Produced by BEGE, a renowned Dutch manufacturer known for high-precision drive technology solutions, the MIG Nova+ encoder series stands out for its innovation, reliability, and robust performance tailored for demanding industrial environments.

Incremental Encoder with High Resolution: The MIG Nova+ is an incremental encoder, providing highly accurate speed feedback, ideal for precision control in automated systems.

Enhanced Signal Stability: Advanced electronics ensure improved signal integrity, making this encoder optimal for applications requiring consistent and reliable measurement data, such as robotics and packaging lines.

Robust Aluminium Construction: Constructed with a durable aluminium housing, the encoder offers resistance to mechanical stress, making it suitable for harsh and demanding production environments.

Wide Voltage Input Range: Supports 5–24VDC input for easy integration with various industrial control systems.

A90°B HTL Output: Delivers quadrature output signals for flexible interfacing with motion controllers and PLCs, supporting efficient direction detection and positioning tasks.

IP55 / IP67 Protection: High ingress protection rating ensures reliable performance under exposure to dust, moisture, and washdown conditions – perfect for food processing, automotive, and material handling sectors.

Large Flange & Shaft Compatibility: Designed with a 160mm outer flange diameter and 14mm shaft diameter per IEC 71B5 norm, providing seamless compatibility with industrial gearmotors and drive systems.

Easy Installation: Comes with a 4P connector and 5-meter cable for straightforward plug-and-play connection.

Application Areas: The MIG Nova+ is ideal for precision regulation in conveyors, automated storage systems, packaging machinery, and process automation, where exact speed and position data are critical.

Comparison with Other BEGE Encoder Types:

- MIG Basic: Standard incremental encoder for basic speed feedback in general automation tasks.

- MIG AST: Absolute encoder that retains position data after power loss, enabling precise positioning in advanced motion control systems.