Produced by BEGE Power Transmission, a renowned Dutch manufacturer with a solid reputation for delivering robust, precision-engineered automation components designed for demanding industrial environments. BEGE’s encoders are trusted for their reliability, accuracy, and longevity.

Incremental Encoder with High Resolution – The MIG Nova+ model delivers 1024 pulses per revolution per channel, providing highly accurate speed and position feedback suitable for exacting automation tasks in manufacturing, packaging, logistics, and robotics.

Enhanced Signal Stability – This encoder features improved signal quality for reliable performance, even in challenging environments with electrical noise or long cable runs.

Stainless Steel Construction – The robust stainless steel housing resists corrosion, chemicals, and mechanical wear, ensuring long-term durability in food processing, marine, and heavy industry applications.

Wide Voltage Input (5-24VDC) – Flexible integration with various control systems and PLCs without the need for additional power conditioning.

Versatile Output Signals – A90°B / A'90°B' HTL/TTL outputs enable compatibility with most industry-standard controllers and advanced motion control systems.

Large Cable Length (100 meters) – Supports installation over long distances between the encoder and the control cabinet, ideal for conveyor belts, cranes, and remote machinery.

Precision Flange Mounting – Optimized for IEC 56B14 motors using a standard 80mm outer diameter flange for streamlined and secure installation.

Ingress Protection IP55/IP67 – Ensures reliable operation in dusty or wet environments due to high ingress protection ratings, suitable for outdoor and washdown applications.

Comparison of BEGE Encoder Models: • MIG Basic: Incremental encoder for basic speed feedback in standard automation tasks. • MIG Nova+: High-resolution incremental encoder with enhanced signal stability, ideal for precise control systems. • MIG AST: Absolute encoder that maintains position data after power loss, essential for advanced motion and positioning systems requiring persistent accuracy.