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      IS210MVRAH2A/IS200MVRAH2AFC

      Mark VIe Interface Board
      In Stock

      Product Information:

      Mark VIe Interface Board

      Mark VI Removable Interface Board

      was made for General Electric's

      Mark VI Turbine Control System Series.

      Warranty Policy
      We provide 1 year warranty for all remaining parts.
      The warranty period is one year from the date of shipment, unless otherwise stated in the parts description. We guarantee that the project will not exhibit functional defects that may occur under normal operating conditions during the warranty period.
      Return Notice
      The warranty period is one year from the date of shipment, unless otherwise stated in the parts description. We guarantee that the project will not exhibit functional defects that may occur under normal operating conditions during the warranty period.
      In the event of a defect, we will send new equipment, repair equipment or refund the purchase price based on our availability. You must contact us to obtain a return authorization and return the defective device to us within 14 days of reporting the defect.
      Shiping Mode
      Various transportation options are available in each country. Shipping methods and fees are clearly indicated on all quotations.Various transportation options are available in each country. Shipping methods and fees are clearly indicated on all quotations.
      Parts Availability
      Moore automated offers a wide range of components, products and services related to industrial automation. We have a large surplus of stocks and are also distributors of new products from a variety of quality manufacturers.
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      Technical specifications for IS210MVRAH2A/IS200MVRAH2AFC

      • Manufacturer:
        General Electric
      • Product Category:
        PLC System
      • Spare Part Number:
        IS210MVRAH2A IS200MVRAH2AFC
      • Estimated shipping dimensions:
        15.2 x 20 x 17 cm
      • Weight:
        2.1 kg
      • Tariff Code:
        8537101190
      • Country of origin:
        USA
      • Place of shipment:
        Xiamen, Fujian, China
      • Product Type:
        Interface Board
      • Category Series:
        Mark VI Turbine Control System Series
      • Operating Temperature Range:
        32 to 113ºF
      • Power Source:
        120 or 240 Volts of Alternating Current
      • PCB Coating:
        Conformal Coating
      • Stock:
        50
      Ask for Quote

      Information

      Overview Manuals Principle Primary Applications

      Features:

      • GE Gas Exciter Mark VIe Interface Board
      • Mark VIe & Mark VIeS Control Systems
      • Mark VI IS200 Series produced by General Electric
      High-performance control processor module designed specifically for the Mark VIe distributed control system platform. Its primary functions are executing control logic, sequential management, and real-time data processing, making it suitable for industrial automation and power generation applications. As the central processing unit in the control architecture, the module coordinates communication between I/O modules, field devices, and monitoring systems to ensure stable and deterministic system operation.

      It can handle critical tasks such as signal processing, alarm management, system diagnostics, and fault handling, while maintaining synchronized operation among distributed controllers. Its industrial-grade design allows it to be deployed in demanding environments such as turbines, power plants, and process control facilities where real-time performance and system integrity requirements are extremely high.

      The IS210MVRAH2A/IS200MVRAH2AFC GENERAL ELECTRIC Mark VIe Interface Board may still be available for purchase and support from Moore Automated Company beyond End-Of-Life (EOL) by the manufacturer (OEM).
      GENERAL ELECTRIC IS210MVRAH2A/IS200MVRAH2AFC Mark VIe Interface Board INFO (manual), Link Important Notice: Other accessories, manuals, cables, calibration data, software, etc. are not included with this equipment unless listed in the above stock item description. All prices are shown in USD.
      This module receives analog and/or digital input signals from connected sensors or subsystems, performs signal isolation, filtering, and level conversion via onboard circuitry, and then transmits the processed data to the central controller via a high-speed backplane or internal communication bus. Simultaneously, it parses control commands from the main processor and distributes corresponding output signals to relevant field devices or subordinate modules. All of this is achieved through coordinated data exchange, electrical isolation, and embedded firmware logic.
      Voltage Regulation: The IS210MVRAH2A is a key component in voltage regulation systems, providing a stable DC output voltage even under fluctuating loads.
       
      Upgrades and Retrofits: It is commonly used in Mark VIe systems as a functional replacement, effectively replacing older circuit boards such as TCQA and IOMA.
       
      System Integration: Equipped with multiple analog and digital I/O channels, it manages data from thermocouples, proximity sensors, pulse frequencies, and LVDTs.

      Critical Process Monitoring: Enables engineers to monitor and manage critical turbine processes in gas turbine, steam turbine, and wind turbine components.

      Ask our team:

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      FAQ

      View All Faqs
      • What operational functionality does the IS210MVRAH2A / IS200MVRAH2AFC module provide within GE Mark VI turbine control architectures? The GE IS210MVRAH2A / IS200MVRAH2AFC operates as a vibration monitoring and signal processing module designed to acquire and analyze mechanical vibration data from rotating machinery within GE Mark VI control systems. 2. How does the IS210MVRAH2A / IS200MVRAH2AFC perform high-fidelity vibration signal acquisition from industrial turbomachinery? The IS210MVRAH2A / IS200MVRAH2AFC receives analog signals from vibration sensors such as proximity probes, accelerometers, and velocity transducers, then conditions and digitizes these signals for accurate analysis by the turbine control system. 3. Why is the IS210MVRAH2A / IS200MVRAH2AFC considered a critical component for machinery protection in turbine applications? The IS210MVRAH2A / IS200MVRAH2AFC enables continuous vibration surveillance, allowing the control system to detect abnormal mechanical conditions—such as rotor imbalance, bearing degradation, or shaft misalignment—before severe equipment damage occurs. 4. What types of vibration sensors can be interfaced with the IS210MVRAH2A / IS200MVRAH2AFC module for machinery monitoring? The IS210MVRAH2A / IS200MVRAH2AFC is compatible with several sensor technologies, including eddy-current proximity probes, accelerometers, and velocity sensors used in high-precision turbomachinery diagnostics. 5. How does the IS210MVRAH2A / IS200MVRAH2AFC ensure accurate signal conditioning in electrically noisy industrial environments? The IS210MVRAH2A / IS200MVRAH2AFC incorporates advanced filtering circuits, shielding mechanisms, and precision amplification stages that minimize electromagnetic interference and maintain measurement integrity. 6. In which industrial applications is the IS210MVRAH2A / IS200MVRAH2AFC most frequently deployed? The IS210MVRAH2A / IS200MVRAH2AFC is widely used in gas turbine systems, steam turbine control installations, and large rotating machinery environments where vibration monitoring is essential for operational reliability. 7. How does the IS210MVRAH2A / IS200MVRAH2AFC integrate with the GE Mark VI control system communication architecture? The IS210MVRAH2A / IS200MVRAH2AFC communicates processed vibration data to the Mark VI controller through the system’s internal I/O communication bus, enabling real-time analysis and protective control actions. 8. What diagnostic and health-monitoring features are incorporated into the IS210MVRAH2A / IS200MVRAH2AFC module? The IS210MVRAH2A / IS200MVRAH2AFC provides onboard diagnostics that allow operators to monitor sensor connectivity, signal integrity, and module operational status within the turbine control environment. 9. How does the IS210MVRAH2A / IS200MVRAH2AFC contribute to predictive maintenance strategies in power generation facilities? By continuously collecting vibration data and detecting abnormal trends, the IS210MVRAH2A / IS200MVRAH2AFC enables maintenance teams to identify developing mechanical issues and schedule maintenance before catastrophic failures occur. 10. What installation considerations must engineers evaluate when deploying the IS210MVRAH2A / IS200MVRAH2AFC within a turbine control cabinet? Engineers installing the IS210MVRAH2A / IS200MVRAH2AFC must ensure proper sensor wiring, adequate grounding, secure module mounting, and compliance with electromagnetic compatibility practices.
        What operational functionality does the IS210MVRAH2A / IS200MVRAH2AFC module provide within GE Mark VI turbine control architectures? The GE IS210MVRAH2A / IS200MVRAH2AFC operates as a vibration monitoring and signal processing module designed to acquire and analyze mechanical vibration data from rotating machinery within GE Mark VI control systems. 2. How does the IS210MVRAH2A / IS200MVRAH2AFC perform high-fidelity vibration signal acquisition from industrial turbomachinery? The IS210MVRAH2A / IS200MVRAH2AFC receives analog signals from vibration sensors such as proximity probes, accelerometers, and velocity transducers, then conditions and digitizes these signals for accurate analysis by the turbine control system. 3. Why is the IS210MVRAH2A / IS200MVRAH2AFC considered a critical component for machinery protection in turbine applications? The IS210MVRAH2A / IS200MVRAH2AFC enables continuous vibration surveillance, allowing the control system to detect abnormal mechanical conditions—such as rotor imbalance, bearing degradation, or shaft misalignment—before severe equipment damage occurs. 4. What types of vibration sensors can be interfaced with the IS210MVRAH2A / IS200MVRAH2AFC module for machinery monitoring? The IS210MVRAH2A / IS200MVRAH2AFC is compatible with several sensor technologies, including eddy-current proximity probes, accelerometers, and velocity sensors used in high-precision turbomachinery diagnostics. 5. How does the IS210MVRAH2A / IS200MVRAH2AFC ensure accurate signal conditioning in electrically noisy industrial environments? The IS210MVRAH2A / IS200MVRAH2AFC incorporates advanced filtering circuits, shielding mechanisms, and precision amplification stages that minimize electromagnetic interference and maintain measurement integrity. 6. In which industrial applications is the IS210MVRAH2A / IS200MVRAH2AFC most frequently deployed? The IS210MVRAH2A / IS200MVRAH2AFC is widely used in gas turbine systems, steam turbine control installations, and large rotating machinery environments where vibration monitoring is essential for operational reliability. 7. How does the IS210MVRAH2A / IS200MVRAH2AFC integrate with the GE Mark VI control system communication architecture? The IS210MVRAH2A / IS200MVRAH2AFC communicates processed vibration data to the Mark VI controller through the system’s internal I/O communication bus, enabling real-time analysis and protective control actions. 8. What diagnostic and health-monitoring features are incorporated into the IS210MVRAH2A / IS200MVRAH2AFC module? The IS210MVRAH2A / IS200MVRAH2AFC provides onboard diagnostics that allow operators to monitor sensor connectivity, signal integrity, and module operational status within the turbine control environment. 9. How does the IS210MVRAH2A / IS200MVRAH2AFC contribute to predictive maintenance strategies in power generation facilities? By continuously collecting vibration data and detecting abnormal trends, the IS210MVRAH2A / IS200MVRAH2AFC enables maintenance teams to identify developing mechanical issues and schedule maintenance before catastrophic failures occur. 10. What installation considerations must engineers evaluate when deploying the IS210MVRAH2A / IS200MVRAH2AFC within a turbine control cabinet? Engineers installing the IS210MVRAH2A / IS200MVRAH2AFC must ensure proper sensor wiring, adequate grounding, secure module mounting, and compliance with electromagnetic compatibility practices.
      • How does the IS210MVRAH2A / IS200MVRAH2AFC perform high-fidelity vibration signal acquisition from industrial turbomachinery?
        The IS210MVRAH2A / IS200MVRAH2AFC receives analog signals from vibration sensors such as proximity probes, accelerometers, and velocity transducers, then conditions and digitizes these signals for accurate analysis by the turbine control system.
      • Why is the IS210MVRAH2A / IS200MVRAH2AFC considered a critical component for machinery protection in turbine applications?
        The IS210MVRAH2A / IS200MVRAH2AFC enables continuous vibration surveillance, allowing the control system to detect abnormal mechanical conditions—such as rotor imbalance, bearing degradation, or shaft misalignment—before severe equipment damage occurs.
      • What types of vibration sensors can be interfaced with the IS210MVRAH2A / IS200MVRAH2AFC module for machinery monitoring?
        The IS210MVRAH2A / IS200MVRAH2AFC is compatible with several sensor technologies, including eddy-current proximity probes, accelerometers, and velocity sensors used in high-precision turbomachinery diagnostics.
      • In which industrial applications is the IS210MVRAH2A / IS200MVRAH2AFC most frequently deployed?
        The IS210MVRAH2A / IS200MVRAH2AFC is widely used in gas turbine systems, steam turbine control installations, and large rotating machinery environments where vibration monitoring is essential for operational reliability.
      • How does the IS210MVRAH2A / IS200MVRAH2AFC integrate with the GE Mark VI control system communication architecture?
        The IS210MVRAH2A / IS200MVRAH2AFC communicates processed vibration data to the Mark VI controller through the system’s internal I/O communication bus, enabling real-time analysis and protective control actions.
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      Moore Disclaimer: Moore Automated's sales automation equipment and related solutions are intended for industrial automation and business operational efficiency improvement purposes only. Product information, technical parameters, and application cases are for reference only and do not constitute an absolute guarantee of performance for any specific industry, scenario, or final application. Actual equipment performance may vary depending on factors such as the usage environment, system integration method, and maintenance conditions. Users should confirm compatibility and safety based on professional technical assessments. Moore Automated assumes no liability for any direct or indirect losses caused by improper use, modification, or failure to operate according to specifications, to the extent permitted by law.