GE IS200VCMIH2BEE

Operational Parameters

Communication Protocol: Utilizes fiber-optic Ethernet for high-speed data transmission, ensuring reliable and rapid communication between control system components.

Redundancy Support: Designed for Triple Modular Redundancy applications, featuring three IONet ports to enhance system reliability and fault tolerance.

Data Handling: Employs Software-Implemented Fault Tolerance voting mechanisms, broadcasting data to all remote racks in a single packet, with VCMI boards in remote locations extracting the relevant data.

Temperature Range: -40°C to +85°C.

Product Features

Master Communication Control: Controls the flow of data being sent or received over the Unit Data Highway, and coordinates communication between the different control modules.

Data Broadcasting: Broadcasts data packets to all connected remote racks, and each VCMI board retrieves the information they need.

Fault Tolerance: Uses SIFT voting to ensure both accuracy of data and reliability of the system, a necessity for mission-critical industrial applications.

High Reliability:The GE IS200VCMIH2BEE Designed for high reliability in rugged industrial environments with high vibration, temperature fluctuation, and electrical noise.

Modular Design: GE IS200VCMIH2BEE can enables integration into common control systems and lessens service complexity.

Enhanced Communication: GE IS200VCMIH2BEE allows integration with other control systems and flexible communication protocol.

Installation

Communication: Fitted with triple IONet ports for TMR structures, enabling redundancy and reliability in communication channels.

Environmental Considerations: Ensure adequate cooling inside the enclosure to avoid heat buildup, as high temps can impact performance and life over time.

Application range

Processing Plants: The GE IS200VCMIH2BEE can regulates turbine speeds in start-up, synchronizes generators, and places turbine load to avoid load loss and overspeed situation.

Power Generation: The GE IS200VCMIH2BEE facilitates accurate control and monitoring of turbines, aiding in efficient and reliable power generation.

Industrial Automation:Applications requiring tight coupling within complex control systems.

Troubleshooting

Visual Inspection: Look for physical damage, loose connections, or signs of overheating on the board.

Signal Checking: Use DIAGS to confirm that data signals correctly travel from and to all IONet ports.

Port Function: Ensure all three IONet ports in TMR configurations are running, file integrity checking only works if more than one port will achieve redundancy partially.

Firmware Update: To keep compatibility and better performance in the control system, ajust the firmware version of the board.

Temperature Humidity: Either ambient and the right cooling and ventilation arrangement should prevent overheating and chilly related issues are there to operate the board.