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IS200PMCIH1AAA - Phase Measurement and Control Interface Board is available in stock which ships the same day.
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SPECIFICATIONS:
Part Number: IS200PMCIH1AAA
Manufacturer: General Electric
Series: Mark VIe
Product Type: Phase Measurement and Control Interface Board
Number of Channels: 24
Input Isolation: 1500 V
AC Voltage Rejection: 60 V RMS
Voltage Range: 18 - 32 VDC
Mounting: DIN-rail mounting
Technology: Surface mount
Operating temperature: 0 to 60°C
Size: 26.04 cm high x 1.99 cm wide
Availability: In Stock
Country of Origin/Manufacturer: United States
Manual: GEH-6421H
FUNCTIONAL DESCRIPTION:
IS200PMCIH1AAA is a Phase Measurement and Control Interface Board manufactured and designed by General Electric as part of the Mark VIe Series used in GE Speedtronic Turbine Control Systems. The PMCI board is equipped with features that enable real-time monitoring of phase voltages and currents, fault detection capabilities, and the implementation of programmable control logic. These functionalities are essential for enhancing the reliability and efficiency of turbine operations. Additionally, the PMCI allows for seamless integration with other components of the turbine control system, supporting a cohesive and efficient approach to turbine management, and ultimately contributing to the safety and performance of power generation and industrial applications.
INSTALLATION:
The installation process begins with accessing the control cabinet where the PMCI board will be mounted. Once access is obtained, the board is carefully positioned onto the designated mounting rails within the cabinet, ensuring it is securely attached to prevent damage from vibrations. The next step involves connecting the phase voltage and current input cables to the appropriate terminals on the PMCI board, following the wiring diagrams in the installation manual to ensure correct connections. Additionally, power supply wires must be connected to the designated terminals, ensuring compatibility with the board's specifications. After verifying all connections, the control cabinet can be securely closed. Following the installation, the system should be powered up, and functional tests should be conducted to ensure that the PMCI board is operating correctly, including checking for accurate phase measurements and proper communication with the control system. Documenting the installation process and any modifications made is essential for future maintenance and troubleshooting.
OPERATION:
The board receives input signals from voltage and current sensors connected to the turbine’s electrical system, continuously monitoring these inputs to assess the electrical health of the system. Through analog-to-digital conversion (ADC), the PMCI transforms the analog signals from these sensors into digital data, allowing for real-time processing and analysis. Moreover, the board actively monitors for phase imbalances, which can lead to mechanical stress and overheating of turbine components. It also implements pre-programmed control algorithms based on the monitored electrical parameters, ensuring that the turbine responds appropriately to varying operational conditions. The PMCI features real-time fault analysis capabilities, identifying issues such as phase loss or overcurrent conditions and initiating protective actions to safeguard the turbine.
WOC has the largest stock of OEM Replacement Parts for GE Distributed Control Systems. We can also repair your faulty boards and supply unused and rebuilt boards backed up with a warranty. Our team of experts is available round the clock to support your OEM needs. Our team of experts at WOC is happy to assist you with any of your automation requirements. For pricing and availability on parts and repairs, kindly contact our team by phone or email.
What communication interfaces are available on the PMCI board?
The PMCI board features multiple communication ports that allow it to interface with the Mark VI control system and other components. This enables seamless data transfer and integration within the turbine control architecture.
What maintenance is required for the PMCI board?
Routine maintenance for the PMCI board includes conducting periodic diagnostics, inspecting for physical damage or dust accumulation, and verifying all connections. Functional testing should also be performed to ensure proper operation.
How do I troubleshoot issues with the PMCI board?
To troubleshoot issues with the PMCI board, refer to the diagnostic error codes provided in the manufacturer's documentation. Conduct functional tests of the board's inputs and outputs, and check for any wiring or connection problems.
