**Manufacturer Overview:** BEGE Power Transmission is a renowned manufacturer specializing in innovative drive technology components for industrial automation. Their encoders are known for reliability, precision, and robust construction, making them ideal for demanding environments.

**MIG Basic – Incremental Encoder for Speed Feedback** • Incremental encoder ideal for basic speed feedback in standard automation applications, enabling straightforward monitoring and control tasks for industries such as material handling, conveying, and packaging.
• Offers 1 pulse per channel per revolution, simplifying integration into standard frequency inverters and PLCs for reliable rotational speed monitoring.
• Output signal is A90°B HTL, supporting high immunity against electrical noise, and allowing secure transmission of speed information over long cable distances.
• Input voltage range of 5–24V DC provides versatility for integration into various industrial control systems.
• Robust aluminium housing ensures long life and corrosion resistance, even in harsh industrial conditions.
• IP55/IP67 protection offers excellent resistance to dust and water ingress, permitting installation in demanding and exposed environments.
• Large 90mm flange diameter and 75mm bolt circle (BCD) ensure compatibility with IEC standard 63B14 motors for easy mounting.
• 11mm shaft diameter fits a wide range of drive shafts for flexible installation.
• Extended 10-meter cable length facilitates placement across large machinery or control cabinets.

**Application Possibilities** • Perfect for OEMs and system integrators who require robust, basic speed feedback for conveyors, fans, pumps, and simple automation systems.
• Suitable for upgrades and retrofits in existing installations due to standard-compliant mounting dimensions and signal outputs.
**For advanced requirements, BEGE offers the MIG Nova+ incremental encoder for higher resolution and improved signal stability, and the MIG AST absolute encoder for applications needing precise positioning retention after power loss, such as advanced robotics and motion control systems.**