The BEGE MIG Nova+ is a high-resolution incremental encoder, designed to deliver superior signal stability and precision feedback for advanced automation applications.

Brand Description: BEGE is renowned for high-quality industrial automation components, engineered to guarantee reliability, optimised performance, and seamless integration in demanding environments.

High-Resolution Feedback: 1024 pulses per revolution on each channel enable precise speed and position monitoring, ensuring accurate control even in dynamic applications.

Advanced Signal Stability: Enhanced electronics provide stable, noise-resistant signals (HTL/TTL), minimising errors and increasing reliability in environments exposed to electrical interference.

Robust Aluminium Construction: Durable lightweight aluminium housing with an IP55/IP67 rating ensures long-term resistance to dust, moisture, and mechanical impact, making it suitable for harsh industrial settings.

Flexible Integration: Compatible with IEC 80B5 motors, a 200mm outer flange diameter, and a 19mm shaft diameter, allowing fast installation on a wide variety of drive systems.

Versatile Output: Supports A90°B/A'90°B' HTL/TTL outputs, allowing easy adaptation to diverse control and automation architectures.

Extended Installation Range: 15 metre cable length allows service-friendly mounting, supporting installations where the encoder is far from the control cabinet.

Wide Voltage Input: Operates on 5-24VDC, supporting integration with most modern control and PLC systems.

Applications: Ideal for conveyor systems, robotics, packaging machinery, and position feedback in automated manufacturing plants where increased precision and signal integrity are critical.

BEGE MIG Encoder Type Comparison: • MIG Basic: An incremental encoder for essential speed feedback in standard automation tasks. • MIG Nova+: A high-resolution incremental encoder with enhanced signal stability for more precise regulation in automated systems. • MIG AST: An absolute encoder that retains positional data after power loss, designed for high-precision positioning and advanced motion control.