Produced by BEGE, a leading Dutch manufacturer renowned for robust and high-performance drive technology, the MIG Nova+ encoder series is engineered for industrial reliability and accuracy in automated environments. BEGE’s focus on innovation, precision, and quality ensures long operational lifespan and minimal maintenance.

Incremental Encoder with High Resolution: The MIG Nova+ is an incremental encoder that delivers higher resolution (25 pulses per channel) and enhanced signal stability, providing superior feedback accuracy compared to standard models—ideal for demanding automation tasks that require precise speed and position control.

Excellent Signal Integrity: Thanks to its improved signal transmission (A90°B / A'90°B' HTL/TTL), the encoder ensures highly reliable and noise-immune output, optimizing system performance even in electrically noisy environments common to industrial automation.

Versatile Output & Compatibility: Supports HTL/TTL output signals and operates with a broad input voltage range (5-24V DC), making integration easy with various existing control systems and PLCs.

Industrial-Grade Construction: Manufactured from aluminium with a robust Ø90mm flange, 75mm bolt circle diameter (BCD), and 7mm flange thickness for enhanced mechanical stability and longevity in harsh environments.

Extended Cabling: Supplied with a 20-meter cable for increased installation flexibility in large machines and production lines.

High Protection Rating: With IP55/IP67 classifications, the encoder is effectively protected from dust, moisture, and temporary immersion, ensuring reliable operation in demanding industrial applications.

Precision Shaft Mounting: Features an 11mm shaft diameter and complies with IEC 63B14 motor standards, making it suitable for seamless integration into a wide range of automated drive systems.

Application Areas: Perfect for advanced speed and position feedback in robotics, conveyor systems, packaging machinery, textile equipment, and production automation—where accurate, high-frequency, and interference-immune signal feedback is essential.