NEBU-M8G3-K-2.5-LE3 | Industrial-Grade Sensor Cable for

NEBU-M8G3-K-2.5-LE3 | High-Quality Sensor Cable for Industrial Applications Overview The NEBU-M8G3-K-2.5-LE3 is a premium-quality sensor cable designed for robust connectivity in industrial automation systems. With an M8 connector, 2.5-meter cable length, and high durability, this cable ensures stable signal transmission, reliable power delivery, and seamless integration into various automation setups. Key Features Cable Type: Industrial sensor cable Connector Type: M8, 3-pin Cable Length: 2.5 meters for flexible installation Material: Durable insulation for long-term industrial use Signal Transmission: Reliable and interference-resistant design Protection Rating: Engineered to withstand harsh environments Mounting Compatibility: Ideal for automation, robotics, and pneumatic systems Application: Suitable for sensors, actuators, and industrial equipment Technical Specifications Connector Format: M8, 3-pin configuration Cable Length: 2.5 meters Operating Voltage: Optimized for automation power and signal transmission Shielding: Designed to reduce electromagnetic interference Durability: Resistant to industrial wear and tear Operating Temperature Range: Engineered for extreme conditions Sealing Standard: High protection against dust, moisture, and contaminants Applications Factory Automation: Reliable connectivity for sensors and actuators Robotics: Ensures stable signal transmission for robotic systems Pneumatic & Hydraulic Systems: Supports data and power transfer in automation setups Machine Interfaces: Enhances connectivity in industrial control systems Why Choose the NEBU-M8G3-K-2.5-LE3? Secure and reliable M8 connection for industrial automation 2.5-meter length for flexible installation in tight spaces High durability and resistance to industrial conditions Optimized signal transmission for automation systems Order Now Ensure stable and reliable connections in your automation system with the NEBU-M8G3-K-2.5-LE3 sensor cable. Designed for industrial applications requiring durability, flexibility, and high-performance signal integrity.