Material:High-grade, durable cable jacket for long-lasting performance

Conductor Type:Cu, with high conductivity and excellent electrical properties

Insulation:PE insulation for superior electrical insulation and durability

Shielding:Twisted pair and foil shielding for enhanced signal integrity and noise reduction

Stranding:Optimized cable stranding for flexibility and easy installation

Connector Type:M8 screw-type connection for secure and reliable connections

Operating Temperature:-20°C to +70°C, ensuring reliability across various industrial conditions

Data Rate:Up to 100Mbps for efficient data transfer

Length:Available in multiple lengths to suit different application requirements

    The AB 1585J-M8CBJM-2 Ethernet Cable is specifically engineered for industrial automation systems, ensuring reliable and stable data transmission under harsh environmental conditions. This cable is made from high-quality, durable PVC material, which offers superior flexibility and resistance against wear and tear.

    Featuring an M8 threaded connector, it ensures a secure connection, ideal for applications requiring high vibration resistance. With a length of 2 meters, it provides the necessary reach for various setup scenarios without compromising on strength.

    Capable of delivering data at a speed of 100Mbps, this cable is optimized for real-time communication needs in industrial automation, enabling seamless operation and minimizing latency. It operates within a temperature range of -20°C to +60°C, making it suitable for use in diverse industrial settings.

    Fully shielded to protect against electromagnetic interference, this cable maintains signal integrity even in noisy environments. Its end connections are RJ45, facilitating compatibility with standard industrial Ethernet devices.

    The AB 1585J-M8CBJM-2 Ethernet Cable is certified to meet UL, CE, and RoHS standards, ensuring compliance with international safety and environmental regulations. It is a reliable choice for industrial applications seeking a balance between performance and safety.