The BEGE brand is renowned for high-quality drive technology and automation components, designed and manufactured in the Netherlands. BEGE encoders deliver precise feedback solutions with robust construction and outstanding reliability for industrial automation environments.
**Product Name:**
BEGE Flanged Encoder MIG Basic MB-105-14-0004-7, 4 pulses, 15m cable, aluminium
**Key Features and Benefits:**
Incremental encoder for basic speed feedback, ideal for standard automation tasks requiring simple, reliable monitoring of rotational movement.

Flange diameter of 105 mm and shaft diameter of 14 mm ensure compatibility with IEC 71B14 motors, supporting universal integration into drive systems.

High-quality aluminium housing provides excellent durability and corrosion resistance, making it suitable for demanding industrial environments.

Supplied with a 15-meter durable cable, enabling flexible installation and reliable signal transmission over long distances.

Dual IP classifications IP55/IP67 offer robust protection against dust, water jets, and temporary immersion, enhancing longevity and system reliability.

Works with a wide input voltage range (5-24 VDC), supporting diverse industrial control systems and simplified panel design.

A90°B HTL output ensures clear and accurate incremental feedback; essential for effective speed regulation in conveyors, pumps, and machine tools.

4 pulses per revolution per channel allow accurate basic speed detection, making it ideal for simple motion control applications.

Conforms with established IEC standards (IEC 71B14) and flange BCD 85 mm, guaranteeing ease of replacement and interoperability with existing systems.
**Application Possibilities:**
MIG Basic encoders are perfect for fundamental speed feedback in automated processes, such as conveyors, fans, and basic motor systems.

MIG Nova+ is suitable for more precise speed regulation and improved signal stability, optimizing accurate control in complex automation systems.

MIG AST absolute encoders maintain position information after power interruption, supporting advanced positioning and safety-critical applications, such as robotics and precision assembly.