specification
Part number: IS230TNRLH1B
Manufacturer: General Electric
Country of Manufacture: USA (USA)
Temperature: -30 to 65oC
Temperature: -30 to 65oC
Dimensions: 10.16 cm wide x 33.02 cm high
Product Type: Relay output DINrail module
Availability: Available
Series: Mark VIe
Function description
The IS230TNRLH1B is a Relay Out DINrail module developed by GE. It is part of the Mark VIe control system. The Relay Out DINrail module is integrated with Mark VIe controllers and powered by QNX Neutrino to form a powerful and efficient control system capable of accurately, reliably and responsive management of industrial processes.
System characteristics
The Mark VIe controller acts as a central processing unit, running on a single circuit board to execute application code that is critical to the operation of the system. The controller facilitates seamless communication with various I/O packets through its onboard I/O network interface.
The operating system (OS) powering the Mark VIe controller is QNX Neutrino, a real-time multitasking operating system designed for high-speed and highly reliable industrial applications. QNX Neutrino is known for its robustness and efficiency in managing real-time processes, ensuring accurate and responsive performance in demanding industrial environments.
Real-time performance: QNX Neutrino is designed to deliver real-time performance, enabling Mark VIe controllers to execute tasks and processes with precise timing and responsiveness.
High reliability: The operating system is known for its stability and reliability, ensuring that Mark VIe controllers operate consistently and reliably, which is critical in industrial environments where system uptime is critical.
Multitasking capability: The operating system supports multitasking, allowing the controller to manage multiple tasks simultaneously without compromising performance or reliability.
Designed for Industrial applications: QNX Neutrino is specifically tailored for industrial applications and optimized to meet the rigorous requirements of high-speed and reliable control systems, making it ideal for Mark VIe systems.
