The BEGE MIG Nova+ is a high-resolution incremental flange encoder designed for demanding industrial automation applications, ensuring enhanced signal stability and superior precision in speed and position feedback.

**Brand/Manufacturer Description:** BEGE Power Transmission is a renowned European manufacturer specializing in innovative drive technology solutions for industrial automation, known for their reliable and precision-engineered encoders and transmission components.

**Key Features and Benefits:**

High-Resolution Incremental Measurement: Delivers precise speed and position feedback, ideal for automated control systems requiring fine regulation and high performance.

Enhanced Signal Stability: Advanced electronics minimize interference and signal drift, ensuring consistent data for critical process control and automation reliability.

Versatile Output Signals: Supports A90°B / A'90°B' HTL/TTL outputs, offering flexible integration with a wide range of PLCs, controllers, and drives.

Industrial-Grade Aluminium Housing: Robust, lightweight enclosure provides mechanical durability and excellent resistance to harsh environments, enhancing lifespan and uptime.

Dual IP Classification (IP55/IP67): Ensures protection against dust ingress and water (washdown environments), suitable for challenging industrial sectors such as food, packaging, and material handling.

Standardized Mounting Dimensions: Flange diameter Ø250mm, BCD 215mm, shaft 42mm, and compatibility with IEC 160B14 motors for straightforward retrofit and OEM applications.

2-Meter Industrial Cable: Pre-installed for convenient and reliable installation, reducing setup time and risks of transmission errors.

Low Pulse Count (8 pulses/revolution): Suited for drive systems and applications where basic yet stable speed feedback is essential without unnecessary data overload.

**Applications:**

- Optimized for automated production lines, conveyor systems, packaging machinery, robotic arms, and speed feedback in industrial motors.

- Ideal for integration in applications demanding precise control, diagnostic feedback, or synchronization between multiple processes.