Engineered and manufactured by BEGE Power Transmission, a leader in advanced drive and automation solutions, this MIG Nova+ incremental encoder stands out with its robust construction and precision signal output, making it an ideal choice for demanding industrial environments.

High-precision incremental encoder providing 512 pulses per revolution for accurate speed and direction feedback in a wide range of automation and motion control applications.

Enhanced signal stability and high resolution ensure superior performance in advanced control systems, supporting reliable real-time feedback for fine-tuned processes.

Output with A90°B / A'90°B' HTL/TTL signals offers compatibility with state-of-the-art controllers and PLCs, enabling seamless integration in both new and existing setups.

Wide input voltage range (5–24VDC) enables flexible installation across multiple platforms and adaptations to diverse automation environments.

Sturdy aluminium housing paired with IP55/IP67 protection ensures excellent resistance against dust, water, and harsh operating conditions, making it suitable for both indoor and outdoor applications.

Compact design featuring an 80 mm outer flange diameter and 7 mm flange thickness, following IEC 56B14 and BCD 65 mm norms, offers straightforward retrofitting and compatibility with standardized motor flanges.

9 mm solid shaft guarantees stable mechanical coupling and minimal backlash, contributing to the overall accuracy and longevity of the encoder system.

Supplied with a 10-meter cable for flexible remote mounting, suitable for machine and plant setups requiring extended reach and easy connection.

Typical applications include: conveyor systems, packaging machinery, automated assembly lines, robotic position feedback, and motor speed regulation.

Unlike the MIG Basic (entry-level incremental encoder) and the MIG AST (absolute encoder for precise position retention), the MIG Nova+ excels in providing enhanced measurement accuracy, signal stability, and adaptability for industrial specialists and engineers seeking higher-level performance in control systems.