The BEGE Flanged Encoder MIG Basic is a robust incremental encoder designed for essential speed feedback in standard automation tasks. Manufactured by BEGE Power Transmission, a renowned European producer recognized for its durable, precise, and high-quality motion control solutions, this encoder ensures dependable performance in industrial environments.

Incremental encoder delivers reliable basic speed feedback for standard automation applications, supporting consistent machine operation and control.

Constructed from high-grade aluminium, resulting in a lightweight yet highly durable design ideal for demanding industrial settings.

Large Ø200mm flange and 165mm BCD (Bolt Circle Diameter) ensure easy integration with IEC 80B5 motors and compatibility with a wide range of drive systems.

Shaft diameter of 19mm allows for robust mounting, decreasing vibration and maximizing service life in high-load conditions.

IP55 / IP67 protection makes this encoder suitable for use in environments exposed to dust, water, or harsh operational conditions, ensuring long-term reliability.

2-meter integrated cable simplifies installation and provides reliable connection in control cabinets and automated machinery.

Input voltage range (5–24V DC) supports compatibility with most industrial control systems and PLCs, suitable for retrofit or new installations.

Output: A 90° B (HTL), enables accurate quadrature pulse detection, essential for basic direction and speed control in many motor and conveyor applications.

4 pulses per revolution for efficient feedback in applications where high pulse count is unnecessary, reducing system complexity and costs.

Key applications: conveyor belt systems, packaging machines, simple robotic movements, and standard factory automation where easy-to-integrate, reliable speed feedback is required.

**Other BEGE Encoder Types:**

MIG Nova+: High-resolution incremental encoder with improved signal stability for precise regulation and demanding automated systems.

MIG AST: Absolute encoder that maintains position after power loss, ideal for advanced positioning tasks and sophisticated motion control architectures.