested for oil resistance.
Shielded
Shielded
Category
Cat.5e
GBit/s
Up to 1 Gbit/s
Loop resistance at 20 °C
249
Ω/km
Impedance at 100 MHz, ±5Ω
100
Ω
NVP %
67
Delay skew
20
ns/100 m
The drag chain cables were tested according to the standard construction for general applications. This test does not necessarily cover individual application requirements. Long-term stability and performance must be separately evaluated in specific applications.