GE PACSystems RX3i Serial Bus Transmitter IC695LRE001, Modular Automation Component
Expansion Module:Yes
Compatible with:PACSystems RX3i
Rack Compatibility:7 Racks
I/O Capacity:320 Discrete In & Out
Backplane Mounting:Universal
Bus Support:PCI Bus
Counter Range:-2,147,483,648 to 2,147,483,648
Input/Output Type:Positive Logic
Connector Type:IC694TBBx32 or IC694TBSx32
Internal Power Consumption:64 mA @ 5 V, 457 mA @ 3.3 V
The GE PACSystems RX3i Serial Bus Transmitter IC695LRE001 is a robust solution for enhancing the connectivity and performance of industrial automation systems. Designed to seamlessly integrate with 7 racks, this module boasts 320 discrete I/O points, making it ideal for managing complex data flow within production environments.
Equipped with a PCI bus interface, this transmitter ensures reliable and efficient communication across multiple devices, significantly improving system reliability and availability. Its advanced counter functions support high-speed counting, PLS (Programmable Limit Switch), camming, input interrupts, and pulse width timing, catering to a wide range of automation needs.
The compact design of the IC695LRE001 is complemented by its robustness, ensuring it withstands demanding industrial conditions. With a weight of just 1.42 kg and dimensions of 33 cm x 17.8 cm x 5.5 cm, it is easily mounted on a universal backplane, facilitating seamless integration into existing systems.
Featuring positive logic connectors, the module ensures compatibility with various types of input/output devices. The internal power consumption is optimized for efficiency, consuming up to 64 mA at 5 V and 457 mA at 3.3 V, minimizing energy usage while maintaining high performance.
This module is an essential component for manufacturers aiming to streamline their production processes, enhance system responsiveness, and optimize resource allocation. By leveraging the capabilities of the GE PACSystems RX3i Serial Bus Transmitter IC695LRE001, users can achieve higher levels of automation and efficiency in their operations.