Ics Triplex T9110 AADvance Fault-Tolerant Processor Module

Description

• • Communication Parameters
    • Interfaces and Protocols: It is equipped with two Ethernet ports and two RS – 232/422 ports. It supports communication protocols including Modbus TCP/IP, Profibus DP, and optional OPC UA. The Ethernet transmission rate is 10/100Mbps adaptive, and the Profibus transmission rate can reach 12Mbps.
  • Physical and Environmental Parameters
    • Size and Weight: It weighs 430 grams, and some versions measure 17.8 x 14.6 x 3.2 inches and weigh 8.2 pounds, which is convenient for installation in limited space.
    • Environmental Adaptability: The operating temperature range is -40°C to 70°C, and the battery used in it can work in the temperature range of -30°C to 80°C. It meets the IEC 61000 – 6 – 2/6 – 4 EMC standard and has strong anti-interference ability.
• Function Features
  • Triple Modular Redundancy for Fault Tolerance: Its triple modular redundant architecture guarantees continuous system operation even if a single channel fails. It supports dual-network redundancy in the form of hot standby, and the automatic switching time is less than 100ms, which avoids production interruptions caused by hardware failures and greatly improves the reliability of the control system.
  • Intuitive Status Monitoring via Multiple Indicators: It is equipped with multiple dedicated status indicators. The ready indicator shows different colors during startup, synchronization and other stages; the run indicator turns green when the application is running; the system healthy indicator turns red when there is a fault. These indicators allow engineers to quickly grasp the module’s operating status and conduct efficient troubleshooting.
  • Fast Startup and Stable Clock Operation: Its startup time is 10 – 20 seconds, which can quickly enter the working state after power-on. It uses a T9905 BR2032 3V lithium button battery with a capacity of 190mAh to maintain the operation of the real-time clock. In a single-controller system, the clock can be manually set through related variables.
  • Strong Compatibility and Scalability: It adopts a modular structure and can be installed in standard cabinets or Tricon rack slots. It can be flexibly configured with adaptive modules to support the expansion of various functions, and can easily adapt to the increasing functional requirements of industrial control systems.
  • Comprehensive Safety Protection: It has comprehensive security functions to prevent cyber attacks and unauthorized access. The IP20 protection level ensures that it can work stably when installed in a control cabinet, and the ATEX certification also enables it to operate safely in hazardous areas of industrial sites.
• Application Scenarios
  • Oil and Gas Industry: It is used as the core processor of the emergency shutdown system in oil drilling platforms and natural gas processing plants. It integrates with the DCS system to realize real-time data exchange, collects signals from on-site leakage and pressure sensors, and triggers emergency shutdown measures quickly when abnormalities occur to avoid explosion and leakage accidents.
  • Nuclear Power Industry: It is deployed in the safety control system of nuclear power plants and undertakes the communication and control tasks between the safety system and the upper monitoring platform. It monitors parameters such as reactor coolant flow and neutron flux, and ensures that the relevant protection mechanisms can be activated in time when there is an operational abnormality to maintain the safe operation of nuclear power equipment.
  • Chemical Industry: It is applied to the process control system of chemical plants, especially in the control links of hazardous chemical reaction kettles and storage tanks. It collects and transmits temperature, pressure and other process control data, and cooperates with the safety interlock system to cut off the dangerous process links in time and prevent the leakage of toxic and harmful substances.
  • Power Generation Industry: It is used in the turbine protection system of thermal power plants and the monitoring system of new energy power generation equipment such as wind and photovoltaic. It monitors the operating status of key equipment in real time, realizes the scheduling and monitoring of power generation equipment through communication with the SCADA system, and ensures the stable operation of the power grid and the efficient output of power.