Manufacturer: BEGE Power Transmission is a renowned European producer specializing in innovative drive and automation solutions, recognized for their precision, reliability, and high-quality construction across industrial sectors.

**Key Product Features and Advantages:**

• High-Resolution Incremental Encoder: The MIG Nova+ provides enhanced signal stability and superior resolution (64 pulses per channel), making it ideal for applications requiring accurate speed measurement and precise regulation in automated systems.

• Robust Aluminium Housing: Its solid aluminium construction offers excellent resistance to corrosion and mechanical stress, ensuring reliability in demanding industrial environments.

• Versatile Output and Compatibility: Supporting both HTL and TTL output signals (A90°B / A’90°B’), compatible with standard motor IEC 71B5 interfaces, enabling flexible integration into a wide range of machine and process automation solutions.

• Wide Supply Input: Operates on 5–24VDC, facilitating integration with different industrial control systems and safety architectures.

• Extended Cable Reach: Supplied with a 5-meter shielded cable, it offers installation flexibility and ease of connectivity, even in large systems or when mounted remotely.

• Sealed for Harsh Environments: Rated at IP55/IP67 for ingress protection, the encoder is suitable for use in dusty or wet environments, typical of many industrial and manufacturing settings.

• Large Flange & Shaft Dimensions: With a 160mm outer flange, 130mm BCD, and 14mm shaft diameter, the encoder is engineered for robust coupling to high-performance drives and motors.

**Application Possibilities:**

• The MIG Nova+ is ideal for precise speed and position feedback in conveyor systems, servo drives, robotic arms, packaging machinery, textile machines, and heavy-duty production automation.

• The MIG Basic model offers incremental feedback for general automation and standard motor control applications.

• The MIG AST absolute encoder ensures accurate absolute positioning for advanced motion tasks, with positional memory retention after a power failure—crucial for high-precision and safety-sensitive environments.