Overview
Manuals
Principle
Applications
Functionality
Features:
- GE Gas Exciter ISBus Board EX2100 Excitation Control
- 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 IS200SHRAH2A GENERAL ELECTRIC Analog Input/Output Board may still be available for purchase and support from Moore Automated Company beyond End-Of-Life (EOL) by the manufacturer (OEM).
GENERAL ELECTRIC IS200SHRAH2A Analog Input/Output Board DATASHEET(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.
1. Power Generation: Extensively used in gas and steam turbine control, as well as nuclear reactors, where SIL2 safety certification is required.
2. Process Automation: Applied in chemical reactors and precision furnaces that require 16-bit high-resolution analog signal acquisition.
3. Asset Management: Leverages the HART protocol to perform remote calibration, diagnostics, and status feedback of field transmitters without needing separate wiring.
1. Compatible I/O Modules: Directly integrates with PHRA and YHRA I/O modules.
2. Pluggable Terminals: Unlike the SHRAH1A which uses fixed terminals, the H2A version uses right-angle connectors to connect to pluggable European terminal blocks, simplifying field wiring and board replacement.
3. Simplex Operation: This board is typically designed for simplex configuration and does not support Triple Module Redundancy (TMR) due to its single-cable connection design.
4. Jumpers: Includes 20 onboard jumpers (JP1 to JP10) for manually selecting current/voltage inputs and configuring common terminal connections.
