Ge IS200VCMIH2C - VME Communication Interface - comes in UNUSED and REBUILT condition. Request a Quote for IS200VCMIH2C Now!
The IS200VCMIH2C is a VME Communication Interface module developed by General Electric (GE) for the Mark VI and Mark VIe Speedtronic Turbine Control Systems. It is a key component responsible for interfacing the control module with external devices and networks.
Specifications
Functionality: Facilitates communication between the control system and I/O modules using the VME bus.
Protocols Supported: Uses Ethernet and proprietary communication protocols.
Connectivity: Provides dual Ethernet ports for network redundancy.
Operating Temperature: Designed to function within 0°C to 60°C.
Indicators: Equipped with LED indicators for power, communication activity, and system health.
Functional Description
The IS200VCMIH2C acts as a bridge between the turbine control processor and other system components. It ensures that data from the control processor is reliably distributed to connected modules over the VME backplane. Additionally, it manages Ethernet communications to facilitate remote monitoring and control.
Key features include:
Real-time communication over redundant Ethernet networks.
Synchronization of data across multiple VME racks in the control system.
Diagnostic feedback to ensure reliable operations.
Installation
Power Down: Ensure the control cabinet is powered off to prevent electrical damage.
Insert the Module: Align the module with the designated VME slot and gently slide it into place.
Secure the Module: Tighten the mounting screws to ensure the board is firmly installed.
Connect Ethernet Cables: Attach cables to the Ethernet ports for primary and secondary networks.
Power Up and Test: Restore power to the cabinet and verify the board's status via LED indicators.
Compatibility
The IS200VCMIH2C is compatible with the Mark VI and Mark VIe systems, where it supports communications with associated components like I/O modules, HMI systems, and other controllers. It is specifically designed to integrate with VME-based hardware architectures.
Common Uses
Providing reliable communication pathways in turbine control systems.
Synchronizing data between multiple processors.
Enabling remote monitoring and diagnostics via Ethernet connections.
FAQ: Common Issues and Solutions
Issue: LED indicators show communication failure.
Solution: Verify the Ethernet connections and network configuration. Ensure cables are not damaged and ports are securely connected.
Issue: Data synchronization errors between racks.
Solution: Check the integrity of the VME backplane connections. Replace the module if hardware diagnostics indicate a fault.
Issue: Difficulty establishing remote access.
Solution: Confirm the network settings and ensure the system is configured for external communication. Check firewall and routing rules if applicable.
For detailed troubleshooting, refer to the Mark VI/VIe system manual or consult a World of controls