Part Number: IS210BAPAH1A
Manufacturer: General Electric
Series: MKVI
Description: printed Circuit Board
The IS210BAPAH1A Analog Processor Module is designed to condition and process analog signals from various sensors used in gas and steam turbine control systems.
It removes DC bias and amplifies AC content to enhance resolution by an analog-to-digital converter before digitization.
This module is crucial in managing and regulating the analog signals associated with turbine operation. It ensures precise control and monitoring of critical parameters such as fuel flow rates, combustion processes, and turbine speed.
Power Supply: 28 V dc, 0.5 A dc
Pressure Input: 12 to 18.5 V dc
Sensor Power Output: 12 to 18.5 V dc, 2.9 to 4.3 mA dc
Analog Signal Conditioning Channels: 18
A/D Input Channels: 24
Physical Ethernet Layers: PHY0 and PHY1
Analog Signal Conditioning: The IS210BAPAH1A provides advanced analog signal conditioning capabilities, allowing for removing DC bias and amplifying AC content to improve signal resolution and accuracy.
High-Resolution A/D Conversion: The module supports 24 high-resolution A/D input channels, enabling precise digitization of analog signals for further processing and control.
Ethernet Connectivity: The IS210BAPAH1A features two physical Ethernet layers (PHY0 and PHY1), allowing seamless integration with the Mark VI and Mark VIe control systems, efficient data communication, and remote monitoring.
Compatibility: This module is designed to be compatible with GE’s Mark VI and Mark VIe control systems, ensuring seamless integration and compatibility with existing turbine control infrastructure.
Reliability: The IS210BAPAH1A is built with high-quality components and undergoes rigorous testing to ensure reliable performance and long-term durability in demanding industrial environments.
The IS210BAPAH1A Analog Processor Module significantly enhances the performance of GE Mark VI and Mark VIe control systems by providing advanced analog signal processing capabilities.
By conditioning and managing analog signals from various sensors, the module ensures accurate and reliable data input for the control system, enabling more precise control and monitoring of turbine operation.
The module’s ability to remove DC bias and amplify AC content improves signal resolution and accuracy, reducing the risk of false readings or erroneous control decisions. This, in turn, leads to improved turbine efficiency, reduced downtime, and enhanced overall system performance.
The IS210BAPAH1A Analog Processor Module is designed for use in gas and steam turbine control applications, particularly in the following areas:
Frame 6, 7, and 9 Gas Turbines: The module is compatible with and supports dynamics for GE’s Frame 6, 7, and 9 gas turbines, making it suitable for various turbine models and applications.
Combined Cycle Power Plants: The IS210BAPAH1A can be used in combined cycle power plants, where both gas and steam turbines generate electricity. It ensures efficient and reliable control of the turbine systems.
Cogeneration Facilities: The module is applicable in cogeneration facilities that produce electricity and proper heat, such as steam or hot water, for industrial or commercial use.
Mechanical Drive Applications: The IS210BAPAH1A can be used in mechanical drive applications where gas or steam turbines power compressors, pumps, or other industrial equipment.
While the IS210BAPAH1A Analog Processor Module is designed for reliable performance, some common issues may arise during operation.
Here are some troubleshooting steps to address potential problems:
Power Supply Issues: Ensure that the power supply to the module is within the specified range of 28 V dc and that the current draw does not exceed 0.5 A dc. Check for any loose connections or damaged wiring.
Sensor Input Issues: Verify that the pressure input and sensor power output are within the specified ranges of 12 to 18.5 V dc. Check for any sensor malfunctions or wiring issues affecting the analog input signals.
Ethernet Communication Issues: If the module is not communicating correctly with the Mark VI or Mark VIe control system via Ethernet, check the physical connections, cable integrity, and network settings. Ensure that the PHY0 and PHY1 Ethernet layers are functioning correctly.
Analog Signal Conditioning Issues: If the analog signal conditioning is not performing as expected, check the module’s configuration settings and ensure that the DC bias removal and AC content amplification are set appropriately for the specific application.
Compatibility Issues: Verify that the IS210BAPAH1A is compatible with the specific Mark VI or Mark VIe control system being used and that the module is correctly integrated.
Suppose the issue persists after following these troubleshooting steps. In that case, it is recommended to consult with a qualified GE service technician or refer to the module’s documentation for more detailed troubleshooting guidance.
What is the primary purpose of the IS210BAPAH1A board?
The primary purpose of the IS210BAPAH1A board is to condition analog signals by removing DC bias and amplifying AC content to maximize resolution.
What is the manufacturer of the IS210BAPAH1A module?
General Electric manufactures the IS210BAPAH1A module.
What systems is the IS210BAPAH1A compatible with?
The IS210BAPAH1A is compatible with the Mark VI or Mark VIe systems developed by GE for gas or steam turbine management.
How many analog signal-conditioning channels does the IS210BAPAH1A include?
The IS210BAPAH1A includes eighteen analog signal-conditioning channels.
How many A/D input channels does the IS210BAPAH1A support?
The IS210BAPAH1A supports twenty-four A/D input channels.
What is the purpose of the PHY0 and PHY1 physical Ethernet layers in the IS210BAPAH1A?
The PHY0 and PHY1 physical Ethernet layers in the IS210BAPAH1A facilitate data communication and integration with the control systems.
What is the function of the IS210BAPAH1A in gas turbine control systems?
The IS210BAPAH1A is crucial in managing and regulating analog signals associated with gas turbine operation.
How can the IS210BAPAH1A improve turbine efficiency?
By accurately conditioning analog signals, the IS210BAPAH1A improves resolution and accuracy, enhancing turbine efficiency.
What applications is the IS210BAPAH1A suitable for?
The IS210BAPAH1A is suitable for gas and steam turbine control applications, including combined cycle power plants and cogeneration facilities.
How can configuration and diagnostics for the IS210BAPAH1A be managed?
Configuration and diagnostics for the IS210BAPAH1A can be run through the ToolboxST application.
What is the acoustic monitoring pack capable of calculating in the IS210BAPAH1A?
The acoustic monitoring pack can calculate the broadband root-mean-square (RMS) energy of the time-domain sampled data in a frequency range of 0 to 5000 Hz.
What are the dimensions and weight of the IS210BAPAH1A module?
The IS210BAPAH1A module has dimensions of 15cm x 9cm x 11cm and weighs 0.3kg.
How can users quickly assess the status and performance of the IS210BAPAH1A pack?
Users can assess the status and performance of the IS210BAPAH1A pack through the LED indicators on the front faceplate.
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