GE IS220PAICH1A 336A4940CSP3
Product Overview
The IS220PAICH1A 336A4940CSP3 is a high-performance Analog I/O Pack (PAIC) designed by GE for Mark VI turbine control systems, serving as a critical interface for analog signal acquisition and control in gas, steam, and wind turbine applications. It integrates 4 analog inputs and 4 analog outputs with 16-bit resolution, providing precise measurement and actuation capabilities for industrial processes. The module operates on 27.4–125 VDC power, features optical isolation for noise immunity, and includes front-panel status indicators for quick diagnostics. It holds certifications for hazardous locations (Class I Division II, ATEX Zone 2) and non-hazardous environments, ensuring reliable operation in harsh industrial settings. The IS220PAICH1A 336A4940CSP3 enables seamless integration with Mark VI controllers via the I/O port, supporting real-time data exchange for turbine monitoring, speed regulation, and load management. It is hot-swappable for minimal maintenance downtime and compatible with GE ToolboxST software for configuration and troubleshooting.
GE IS215WEPAH2BA
Product Overview
The IS215WEPAH2BA is an enhanced Wind Energy Pitch Axis (WEPA) controller board engineered by GE for the Mark VIe Speedtronic wind turbine control platform, serving as the core control unit for precise pitch angle regulation in utility-scale wind turbines. It builds on the base IS215WEPAH2B design with upgraded I/O processing and communication capabilities, integrating the AEPAH1B base board and BPPB daughterboard for modular flexibility. The board operates on 125 VDC power, features conformal coating for harsh environments, and supports simplex or triple redundancy configurations to maximize system availability. It includes three COM ports, a 10BaseT/AUI Ethernet interface, and dual RS‑485 ports for seamless integration with SCADA systems, pitch actuators, and condition monitoring devices. The IS215WEPAH2BA executes deterministic pitch control algorithms at 10/20/40 ms frame rates, ensuring optimal energy capture, rotor speed regulation, and structural load mitigation in onshore and offshore wind farm applications. It enables hot-swappable replacement and ToolboxST compatibility for remote diagnostics, firmware updates, and performance verification, making it a critical component for reliable wind turbine operation.
GE IS215WEPAH2B
Product Overview
The IS215WEPAH2B is a dedicated Wind Energy Pitch Axis (WEPA) controller board designed by GE for the Mark VIe Speedtronic series, serving as the core control unit for wind turbine pitch systems. It integrates a modular assembly with the AEPAH1B base board and BPPB daughterboard, providing comprehensive I/O interfaces and communication capabilities for precise pitch angle regulation. The board features conformal coating for protection against harsh environmental conditions, supports simplex or triple redundancy configurations, and operates with software frame rates of 10, 20, and 40 ms for real-time control. It enables seamless integration with wind turbine supervisory control systems, ensuring optimal energy capture, rotor speed regulation, and structural load management through deterministic pitch control algorithms. The IS215WEPAH2B is a critical component for enhancing wind turbine efficiency, reliability, and safety in utility-scale wind power applications.
GE IS215UCVEM09B Mark VI LCI VME Controller Card
Product Overview
The IS215UCVEM09B is a single-slot, 6U VME controller card specifically designed for GE Speedtronic Mark VI turbine control systems, with a focus on LCI (Load Commutated Inverter) applications and LM (Land - Marine) aero - derivative turbine control. It serves as the core processing unit for executing high - speed control algorithms, processing I/O data, and managing real - time communication within the Mark VI architecture. The card integrates a high - performance embedded processor, runs on the QNX real - time operating system, and features VME64 bus compatibility, dual Ethernet ports, and redundant power inputs. It has conformal coating to protect against harsh industrial elements like moisture, dust, and vibration, and is hot - swappable, allowing for replacement without shutting down the system, thus minimizing maintenance - related downtime. As a key part of the Mark VI UCVE family, it delivers deterministic processing for turbine speed regulation, load management, and LCI - specific control functions, and seamlessly integrates with Mark VI I/O modules, safety controllers, and communication boards via the VMEbus.
GE IS215UCVEM06A Universal Controller Module
Product Overview
The IS215UCVEM06A is a core Universal Controller Module (UCM) in GE’s Speedtronic Mark VI turbine control series, engineered to deliver centralized control, real-time data processing, and seamless communication for gas/steam turbine and industrial power generation systems. It features a VME-based architecture with an Intel Celeron processor and QNX real-time operating system, enabling deterministic execution of control algorithms, sensor data acquisition, and actuator command outputs. The module integrates dual Ethernet ports, flash memory for program storage, and redundant power inputs, with conformal coating to withstand harsh industrial environments including temperature fluctuations, vibration, and electromagnetic interference. It serves as the central processing unit for Mark VI systems, coordinating with I/O modules, safety controllers, and operator interfaces to ensure efficient turbine operation, load management, and safety shutdown functions.
GE IS215UCCCS05A Mark VIeS Safety Controller Board
Product Overview
The IS215UCCCS05A is a safety controller board specifically designed for GE Speedtronic Mark VIeS turbine control systems, engineered to execute safety instrumented functions (SIFs) in compliance with IEC 61508 SIL 3 standards. It serves as the core processing unit for safety-critical logic in turbine protection systems, managing emergency shutdown (ESD), overspeed protection, and flame monitoring with redundant hardware and deterministic processing. The board integrates dual-core safety microcontrollers, isolated I/O interfaces, and built-in diagnostics to ensure fault tolerance and reliable operation in harsh industrial environments, such as gas/steam turbine enclosures and power plant control rooms. It operates on 24 VDC power, features conformal coating for environmental protection, and supports seamless integration with Mark VIeS I/O modules and communication networks via ToolboxST software for configuration and monitoring.
GE IS210AEPSG1BCA Speedtronic AE Power Supply Board
Product Overview
The IS210AEPSG1BCA is a dedicated Speedtronic AE Power Supply Board engineered by General Electric for Mark VI turbine control systems. It serves as a critical power distribution component, delivering regulated 24 VDC power to Mark VI I/O modules, controllers, and communication subsystems in industrial turbine applications. The board integrates high-efficiency switching regulators, isolation transformers, and protection circuits to ensure stable power delivery in harsh industrial environments. It operates on 100-240 VAC input with wide-range voltage tolerance and features conformal coating to resist moisture, dust, and chemical contaminants, making it suitable for gas/steam turbine enclosures and power plant control rooms. The module is fully compatible with Mark VI system architecture and ToolboxST software for monitoring and diagnostics, providing seamless integration and simplified maintenance.
GE IS210AEDBH4AGD Speedtronic AED Bridge Interface Board
Product Overview
The IS210AEDBH4AGD is a dedicated Speedtronic AED Bridge Interface Board engineered by General Electric for Mark VI turbine control systems. It serves as a critical communication bridge between Analog Electronic (AE) subsystems and Digital Bus (DB) networks within turbine control architectures, enabling seamless data exchange, signal conversion, and protocol translation. The board integrates high-speed interface circuits, isolation barriers, and diagnostic logic to support real-time monitoring and control of turbine parameters in power generation applications. It operates on 24 VDC power and features rugged construction with conformal coating, ensuring reliable performance in harsh industrial environments such as gas/steam turbine enclosures and power plant control rooms. The module is fully compatible with Mark VI system architecture and ToolboxST software for configuration, calibration, and troubleshooting, providing simplified integration and maintenance in turbine control networks.
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.
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