Q1: What are the key features of the Moxa CP-602E-I Series CANbus Serial Boards?
A1: The Moxa CP-602E-I Series CANbus Serial Boards are designed for industrial edge connectivity, featuring 2-port CAN interface PCI Express boards with 2 kV electrical isolation. These boards are ideal for applications requiring robust communication in harsh environments, with an operating temperature range of -40 to 85°C. The series is engineered to provide reliable and secure data transmission in industrial settings.
Q2: How does the Moxa CP-602E-I-T model differ from other models in the CP-602E-I Series?
A2: The Moxa CP-602E-I-T model is a specific variant within the CP-602E-I Series, offering the same 2-port CAN bus PCI Express board with 2 kV electrical isolation. It is designed to operate in extreme temperatures ranging from -40 to 85°C, making it suitable for demanding industrial environments. This model is sold without cables, allowing for flexible integration into existing systems.
Q3: Can the Moxa CP-602E-I Series be used in extreme temperature conditions?
A3: Yes, the Moxa CP-602E-I Series is specifically designed to operate in extreme temperature conditions. With an operating temperature range of -40 to 85°C, these boards are suitable for use in harsh industrial environments where temperature fluctuations are common. This makes them ideal for applications in sectors such as manufacturing, transportation, and energy.
Q4: Where can I purchase Moxa CP-602E-I Series products in Australia?
A4: In Australia, Moxa CP-602E-I Series products can be purchased through authorized resellers such as IP Trading. IP Trading offers a range of Moxa products, ensuring you have access to the latest industrial edge connectivity solutions. It is recommended to contact them directly for availability and pricing information.
Q5: What type of isolation is provided by the Moxa CP-602E-I Series CANbus Serial Boards?
A5: The Moxa CP-602E-I Series CANbus Serial Boards provide 2 kV electrical isolation. This high level of isolation is crucial for protecting the system from electrical surges and ensuring reliable data transmission in industrial environments. The isolation helps prevent damage to the board and connected devices, enhancing overall system stability and safety.