Produced by BEGE Power Transmission, a renowned manufacturer specializing in robust and precise drive components for industrial automation, the BEGE MIG Nova+ Flanged Encoder is engineered to excel in demanding applications.

The MIG Nova+ is an incremental encoder featuring high resolution (256 pulses per channel), ensuring enhanced signal stability for precise speed and position feedback in advanced automated systems.

Constructed from premium aluminium, this encoder offers exceptional strength while maintaining low weight, contributing to extended operational life and corrosion resistance in harsh environments.

The large flange (outer diameter 250mm, BCD 215mm, flange thickness 12mm) and 28mm shaft diameter are compatible with IEC 100/112B5 motors, permitting easy mounting on industrial motor drives and reducing installation time.

Designed with dual IP55/IP67 protection, the encoder is highly resistant to dust and water ingress, making it ideal for both indoor and demanding outdoor applications.

The 5-meter cable ensures flexible installation possibilities, enabling convenient connectivity in complex machinery layouts.

Wide input voltage (5-24VDC) allows seamless integration into a variety of control systems, whether utilizing HTL or TTL output formats (A90°B / A'90°B').

Signal accuracy and reliability make the MIG Nova+ suitable for precision regulation in conveyors, packaging machinery, automated production lines, and robotics.

Benefits include high-resolution speed regulation, improved production accuracy, minimized downtime, and optimal system controllability.
**Application comparison of BEGE encoders:**
MIG Basic: Designed as an incremental encoder for essential speed feedback in standard automation tasks, ensuring basic yet reliable performance.

MIG Nova+: Provides incremental high-resolution feedback and improved signal stability, ideal for precise automation requirements and dynamic motion control.

MIG AST: Functions as an absolute encoder that retains exact position after power loss, supporting precise positioning in advanced automation and control systems.