The BEGE MIG Nova+ is a high-precision incremental encoder designed for demanding industrial automation environments, offering superior signal stability and robust construction suitable for technical specialists and engineers seeking reliable feedback solutions.

Brand/Manufacturer: BEGE is a renowned Dutch manufacturer recognized for high-quality, innovative drive components tailored for industrial automation and motion control applications.

Product Type: Incremental encoder with enhanced resolution and signal stability, ideal for precision control in automated systems.

High Resolution: Provides 256 pulses per revolution per channel, enabling accurate speed and position feedback for optimized process control.

Signal Quality: Features advanced HTL/TTL A/B A’/B’ outputs with 90° phase separation for improved signal clarity and minimized errors, essential in dynamic automation processes.

Stainless Steel Construction: Entire housing is made from premium stainless steel, ensuring exceptional corrosion resistance and mechanical durability in harsh or washdown environments, including food processing or chemical industries.

Robust Environmental Protection: Available with IP55/IP67 classification for superior protection against dust and water, guaranteeing long-term reliable operation in demanding industrial settings.

Installation Versatility: Engineered for easy integration with a 120mm flange outside diameter, BCD 100mm, 7mm flange thickness, and 9mm shaft diameter, complying with IEC 56B5 standards for universal compatibility with motor assemblies.

Flexible Power Input: Supports wide input voltage range (5–24VDC), allowing seamless adaptation to various industrial controllers and PLCs.

Extended Cable Length: Supplied with 5-meter cable for flexible installation even in larger machines or remote locations.

Key Applications: Suitable for automated production lines, conveyor systems, robotics, and precision speed regulation in automotive, packaging, and material handling industries.

Benefits: Delivers stable and accurate feedback, reduces downtime, enhances control accuracy, and ensures reliable operation in challenging environments.