Produced by BEGE Power Transmission, a leading Dutch manufacturer renowned for high-quality drive technology and robust encoder solutions for industrial automation, the MIG Nova+ combines reliability with advanced performance.

The MIG Nova+ is an incremental rotary encoder engineered for precision feedback, designed for seamless integration into a wide range of automated machinery and drive systems.

High-resolution incremental output ensures accurate speed and position regulation, ideal for demanding tasks in both standard and advanced automation.

Enhanced signal stability with differential HTL/TTL A90°B / A’90°B’ output improves system reliability and reduces susceptibility to electrical noise in harsh industrial environments.

Rugged construction with a robust stainless-steel body delivers exceptional durability, corrosion resistance, and long service life, even under challenging operating conditions.

Compliance with IEC 80B5 and 200mm flange diameter with 165mm BCD enables compact, standardized mounting compatible with a wide array of motor sizes and applications.

Generous 5-meter cable length ensures installation flexibility, even across larger machinery or demanding layouts.

IP55 / IP67 classification protects against dust, water, and heavy-duty industrial contaminants, supporting reliable performance in wet, dusty, or demanding production settings.

Simple 2-pulses per channel encoder configuration is optimized for systems requiring clear, stable, and quick speed feedback.

Wide input voltage range (5–24VDC) maximizes compatibility with modern control systems and PLCs.

Typical industrial uses include: conveyor systems, packaging machines, robotics, material handling equipment, and factory automation solutions.

Choose the MIG Basic version for standard incremental speed feedback in basic automation tasks.

Select the MIG Nova+ for high-resolution, stable incremental signals where better precision and signal clarity are needed.

For advanced and fail-safe positioning, the MIG AST absolute encoder version retains positional data even after a power loss, preferred in precision positioning and complex motion control solutions.