Brand description: BEGE Power Transmission is a leading manufacturer of reliable, high-performance automation components, known for advanced technology and exceptional quality in the field of motion control solutions.

High Resolution Incremental Encoder: The MIG Nova+ is an incremental encoder with high resolution, delivering 256 pulses per channel for superior feedback accuracy during speed and position control in automated systems.

Advanced Signal Stability: Enhanced signal stability ensures precise, interference-free feedback, reducing errors in complex industrial environments.

Robust Aluminium Construction: The housing is made of durable aluminium, providing high mechanical strength and resistance to vibrations and harsh conditions.

Large Flange and Shaft Compatibility: Features a substantial flange diameter of 450mm and a 55mm shaft diameter, complying with IEC 225B5-Ø55 standards, suitable for integration with large industrial motors.

Flexible Electrical Interface: Accepts a wide input voltage range (5-24VDC) and supports both HTL and TTL signal outputs, allowing integration with diverse PLCs and controllers for versatile system compatibility.

Dual IP Ratings: Rated IP55/IP67 for robust protection against dust and water, this encoder is ideal for demanding environments requiring high ingress protection.

Industrial-Grade Cable: Comes with a 2-meter shielded cable, ensuring secure signal transmission over longer distances and simplifying installation in large machinery.

Typical Applications: Ideal for use in automated production lines, material handling systems, packaging machinery, drives, and conveyors requiring precise speed and position monitoring.

Advantages for Technical Specialists: MIG Nova+ enables precise closed-loop feedback, reduces downtime by enhancing reliability, and simplifies integration into advanced process control architectures.

Other MIG Encoder Types: MIG Basic provides essential incremental speed feedback for standard automation tasks. MIG AST is an absolute encoder, maintaining exact position data after power loss—optimal for complex positioning tasks and advanced control systems.