Manufactured by BEGE, a renowned Dutch brand specializing in innovative drive technology and high-precision automation components, recognized for reliability, rigorous quality controls, and industrial-grade solutions across demanding sectors.

**Incremental Encoder for Basic Speed Feedback:** The MIG Basic is an incremental encoder engineered for fundamental speed feedback within standard automation tasks, providing dependable performance in various industrial environments.

**Flange Diameter 200 mm, BCD 165 mm:** Its robust aluminum flange (Ø200 mm, BCD 165 mm) ensures secure mounting and optimal integration with IEC 90B5 motors.

**Shaft Diameter 24 mm:** Designed to fit standard motor shafts for diverse compatibility across automation and drive systems.

**Output Signal: A90°B HTL:** Delivers clear, high-threshold output signals (HTL), supporting accurate incremental speed measurements at 8 pulses per revolution per channel.

**Power Supply 5-24VDC:** Wide input voltage range ensures universal integration in modern control panels and existing machine architectures.

**Rugged Construction, IP55/IP67 Protection:** The aluminum housing combined with IP55/IP67 classification provides resistance to dust, water, and harsh industrial conditions, enabling reliable operation in challenging environments.

**Long Cable Length (2 m):** Flexible installation options for a wide range of setups in factory automation, conveyors, and machine tools.

**Key Benefits:** Cost-effective feedback for speed monitoring, simple integration with PLCs or frequency inverters, low maintenance, and sturdy build suitable for repetitive operational cycles.

**Application Areas:** Perfect for basic speed monitoring, conveyor systems, packing machines, light-duty material handling, and standard industrial automation tasks where reliable incremental feedback is required.

For more advanced applications, BEGE also offers the MIG Nova+ (higher resolution and improved signal stability for precise speed control) and MIG AST (absolute encoder preserving position after power loss, ideal for high-end positioning and advanced control systems).