Underwater Cable

Underwater Ethernet Cables

Underwater Fiber Optic Hybrid Cable

Underwater Video Cables

Underwater Instrumentation Cable

Robotic Pool Cleaner Cable

Marine Power Control Cable

Push-Rod & Robotic Crawler Cable

Submarine Cables For Fish Farming

Underwater Connector

Micro Circular Series

Nuts & washers & Locking sleeve

ROV Tether & Umbilical

ROV SIGNAL TYPE TETHER

ROV POWER TYPE CABLE

ROV Hybrid POWER & SIGNAL Cable

Rov Pipe Hybrid Cable

ROV Fiber Optic hybrid cable

Rov Ethernet Hybrid Cable

ROV VIDEO HYBRID CABLE

Diving Umbilical Connector

Diver Communication Cable

Diver CCTV Cables

Diver Umbilicals

Diving Connector-RMG/RMK

Drum & Reeling &Crane Cable

Drum & Reeling Cable

Crane, Conveyor, Lift Cables

Robot Cable

Servo Cable

CanBus Cable

OCT Cable

Encoder & Resolver Cable

Flexible Cable

Single core power cables

Power Multi-core Control cables

Control Signal Cable

Extra flexible cables

Welding Cables

Automotive & Marine Cable

Trailer Cable

Submersible Cables

Industrial Cable

PVC Insulated Single Core Wire

PVC Sheathed Wires

Rubber Cables

Special cable

Ultra Flexible High Flex Cable | PUR Sheath Class 6 Industrial Continuous Flex

Ultra flexible high flex cable with PUR sheath and Class 6 fine-stranded conductors. Oil resistant, continuous flex rated for drag chain and robotic applications. 300V or 0.6/1kV.

Ultra Flexible High Flex Cable

This is a ultra flexible high flex cable — PUR sheath with Class 6 extremely fine-stranded conductors for maximum flexibility and oil resistance in the most demanding continuous flex applications. Industrial control and signal cables form the nervous system of automated manufacturing — carrying the digital commands, analogue measurements, and safety signals that allow PLCs, drives, and safety systems to monitor and control every aspect of the production process. Cable selection directly affects system reliability: the wrong cable in a high-EMI environment causes spurious faults; undersized conductors cause voltage drop errors on analogue signals; non-oil-resistant sheaths fail prematurely in machine tool environments.

Available in a wide range of core counts (2–37 cores) and cross-sections (0.14–1.5mm²), these cables are stocked in standard configurations and available cut to length for OEM and panel building applications.

Key Design Features

Rated voltage: 300V (or 0.6/1kV where specified)

Colour-coded cores per IEC 60757 for identification

Fine-stranded or Class 6 copper conductors

PVC, PUR, or LSZH sheath options

Shielding: unshielded, overall braid, or per-pair foil (variant dependent)

Core count: 2 – 37 cores

Cross-sections: 0.14 – 1.5 mm²

Temperature range: −20°C to +80°C (compound dependent)

Parameter

Value

Rated Voltage

300V (0.6/1kV where specified)

Test Voltage

1.5 kV (1 min)

Conductor

Fine-stranded or Class 6 Cu

Core Count

2 – 37 cores

Cross-Sections

0.14 – 1.5 mm²

Temp Range

−20°C to +80°C

Flame

IEC 60332-1

Industrial Control Cable Selection Guide

Match Shielding to Signal Type

Digital 24V DC signals tolerate significant induced noise and can use unshielded cables in most environments. Analogue 4–20mA signals, thermocouple wires, and high-resolution encoder signals require individually screened twisted pairs to maintain signal accuracy across long cable runs in noisy environments.

Match Sheath to Environment

PVC sheath is adequate for clean, dry control panel environments. PUR sheath is required wherever the cable contacts oils, coolants, or cleaning chemicals — machine tools, food processing, and automotive manufacturing. LSZH is required in enclosed public buildings, offshore installations, and any location where fire safety codes mandate halogen-free materials.

Core Count — Plan for Spares

Always specify at least 10–15% spare cores in multicore control cables. Adding a cable run after commissioning is expensive and disruptive; spare cores cost almost nothing in the original installation and are invaluable when control system modifications are required later.