Produced by BEGE Power Transmission, a renowned manufacturer with decades of experience in innovative industrial automation solutions, ensuring reliability and precision for demanding engineering requirements.

Incremental encoder with high resolution (128 pulses per channel) for precise speed and position feedback in advanced automated systems, supporting accurate motion control and dynamic regulation.

Enhanced signal stability with A90°B / A'90°B' HTL/TTL output, minimizing electrical noise and ensuring consistent performance, ideal for high-speed and sensitive applications.

Wide supply voltage range (5–24VDC) provides flexible integration with various control systems and PLC platforms, increasing compatibility across numerous industrial environments.

Robust aluminium housing with outer flange diameter of 450mm and BCD of 400mm ensures excellent mechanical durability and easy adaptation to standard IEC 225B5-Ø55 motors.

Shaft diameter of 55mm and flange thickness of 15mm allow for secure mounting and straightforward mechanical integration in heavy-duty industrial drives and actuators.

Long 10-meter cable supports flexible installation even in large-scale machinery and factory layouts, reducing the need for extension boxes and connectors.

High IP55/IP67 protection class guarantees reliable operation in environments exposed to dust, water splash, and occasional immersion, maximizing machine uptime in harsh conditions.

Typical applications include conveyor drives, robotics, material handling systems, packaging machinery, and automated production lines where precision and reliability are crucial.
**Encoder types from BEGE:**
MIG Basic: Incremental encoder for basic speed feedback in standard automation tasks, offering cost-effective and reliable performance for general industrial use.

MIG Nova+: Incremental encoder with higher resolution and enhanced signal stability, ensuring precise control and improved feedback in sophisticated automated systems.

MIG AST: Absolute encoder retaining position after power loss, ideal for advanced control systems and applications requiring precise positioning and safety-critical feedback.