GE IS210AEAAH2B Conformal Coated I/O Board
Product Overview
The IS210AEAAH2B is a dedicated Conformal Coated Input/Output (I/O) printed circuit board engineered by General Electric for Speedtronic Mark VI turbine control systems. It serves as a critical interface between field devices (sensors, actuators) and Mark VI controllers, enabling real-time data acquisition, signal conditioning, and control signal distribution in industrial turbine applications. The board integrates multiple analog and digital I/O channels with built-in isolation and surge protection, ensuring reliable operation in harsh industrial environments. It operates on 24 VDC power and features conformal coating to resist moisture, dust, and chemical contaminants, making it suitable for onshore/offshore and power generation settings. The module is fully compatible with Mark VI system architecture and ToolboxST software for configuration, calibration, and diagnostics, providing seamless integration and simplified maintenance.
GE IS200WETBH1B Wind Energy Terminal Board
Product Overview
The IS200WETBH1B is a dedicated Wind Energy Terminal Board developed by General Electric for Mark VI Speedtronic wind turbine control systems. It functions as a critical interface between field sensors, actuators, and Mark VI controllers, facilitating real-time data acquisition and control signal distribution in wind energy applications. The board integrates multiple I/O channels, signal conditioning circuits, and communication interfaces to support turbine parameter monitoring, grid integration, and operational control. It operates on 24 VDC power and features a component-dense design with conformal coating, ensuring reliable performance in onshore and offshore wind environments. The module is fully compatible with Mark VI system architecture and ToolboxST software for configuration, calibration, and diagnostics, making it an essential component for wind turbine control and grid compliance.
GE IS200WEORG1A Wind Energy Output Regulator (WEOR) PCB Module
Product Overview
The IS200WEORG1A is a dedicated Wind Energy Output Regulator (WEOR) printed circuit board module designed by General Electric for Mark VIe Speedtronic wind turbine control systems. It serves as a core component for managing and regulating the electrical output of wind turbines, enabling seamless integration with grid infrastructure and ensuring optimal energy conversion efficiency. The module processes real-time data from turbine sensors, generators, and grid interfaces to adjust power output, maintain grid stability, and support compliance with grid codes. It integrates with Mark VIe controllers and ToolboxST software for configuration, monitoring, and diagnostics, providing reliable performance in harsh wind energy environments. The board features a compact form factor with standard PCB coating, facilitating easy installation in turbine control cabinets while ensuring protection against environmental factors.
GE IS200TVBAH2AAA Vibration Input Terminal Board (Mark VI Series)
Product Overview
The IS200TVBAH2AAA is a specialized vibration input terminal board engineered by General Electric for the Mark VI Speedtronic turbine control system. It serves as a dedicated interface for connecting vibration and position sensors to Mark VI controllers, enabling real-time monitoring of critical mechanical parameters in industrial turbomachinery. The board supports up to 14 sensor connections, including seismic velocity probes, accelerometers, Proximitors, and position sensors, with integrated signal conditioning and EMI protection to ensure data accuracy in harsh industrial environments. It operates on 28 VDC power and is compatible with both simplex and triple modular redundant (TMR) system architectures, providing flexible deployment across diverse turbine control applications. Its modular design facilitates easy integration with Mark VI I/O packs and ToolboxST software for configuration, calibration, and diagnostics, making it an essential component for predictive maintenance and machinery protection.
GE IS200TSVOH2B Servo Valve Interface Terminal Board (Mark VIe Series)
Product Overview
The IS200TSVOH2B is a dedicated servo valve interface terminal board designed by General Electric for Mark VIe Speedtronic turbine control systems. It serves as the critical interface between the control system and electro-hydraulic servo valves, managing up to six Linear Variable Differential Transformer (LVDT) valve position inputs and two servo valve outputs. The board enables precise control of steam and fuel valves in gas and steam turbines, ensuring accurate position feedback and reliable actuation for optimal turbine performance and safety. It integrates seamlessly with Mark VIe controllers, providing robust signal processing, noise immunity, and simplified wiring for industrial turbine applications.
GE IS200TDBTH6ACD Discrete Simplex I/O Board (Mark VIe Series)
Product Overview
The IS200TDBTH6ACD is a discrete simplex I/O board designed by General Electric for the Mark VIe Speedtronic turbine control system. It serves as a key interface for processing discrete input and output signals in industrial control environments, supporting 24 VDC operation to ensure compatibility with standard field devices. The board offers reliable signal handling for discrete signals like alarms, limit switches, and interlocks, and integrates seamlessly with Mark VIe controllers to enhance monitoring and control capabilities in demanding industrial settings. Its simplex configuration is optimized for cost-effective, non-redundant applications where continuous operation is maintained through robust design and quality components.
GE IS200TBCIH2BCE
Product Overview
The IS200TBCIH2BCE is a specialized contact input terminal board engineered by General Electric for integration with Mark VIe Speedtronic turbine control systems. It serves as a critical interface for connecting 24 dry contact inputs, providing group isolation to ensure signal integrity and system reliability in harsh industrial environments. The board is designed to streamline installation, enhance noise immunity, and support high-density input configurations, making it ideal for turbine and industrial automation applications requiring precise and secure signal processing.
GE IS200JPDFG1A
Product Introduction: The IS200JPDFG1A is a DC Power Distribution Module (JPDF) in GE’s Mark VI Speedtronic turbine control system, designed to accept redundant 125 V DC power inputs and distribute power to system boards, DACA modules, and other components. It is part of the IS2020JPDF power module, which includes a circuit board, 125 V DC 30 A circuit breaker, input filter, current limiting resistors, and series diodes. It provides 3 fused non-switched outputs and 6 fused switched outputs, with status feedback (bus magnitude, ground faults, excessive AC voltage on DC bus) via a PPDA I/O pack connection. It features 6 toggle switches, 18 fuses, and 14 plug connectors, ensuring reliable 125 V DC power distribution for gas/steam turbine control systems.
GE IS200ERIOH1ABB
Product Introduction: The IS200ERIOH1ABB is a remote I/O board (ERIO) within GE’s EX2100 excitation control system, designed to extend I/O capabilities for distributed signal acquisition and control in generator excitation systems. It serves as a remote interface between the EX2100 main controller and field devices, handling analog/digital I/O signals, providing real-time status monitoring via LEDs, and enabling communication with the main I/O module (EMIOH1A) through a dedicated backplane interface. It supports simplex and redundant configurations, integrates with VersaMax I/O technology, and ensures reliable operation in power generation and heavy industrial environments, facilitating seamless expansion of I/O channels for excitation system monitoring and control.
GE IS200EGPAG1BCA
Product Introduction: The IS200EGPAG1BCA is a gate pulse amplifier board (EGPA) in GE’s EX2100 excitation control system, designed to generate and amplify gate trigger pulses for six silicon-controlled rectifiers (SCRs) in the power bridge, enabling precise control of power conversion and distribution. It serves as a critical interface between the EX2100 controller and power bridge, integrating real-time monitoring of conduction current, airflow, and temperature (via RTD or CLICK switches) with built-in alarm/trip logic for over-temperature protection. It features 5 configurable jumpers, red/green LED status indicators, and industrial-grade components for reliable operation in power generation and heavy industrial environments, ensuring stable SCR triggering, feedback monitoring, and system protection.
GE IS200BPPBH2BMD
- Product Introduction: The IS200BPPBH2BMD is a safety I/O pack auxiliary board within GE’s Mark VI Speedtronic series, engineered to integrate with primary control boards for safety-critical I/O signal processing and monitoring in gas and steam turbine control systems. It acts as a daughterboard, connecting via vertical connectors and phone jacks, to handle safety-related input/output signals, provide diagnostic feedback through LEDs, and ensure reliable operation in industrial environments. It supports safety interlocks, emergency shutdown (ESD) functions, and fault detection, making it a key component for maintaining turbine operational safety and control integrity.
- Manufacturer: General Electric (GE) / GE Fanuc (now part of Baker Hughes)
GE IS200AEADH4A 109W3660P001
Product Introduction: The IS200AEADH4A 109W3660P001 is a dedicated analog input terminal board in GE’s Mark VI Speedtronic series, designed to interface sensors and actuators directly with the Mark VI controller for precise signal acquisition and transmission. It converts 4–20 mA current, 0–10 V DC voltage, and thermocouple signals into digital data with 16-bit resolution, supporting high-density I/O for turbine control systems. It integrates industrial-grade components, redundant power/R-NET connections, and built-in signal conditioning, ensuring reliable operation in harsh industrial environments, and serves as a core I/O interface for gas/steam turbine control, balance-of-plant (BOP) systems, and critical process monitoring.
