Produced by BEGE, a renowned manufacturer with a long heritage of high-quality, reliable automation components for demanding industrial environments. BEGE is known for its precise engineering and robust solutions that enhance motion control and automation processes across industries.

The MIG Nova+ is an incremental encoder offering high resolution and superior signal stability, specifically designed for precise speed regulation and accuracy in automated systems.

Stainless steel construction provides exceptional corrosion resistance, supporting use in harsh or hygienic environments such as food, pharmaceutical, and marine industries.

Wide voltage input range (5-24VDC) ensures compatibility with diverse industrial control systems and simplifies integration into existing setups.

Output signals include A90°B/A'90°B' HTL/TTL, enabling flexible, reliable signal output formats suited for a broad array of PLCs, drives, and controllers.

Flange diameter of 200mm and BCD of 165mm with a 19mm shaft fits IEC 80B5 motors, offering straightforward mounting on standard industrial motors.

High environmental protection (IP55 / IP67) allows for installation in locations exposed to dust, water spray, and temporary immersion – ideal for process, packaging, and outdoor industries.

Supplied with a 2-meter cable, ensuring easy connection and versatile installation without additional wiring requirements.

Only 1 pulse per rotation per channel – suitable for low-resolution, robust feedback needs, such as detecting basic position or reference signals in heavy-duty applications.
**Use Case Differentiation:**
MIG Basic: Incremental encoder for basic speed feedback in standard automation, ideal for entry-level conveyor drives or simple motor monitoring.

MIG Nova+: Enhanced incremental encoder with higher resolution and improved signal stability, optimal for precision-driven automated production lines, packaging or robotics.

MIG AST: Absolute encoder retains its position after power loss, ensuring reliable and precise positioning in advanced systems such as CNC machines, robotic arms, and process automation where position memory is crucial.