The BEGE brand is internationally recognized for its reliable, innovative motion control solutions, focusing on European engineering excellence and robust design for industrial automation environments.

High-Resolution Incremental Encoder: The MIG Nova+ encoder functions as a high-resolution incremental encoder, delivering superior signal accuracy and stability. This makes it ideal for systems requiring precise speed and position feedback in demanding automation and production environments.

Enhanced Signal Stability: The improved signal-to-noise ratio ensures reliable and interference-free performance, facilitating seamless integration into sensitive and complex control architectures.

Robust Aluminium Construction: Manufactured with a high-grade aluminium housing, the encoder offers excellent mechanical strength and corrosion resistance, guaranteeing a long operational lifespan in harsh industrial settings.

Large Flange and High Compatibility: With an outer flange diameter of Ø120mm, BCD 100mm, 7mm flange thickness, and a 9mm shaft, the encoder fits standard IEC 56B5 motors and a wide range of industrial machinery.

Wide Voltage Range: Accepts supply voltages from 5 to 24VDC, increasing flexibility for integration with diverse control systems.

HTL/TTL A-B quadrature output: Provides A90°B / A’90°B’ pulse output, compatible with contemporary motion controllers and PLCs for high-fidelity feedback.

32 Pulses per Revolution Per Channel: Ideal for applications requiring consistent feedback at moderate resolution, such as conveyors, automated assembly lines, and packaging machines.

20 Meter Cable Length: Allows for installation flexibility in large systems without signal degradation or connectivity issues.

IP55 / IP67 Protection: Engineered for reliability in environments with dust or water exposure, supporting deployment in both indoor and outdoor locations.

Application Scope: The MIG Nova+ encoder is perfect for precise velocity and position monitoring in manufacturing automation, material handling, robotics, and process control systems where consistent, noise-immune feedback is critical.