Material:High-quality, durable, and flexible conductive material
Length:15 meters
Conductor Type:Coated copper wire
Insulation Material:Teflon for superior electrical insulation and temperature resistance
Sheath:Heat-resistant and abrasion-resistant rubber sheath
Operating Temperature Range:-40°C to +125°C
Voltage Rating:Up to 400V
Current Capacity:Suitable for up to 50A
IP Rating:IP67 for dustproof and waterproof protection
The ABB 3HAC021738-002 process cable is a critical component in industrial robotic systems, engineered to withstand the demanding environments typically encountered in manufacturing processes. Its design incorporates a high-grade flexible conductive polymer that ensures both durability and flexibility, allowing for precise and efficient power transmission to stat guns and other equipment.
Featuring a robust heat-resistant and chemical-resistant insulation layer, this cable is capable of maintaining its integrity in extreme temperatures ranging from -40°C to +85°C, making it ideal for use in various industrial settings. Its construction supports high-frequency current transmission, essential for the reliable operation of modern robotic systems.
With a voltage rating of up to 450V, the ABB 3HAC021738-002 cable is suitable for a wide range of applications, ensuring safety and efficiency. Moreover, it has been rigorously tested and certified according to CE, UL, and ISO 9001 standards, providing peace of mind to users regarding its quality and safety.
Installation of the ABB 3HAC021738-002 cable is straightforward and compatible with most industrial robotic setups due to its standard connector types and dimensions. Its 15-meter length offers flexibility for various installation scenarios, minimizing the need for additional cabling or adapters.
For maintenance and repair, the ABB 3HAC021738-002 cable benefits from easy replacement procedures, thanks to its standardized design. This ensures minimal downtime and maintains optimal operational conditions for robotic systems, contributing to overall productivity and efficiency in manufacturing environments.
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