BEGE Power Transmission is recognized for its innovation, reliability, and robust engineering solutions for the industrial automation sector. Their encoders are designed for demanding environments where precision and long-term durability are core requirements.

The MIG Nova+ is an incremental encoder with high resolution and enhanced signal stability, making it ideal for applications demanding more precise speed control and feedback in automated systems.

Constructed from high-grade stainless steel, this encoder is resilient against corrosion and aggressive industrial environments, ensuring long operational life even under harsh conditions.

A flange diameter of 250mm, 215mm flange BCD, and a robust 42mm solid shaft make this encoder compatible with IEC 160B14 motors and heavy-duty machinery setups.

The device provides a reliable output of 16 pulses per revolution per channel, ideal for accurate speed and direction monitoring in complex automation tasks.

Signal output features both HTL/TTL (A90°B / A'90°B'), supporting flexible integration into diverse control systems and high signal integrity for noise-sensitive applications.

Capable of operating with input voltages ranging from 5-24VDC, this encoder offers excellent adaptability for integration into new or retrofit systems.

The standard 2-meter cable allows easy installation in a wide range of industrial setups, reducing wiring complexity and installation time.

IP55/IP67 protection provides resistance to dust and strong water jets, ensuring reliable performance in demanding manufacturing, packaging, production line, or outdoor environments.

Flange thickness of 12mm and robust mounting design helps maintain stability in high-vibration and high-load applications, minimizing risk of signal loss or mechanical failure.

Typical use cases include conveyor speed monitoring, robotics, process automation, and servo motor feedback, where precise regulation and stable feedback are critical.

Choose the MIG Basic for standard speed feedback, the MIG Nova+ for higher precision and stability, and the MIG AST absolute encoder for applications requiring position memory after power loss and advanced control.