Manufactured by BEGE Power Transmission, a renowned Dutch company specializing in reliable and innovative drive solutions for industrial automation. BEGE is known for its robust engineering, high quality, and advanced technology, trusted globally by engineers in demanding applications.

The MIG Nova+ is an incremental encoder with high resolution and enhanced signal stability, engineered for precise speed control in demanding automation environments.

Provides precise speed and rotational position feedback, ensuring highly accurate motor control and reducing error margins in automation systems.

Advanced HTL/TTL output with A90°B / A'90°B' channels for reliable and noise-immune signal transmission in industrial environments.

Two pulses per revolution per channel, suitable for applications requiring consistent, real-time movement tracking and improved motion measurement.

Maximum cable length of 100 m, enabling flexible installations in large machinery and automated production lines without signal loss.

Constructed of corrosion-resistant stainless steel, guaranteeing longevity, hygiene, and durability even in harsh and washdown environments.

Flange diameter 160mm (IEC 100/112B14 standard) and 28mm shaft, ensuring universal compatibility with a wide range of motor types and setups.

IP55/IP67 rating provides protection against dust and high-pressure water, supporting reliable operation in challenging industrial settings, such as food processing, chemical, and outdoor applications.

Ideal for use in robotics, conveyors, packaging machinery, textile machines, and any automation that demands stable, high-resolution speed feedback.

Perfect for applications where precise velocity or directional feedback boosts efficiency, process control, and product quality.
**Other BEGE Encoder Types:**
MIG Basic: Incremental encoder for basic speed feedback in standard automation tasks, offering straightforward integration and reliable performance for general motor control.

MIG AST: Absolute encoder retaining position after power loss, suitable for precise positioning and advanced motion control where system safety and repeatability are critical.