Produced by BEGE Power Transmission, a well-established Dutch manufacturer known for high-quality, reliable motion control solutions for industrial automation and machine construction.

Incremental encoder with high resolution and enhanced signal stability, making it ideal for applications requiring precise regulation and feedback in automated systems.

High resolution: Provides 64 pulses per revolution per channel, delivering accurate speed and position feedback for demanding controls.

Advanced signal stability: Designed to minimize electrical noise and interference, ensuring reliable data transmission even in electromagnetically complex environments.

Durable construction: Made with a robust stainless steel housing that resists corrosion and wear, suitable for harsh industrial environments.

Flexible output: Supports A90°B / A'90°B' signals with both HTL and TTL output options, ensuring compatibility with a wide range of control systems.

Wide voltage input: Operates with 5-24VDC, offering versatility to match diverse power supply specifications.

Long-range connectivity: 100-meter cable length enables installation over extended distances without signal loss, perfect for large scale or distributed systems.

High ingress protection: Rated IP55/IP67 for excellent resistance to dust, water, and moisture, ideal for demanding industrial settings.

Mechanical adaptability: Features a 120mm outer flange diameter with 100mm BCD and a 9mm shaft, designed for IEC 56B5 motor standard compatibility.

Precision flange thickness of 7mm provides secure, vibration-resistant mounting, critical for stable performance in high-speed or heavy-duty operations.

Typical industry uses: Automated production lines, packaging machines, robotics, conveyor systems, and material handling where precise motion feedback and reliability are paramount.

Advantages over MIG Basic: Higher resolution for enhanced control; superior to standard incremental encoders in applications requiring improved accuracy.

Compared to MIG AST: Ideal for applications not requiring absolute positioning but needing high pulse count and stable incremental feedback.