Manufactured by BEGE, a leading European provider of power transmission solutions, the MIG Nova+ incremental encoder ensures advanced feedback and robust performance for demanding industrial automation. Known for their technical innovation and superior build quality, BEGE products stand out in both longevity and reliability.

The MIG Nova+ is an incremental encoder featuring higher resolution and enhanced signal stability, making it ideal for precise motion regulation in complex automated systems.

Flange outer diameter of 250 mm and BCD of 215 mm, perfectly matching IEC 160B14 standard motors for versatile integration in a wide range of industry-standard machinery.

12 mm flange thickness and 42 mm shaft diameter ensure mechanical robustness, enabling stable mounting and minimal vibration for high-accuracy feedback.

100-meter cable length allows for flexible installation in large-scale automation environments without signal degradation.

Rugged stainless steel construction provides superior corrosion resistance, extending the encoder’s operational lifespan in harsh or corrosive industrial environments.

Dual output (A90°B / A’90°B’) in HTL/TTL standard supports seamless compatibility with advanced PLCs and motor controllers, optimizing feedback integration.

16 pulses per channel offer precise speed and direction feedback, suited for sophisticated automation tasks requiring responsive control.

Wide input voltage range (5-24VDC) enables compatibility with various control system architectures.

Ingress protection rating of IP55/IP67 ensures operational reliability in dusty and wet environments, supporting continuous uptime.

Main applications include conveyor systems, robotics, packaging machines, and any industrial automation task demanding stable, accurate movement feedback and long-term durability.

The MIG Nova+ is recommended where tighter motion control, improved feedback accuracy, and easy integration into advanced automation frameworks are required, supporting engineers and technical specialists in optimizing process efficiency.