Our crane cables are designed to provide reliable and efficient power and control to cranes of all types and sizes. We offer a range of solutions, including power cables, control cables, and data cables.
Our power cables are designed to provide the necessary power to operate the crane, while our control cables are used to control the movement of the crane. Our data cables are used to transmit information between the crane and the control room.
We understand the urgency of getting your crane back up and running as quickly as possible. That’s why we offer fast delivery of crane cables to minimize downtime and maximize productivity.
Flat cables distribute the mechanical load over the total width of the cable, improving heat dissipation and eliminating the need for large conductors. Unlike conventional round wire cables, they do not require redundant insulating materials, fillers, and tapes. Because the conductor spacing is fixed and the geometry is constant, electrical characteristics such as impedance, capacitance, time delay, cross talk, and attenuation remain constant
When selecting flat cables, it is important to consider specifications related to conductors, insulation material, pitch and cable shielding
Conductor-related specifications include material, size, and number of conductors
• Neoprene
• Polyethylene (PE)
• Polypropylene
• Polyvinyl Chloride (PVC)
• Silicon Rubber
Round cables are designed to maximize space within the smallest cross-sectional area required. This allows round cables to fit in most panel or machine openings
The four main types of mechanical stress placed on cables are rolling flex, torsion, tic-toc, and S-bend. Round cables can withstand all of them due to their natural ability to move in multiple axes at once
Round cables are designed to maximize space within the smallest cross-sectional area required. This allows round cables to fit in most panel or machine openings
The four main types of mechanical stress placed on cables are rolling flex, torsion, tic-toc, and S-bend. Round cables can withstand all of them due to their natural ability to move in multiple axes at once