Product Description

The 0AC401.9 converter encoder module, designed and manufactured by B&R, is an essential component for applications requiring precise signal conversion and compatibility with various encoder types. This versatile converter encoder module operates with an input voltage range of 5V - 24V and provides consistent output signals of 24V. It excels in converting 5V differential signals to 24V signals, making it suitable for both absolute and incremental encoders. Constructed with industrial-grade materials, this module ensures durability and reliability in demanding industrial environments. Additionally, its standard module size allows for easy integration into existing systems.

Designed for flexibility, the 0AC401.9 module features multiple mounting options, including panel and DIN rail mounting, facilitating straightforward installation. The external power supply further enhances its adaptability to various power configurations. This module operates efficiently within a temperature range of 0 to 55 degrees C and can be stored safely between -20 to 70 degrees C. It also boasts a high degree of protection per EN 60529 (IP20), ensuring robust performance in diverse operating conditions. The module supports horizontal and vertical mounting orientations, providing additional installation versatility. Moreover, it maintains optimal performance in environments with 0 to 95% relative humidity, non-condensing.

The 0AC401.9 converter encoder module from B&R represents a perfect blend of innovation and practicality. Its ability to handle differential signal conversion with high accuracy ensures reliable operation in critical applications. Whether you require signal conversion for automation systems or other industrial processes, this module offers exceptional performance and durability. With its robust construction and flexible mounting options, the 0AC401.9 is designed to meet the rigorous demands of modern industrial environments. Trust B&R for your signal conversion needs and experience unparalleled reliability and efficiency.