The BEGE brand stands for Dutch, high-quality, and reliable power transmission solutions for industrial automation, specializing in robust drive components that meet demanding engineering and industry standards.

The MIG Nova+ is an incremental encoder with high resolution and enhanced signal stability, engineered for precise speed and position feedback in sophisticated automated systems.

Outer flange diameter of 160mm and shaft diameter of 28mm ensures perfect compatibility with industrial motors and machineries requiring IEC 100/112B14 standard mounting.

Equipped with a 130mm BCD and 9mm thick flange for secure and stable installation in harsh industrial environments.

Stainless steel housing provides excellent durability, high corrosion resistance, and ensures reliable operation in both indoor and outdoor or aggressive conditions.

IP55/IP67 classification protects against dust and heavy water jets or temporary immersion, making it suitable for demanding and washdown applications in the food processing, pharmaceutical, or chemical industry.

Delivers 128 pulses per channel for precise velocity and position monitoring, essential for accurate motor control in automation, robotics, and conveyor systems.

Output signals include A90°B / A’90°B’ (HTL/TTL), enabling compatibility with a broad range of control systems and simplifying integration into existing automation platforms.

Wide input voltage range (5–24VDC) for flexible connection to a variety of PLCs, drives, and controllers.

Up to 100 meter cable length allows seamless integration into large-scale installations without the need for signal boosters, ideal for extensive production lines and logistics systems.

Perfect for industrial specialists requiring high signal stability, reduced downtime, and secure feedback for safety-critical or precise dynamic applications such as CNC machining, packing automation, and smart manufacturing.

In summary, the BEGE MIG Nova+ offers superior performance, robust construction, and versatile integration options, contributing to more reliable, accurate, and efficient industrial automation systems.