Manufactured by BEGE, a trusted brand with decades of experience in high-precision motion control technology for demanding industrial automation, ensuring consistent performance and robust engineering quality.

High-Resolution Incremental Encoder: The MIG Nova+ delivers 16 pulses per revolution per channel, providing superior signal stability and higher resolution for advanced speed and position control in automated systems.

Robust Aluminium Construction: Made with a durable aluminium housing for enhanced resistance against environmental wear, ensuring extended lifespan and reliability in harsh industrial settings.

IP55/IP67 Protection: Rated for dust and water ingress protection, making it suitable for challenging environments in mining, food processing, and heavy machinery industries.

Large 350mm Flange & 48mm Shaft Diameter: Compatible with IEC 180B5 flange standards, this encoder fits seamlessly with large motors and heavy-duty applications, supporting precise mechanical installation and alignment.

Long 10-Meter Cable: Pre-installed 10m cable allows for flexible mounting and easy integration into complex machine layouts, minimizing installation time for engineers.

Versatile Output Signals: Delivers A 90° B / A' 90° B' HTL/TTL outputs and supports a wide input range (5-24VDC), offering universal connectivity with diverse automation controllers and drives.

Broad Application Areas: Ideal for conveyor systems, robotics, CNC machinery, drive technology, and process automation where superior motion feedback and robust construction is paramount.

Encoder Type Options from BEGE:

MIG Basic: Incremental encoder for essential speed feedback in standard automation duties, perfect for general use cases.

MIG Nova+: Incremental encoder with enhanced resolution and signal quality for more stable, precise control in demanding automation and motion feedback applications.

MIG AST: Absolute encoder that retains position data after power loss, used in high-precision positioning and sophisticated control systems requiring absolute position reference.