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Triconex 3008 Triple Modular Redundancy Main Processor Module
Triconex 3008 Triple Modular Redundancy Main Processor Module
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Triconex 3009 Enhanced Main Processor (UMP) Module
Triconex 3009 Enhanced Main Processor (UMP) Module

Triconex 3008N Tricon V10 Main Processor Module

Technical Specifications

  • Processor and Memory Parameters
    • It is equipped with a 32-bit Motorola MPC860 processor running at a clock speed of 50 MHz, which supports real-time operating systems and efficiently executes complex control logic.
    • It is configured with 16 MB of non – battery backed DRAM, 32 KB of battery backed SRAM, and 6 MB of flash PROM, which can store a large number of control programs and real-time operation data stably.
  • Communication Parameters
    • It uses the TriBus communication bus with a data transmission rate of 25 Mbps. The bus is equipped with 32-bit CRC protection and 32-bit DMA, and the communication part is fully isolated to ensure secure and stable data transmission.
    • It supports multiple communication protocols such as Modbus, Modbus TCP/IP, and Ethernet/IP, and is also compatible with communication interfaces like RS – 232/422/485 to achieve seamless connection with various industrial devices and systems.
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Description
    • Physical and Environmental Parameters
      • It adopts a rack – mounted installation method that fits into the Tricon main chassis, with an approximate weight of 2.12 kg and compact dimensions of 100mm × 70mm × 30mm, which saves installation space in the control cabinet.
      • The operating temperature range is -40°C to +70°C, and the storage temperature range can reach -50°C to 95% non – condensing humidity. It can resist vibration up to 1.5 g within the frequency range of 5 – 500 Hz.
      • Its protection rating can reach IP56 when equipped with a dedicated enclosure, and some models can even reach IP65, effectively resisting dust and water ingress.
    • Certification and Expansion Parameters
      • It has obtained multiple international certifications including SIL 3 (IEC 61508), TÜV, CE, FM, and CSA, meeting the safety compliance requirements of various countries and regions.
      • Each system can support up to 128 I/O modules, which can flexibly meet the configuration needs of both small and large – scale industrial control systems.
  • Functional Features
    • Triple Modular Redundancy Ensures Fault Tolerance
      • Three independent processing channels operate synchronously and perform real-time comparison and voting on operation results. When one channel breaks down, the other two normal channels can immediately take over its work. This architecture completely eliminates the impact of single – point faults on the system and guarantees uninterrupted operation of the industrial process.
    • Comprehensive Diagnostic and Indication Functions
      • It is equipped with multiple LED indicators, including pass, fault, active, maintenance, and communication activity indicators. These indicators can clearly show the module’s self – diagnosis status, fault conditions, program execution status, and communication status.
      • It has built-in real-time online self – diagnostic functions that can quickly detect abnormalities in hardware components, communication links, and I/O connections, helping maintenance personnel locate and solve problems promptly.
    • Convenient Maintenance and Strong Compatibility
      • It supports hot – swap operation. Maintenance personnel can replace the module during the normal operation of the system without shutting down the entire control system, which minimizes production losses caused by maintenance.
      • It is highly compatible with Tricon V9.6 and later systems, and can be flexibly combined with various Triconex I/O modules and communication modules. Users can expand the system according to actual production needs without overhauling the core architecture.
  • Application Scenarios
    • Oil and Gas Industry
      • On offshore oil platforms and long – distance oil and gas transmission pipelines, it serves as the core of emergency shutdown systems and fire and gas detection systems. It monitors pipeline pressure, gas concentration, and other parameters in real time. Once an abnormality is detected, it triggers emergency shutdown procedures and alarm mechanisms immediately to prevent explosions and large – scale leakage accidents.
      • In natural gas processing plants, it is applied to high – integrity pressure protection systems. It adjusts the operating parameters of pressure relief devices in real time according to the collected pressure data, ensuring that the pressure of key equipment and pipelines is always within the safe range.
    • Chemical Industry
      • In chemical factories that produce flammable, explosive, and toxic chemicals, it is used for reactor safety control and process interlock protection. It precisely controls the feeding speed, reaction temperature, and discharge time of the reactor. When parameters exceed the preset threshold, it cuts off the material supply in time to avoid dangerous reactions such as chemical explosions.
      • In chemical material storage yards, it connects with temperature and humidity sensors and fire – fighting equipment. It starts the fire – fighting system quickly when detecting high – temperature anomalies or fire signals, reducing the spread speed of fire and reducing property losses.
    • Power Generation Industry
      • In nuclear power plants, it is a key component of reactor protection systems. It collects data from radiation, temperature, and pressure sensors around the reactor. When abnormal parameters that may endanger the safe operation of the reactor are detected, it sends emergency shutdown signals immediately to prevent nuclear leakage accidents.
      • In thermal power and hydropower plants, it is integrated into the unit protection system. It monitors the operating status of turbines, boilers, and other key equipment. It can quickly cut off the relevant power supply and fuel transmission channels when a fault occurs, avoiding the expansion of equipment damage and ensuring the stable operation of the power grid.
    • Other High – risk Industrial Fields
      • In large – scale refineries, it is used in the combustion management system. It controls the ignition and combustion process of burners. It shuts down the burners and cuts off the fuel source in time when incomplete combustion or flameout is detected to prevent fire hazards caused by fuel accumulation.
      • In heavy manufacturing industries such as metallurgy, it is applied to the safety control system of high – temperature smelting equipment. It monitors the furnace temperature and smelting rhythm, and stops the smelting operation immediately when an equipment failure or abnormal temperature occurs to protect the safety of on – site operators.
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