• Manufacturer: BEGE is a renowned European producer known for its robust and high-performance motion control and drive technology solutions, widely respected for their reliability and innovative engineering in industrial automation.

• Product Type: The MIG Basic is an incremental encoder designed for essential speed feedback in standard automation tasks, providing reliable and accurate monitoring of shaft rotation in various drive systems.

• Key Features: Features a robust stainless steel housing, ensuring durability and long life even in harsh environments, maintaining high resistance to corrosion and mechanical damage.

• High Protection: With dual sealing (IP55 / IP67), the encoder delivers reliable operation in dusty and wet industrial settings, ideally suited for both indoor and outdoor applications.

• Flange and Shaft Design: Equipped with a 90mm external diameter flange (BCD 75mm, 7mm thick), and an 11mm solid shaft, allowing intuitive integration with IEC 63B14 motors for easy retrofitting and mechanical compatibility.

• Signal Output: Provides 4 pulses per channel (A 90° B HTL output), supporting basic automated control, speed feedback, and alarm applications, especially in conveyors, pumps, and basic robotics.

• Versatile Connectivity: Supplied with a robust 5-meter cable, simplifying installation in expansive or hard-to-reach control cabinets.

• Electrical Parameters: Operates at 5-24VDC input, ensuring compatibility with a wide range of PLCs and controllers in industrial environments.

• MIG Basic Applications: Ideal for general speed monitoring, basic feedback, and automation in material handling, packaging lines, and simple industrial machinery, where robust and cost-efficient solutions are required.
--- Other BEGE Encoder Types:
• MIG Nova+: High-resolution incremental encoder delivering superior signal stability, designed for more precise speed or position control in advanced automated systems such as robotics, CNC machinery, and dynamic motor control.

• MIG AST: Absolute encoder preserving position data during power loss, enabling advanced positioning and failsafe operations in precision automation, robotics, and state-of-the-art motion control strategies.