Optimized structure for the use in energy chains®
1
Center element for high tensile stresses
To stabilize the composite stranding inside the cable and thereby prevent corkscrewing and core breakages.
2
Optimized copper litz wire
To prevent core breakages and thereby create durability in continuous movement, even for small bending radii in the energy supply chain.
3
Core insulation
Only top value, pressure-extruded PVC or TPE. Materials that have stood the test of time in millions of core kilometers are used in energy chain® applications.
4
Braiding in bundles
Strengthening of the core braid, relief of the cores in the radius from low tensile/pressure stressing and thereby prevention of corkscrewing and core breakages.
5
Gusset-filling extruded inner jacket
Support of the composite stranding outside and thereby prevent corkscrewing and core breakages.
6
Total shield with optimized shield braiding
Prevention of shield breakage and thereby significant increase and/or safeguarding of the EMC features of a cable.
7
Highly abrasion-resistant, with pressure extruded outer jacket
Support of the shield braiding, less abrasion in the energy chain® and thereby demonstrably longer service life, even in highly dynamic applications.
1
Center element for high tensile stresses
To stabilize the composite stranding inside the cable and thereby prevent corkscrewing and core breakages.
2
Optimized copper litz wire
To prevent core breakages and thereby create durability in continuous movement, even for small bending radii in the energy supply chain.
3
Core insulation
Only top value, pressure-extruded PVC or TPE. Materials that have stood the test of time in millions of core kilometers are used in energy chain® applications.
4
Braiding in bundles
Strengthening of the core braid, relief of the cores in the radius from low tensile/pressure stressing and thereby prevention of corkscrewing and core breakages.
5
Gusset-filling extruded inner jacket
Support of the composite stranding outside and thereby prevent corkscrewing and core breakages.
6
Total shield with optimized shield braiding
Prevention of shield breakage and thereby significant increase and/or safeguarding of the EMC features of a cable.
7
Highly abrasion-resistant, with pressure extruded outer jacket
Support of the shield braiding, less abrasion in the energy chain® and thereby demonstrably longer service life, even in highly dynamic applications.
Permissible temperature moving +23°F to +158°F (-5°C to +70°C)
minimum bending radius: 7.5 x outer cable diameter
Permissible temperature fixed -4°F to +158°F (-20°C to +70°C)
minimum bending radius: 4 x outer cable diameter
v max. unsupported/gliding 32.81 ft/s (10 m/s), 16.41 ft/s (5 m/s)
a max. 262.4 ft/s² (80 m/s²)
Length of travel Unsupported and gliding travel distances up to 328 ft (100 m)
UV-resistance Medium
Voltage 1000 V
Test voltage 4000 V
Oil-resistance Medium
Flame-resistance FT1
Silicon-free Silicon-free in compliance with PV 3.10.7 - status 1992.
Power conductor Finely stranded bare copper wires according to EN 60228
Conductor insulation Mechanically high quality TPE blend
Conductor twisting Power conductors with signal pairs twisted with short pitch around high tensile center core
Power conductor color/numbering Black with white numbers, one conductor green-yellow.
1. U / L1 / C / L+
2. V / L2
3. W / L3 / D / L-
4. green / yellow
Conductor identification 1 signal pair: black with white numerals
1. #4
2. #5
Conductor identification 2 signal pairs: black with white numerals
1. #5
2. #6
3. #7
4. #8
Signal pair shield Tinned copper braid, coverage approx. 90% optical, over aluminum/polyester film.
Intermediate jacket PVC-based blend, adapted to the requirements of the Energy Chain®.
Outer shielding Tinned copper braid, coverage approx. 90% optical.
Outer jacket PVC-based, low-adhesion blend, adapted to the requirements of the Energy Chain®.
UL/CSA cRUus: UL AWM style for USA & Canada: 2570 80°C 1000V
CEI CEI 20-20
CE Following 2006/95/EC
RoHS 2002/95/EC; Please reference the Design Section for more information
Cleanroom According to ISO Class 2. Tested by IPA according to standard 14644-1. Test cable CF5-10-07.
minimum bending radius: 7.5 x outer cable diameter
Permissible temperature fixed -4°F to +158°F (-20°C to +70°C)
minimum bending radius: 4 x outer cable diameter
v max. unsupported/gliding 32.81 ft/s (10 m/s), 16.41 ft/s (5 m/s)
a max. 262.4 ft/s² (80 m/s²)
Length of travel Unsupported and gliding travel distances up to 328 ft (100 m)
UV-resistance Medium
Voltage 1000 V
Test voltage 4000 V
Oil-resistance Medium
Flame-resistance FT1
Silicon-free Silicon-free in compliance with PV 3.10.7 - status 1992.
Power conductor Finely stranded bare copper wires according to EN 60228
Conductor insulation Mechanically high quality TPE blend
Conductor twisting Power conductors with signal pairs twisted with short pitch around high tensile center core
Power conductor color/numbering Black with white numbers, one conductor green-yellow.
1. U / L1 / C / L+
2. V / L2
3. W / L3 / D / L-
4. green / yellow
Conductor identification 1 signal pair: black with white numerals
1. #4
2. #5
Conductor identification 2 signal pairs: black with white numerals
1. #5
2. #6
3. #7
4. #8
Signal pair shield Tinned copper braid, coverage approx. 90% optical, over aluminum/polyester film.
Intermediate jacket PVC-based blend, adapted to the requirements of the Energy Chain®.
Outer shielding Tinned copper braid, coverage approx. 90% optical.
Outer jacket PVC-based, low-adhesion blend, adapted to the requirements of the Energy Chain®.
UL/CSA cRUus: UL AWM style for USA & Canada: 2570 80°C 1000V
CEI CEI 20-20
CE Following 2006/95/EC
RoHS 2002/95/EC; Please reference the Design Section for more information
Cleanroom According to ISO Class 2. Tested by IPA according to standard 14644-1. Test cable CF5-10-07.
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