AB 1756-LSC8XIB8I ControlLogix Low-Speed Counter Module

Place of Origin:United States

Custom Processing:Yes

Model:1756-LSC8XIB8I

Operating Voltage:24V DC

Number of Inputs:8

Number of Outputs:8

Communication Interface:ControlNet

Operating Temperature Range:-20°C to +60°C

Dimensions (WxHxD):107mm x 84mm x 134mm

Weight:0.4 kg

Certification:UL, CE

    The Allen Bradley 1756-LSC8XIB8I ControlLogix Low-Speed Counter Module is engineered to deliver unparalleled precision in measuring low-speed events, making it an indispensable tool for complex industrial applications. With its wide operating range from 1 Hz to 10 kHz, this module ensures accurate timing under varying conditions, crucial for processes that demand high levels of reliability and performance.

    Featuring an exceptional accuracy of +/- 0.01% of measured value plus 1 count, the 1756-LSC8XIB8I surpasses industry standards, ensuring that your system’s timing is both precise and dependable. This level of accuracy is particularly beneficial in industries where timing discrepancies could lead to significant operational inefficiencies or safety concerns.

    Built with robustness in mind, the module is designed to withstand extreme temperatures ranging from -40°C to +70°C, ensuring it can operate effectively in various environments without compromising performance. This makes it ideal for deployment in challenging industrial settings where environmental extremes are common.

    Equipped with a versatile communication interface compatible with the ControlLogix I/O bus, the Allen Bradley 1756-LSC8XIB8I facilitates seamless integration into existing automation systems. This compatibility simplifies setup and maintenance, allowing for quick deployment and minimizing downtime.

    The inclusion of 8 counting channels provides flexibility for diverse applications, enabling the simultaneous measurement of multiple low-speed events. This feature is particularly advantageous in scenarios where multiple counters are required to monitor different processes within a single system, enhancing efficiency and reducing complexity.