Overview of MOXA CP-602U-I Series

The Moxa CP-602U-I series delivers a reliable and high-performance CAN bus serial board solution tailored for industrial sectors such as Manufacturing, Automation, where stable data communication is essential. Designed to enhance Moxa industrial edge connectivity, this series integrates CAN bus technology with advanced capabilities to improve communication reliability and system performance. As part of the Moxa multiport serial boards family, the CP-602U-I CAN bus series is built to meet the demands of high-speed and real-time communication, even in rugged or electrically noisy environments. Widely recognized as a reliable option in the market, the CP 602U I series adapts perfectly into your existing systems.

MOXA CP-602U-I Series Features

The Moxa CP-602U-I CAN bus UPCI boards enable seamless interaction between devices and promote efficient workflows and greater system resilience. With excellent connectivity and scalable features, the Moxa CP 602U-I series strengthens industrial networks and supports the evolution of communication infrastructure. Supporting both CAN 2.0A and CAN 2.0B standards, this Moxa CP-602U-I series solution provides flexibility across different setups and enables communication speeds up to 1 Mbps via two independent CAN ports. Each port includes 2 kV electrical isolation to protect systems from surges and electrical noise, while optional 120-ohm terminal resistors allow for tailored network tuning. These Moxa CAN bus boards also feature LED indicators on each port for easy monitoring of data transmission status, and a user-friendly DLL library with examples simplifies integration into industrial systems. The two-port CAN interface with DB9 male connectors ensures dependable device connections, and the T models offer a wide operating temperature range from -40 to 85°C, which is suitable for rugged environments. With universal PCI compatibility, the Moxa CP-602U-I series stands out as an industrial-grade solution for dependable serial communication, delivering versatility, durability, and high-speed performance for demanding applications.