BEGE Power Transmission is a renowned manufacturer of high-quality automation components for industrial drive applications, known for robust engineering and reliable performance in harsh environments.

The MIG Nova+ is an incremental encoder with higher resolution and enhanced signal stability, making it ideal for accurate speed feedback and precise closed-loop control in automated systems.

Constructed with a durable stainless steel housing, the encoder offers superior corrosion resistance, suitable for demanding industrial environments and applications requiring hygienic designs.

The robust IP55 / IP67 enclosure secures reliable operation against dust and water ingress, enabling trusted usage in both dry and wet environments.

The encoder provides dual HTL/TTL output signals (A90°B / A'90°B'), ensuring compatibility with a wide range of control systems and flexible integration in automation architectures.

Designed with a Ø120mm flange and 100mm BCD, the encoder fits perfectly with IEC 56B5 motors and standardized mounting, simplifying retrofit or OEM integration.

The 9mm shaft diameter and 7mm flange thickness afford mechanical stability, reducing vibration for consistent signal accuracy even during dynamic operation.

Operates on 5-24VDC input, supporting compatibility with various industrial power supplies and controller systems.

Features two pulses per revolution per channel, sufficient for fundamental and advanced motion monitoring and feedback tasks.

Supplied with a 2-meter cable, the encoder provides flexible installation options and facilitates straightforward electrical connections.

Typical applications include precision speed regulation in conveyor systems, robotics, packaging machinery, textile machines, and automation lines where high signal reliability is critical.

MIG Nova+ stands as a middle-ground solution between basic incremental encoders like MIG Basic (for essential speed feedback in standard automation) and the MIG AST absolute encoder (where absolute positioning and retention after power loss are needed for advanced control systems).