GE

The IS215VCMIH2C is a VME Communication Interface (VCMI) Board from General Electric, a core communication component for Mark VI Speedtronic turbine control systems. It acts as the VME bus master in control and I/O racks, managing board IDs and terminal board associations, and enabling high-speed data exchange across the VME backplane, expansion racks, backup protection modules, and triple modular redundancy (TMR) control processors. It serves as the central communication intermediary between distributed I/O hardware and the main controller while maintaining connectivity to the IONet control network, supporting both simplex and TMR architectures.

The IS215WEPAH2B (109W3914P003) is a Wind Energy Pitch Axis (WEPA) Board from General Electric, a dedicated control component for Mark VIe Speedtronic wind turbine control systems. It serves as the core module for wind turbine blade pitch axis control, executing real-time pitch angle adjustments based on wind speed, rotor speed, and blade position data to optimize energy capture and ensure safe turbine operation. The board integrates analog and digital I/O, encoder interfaces, and communication ports to interact with pitch drive units, main controllers, and safety systems. It features a rugged design with conformal coating for reliable performance in harsh wind farm environments, including extreme temperatures, humidity, and vibration.

The IS220PDIOH1B is a high-density Parallel Distributed I/O (PDIO) module engineered by GE for the Mark VIe Speedtronic turbine control platform, serving as a core interface for discrete signal acquisition and actuation in gas, steam, and wind turbine applications. It builds on the IS220PDIOH1A design with enhanced noise immunity and diagnostics, integrating 32 isolated digital inputs and 32 isolated digital outputs with channel-to-channel/channel-to-ground isolation for signal integrity. The module operates on 27.4–125 VDC power, features dual 100 Mbps Ethernet ports for IONet communication, and supports simplex/dual/triple redundancy configurations to maximize system availability. It includes front-panel status LEDs for power, communication, and faults, enabling rapid diagnostics, and is hot-swappable for maintenance without system shutdown. The IS220PDIOH1B executes deterministic I/O processing at 10/20/40 ms frame rates, ensuring real-time monitoring of safety interlocks, valve positions, and relay states, and seamless integration with Mark VIe controllers via IONet for centralized turbine control and SCADA connectivity. It is certified for hazardous locations (Class I Division II, ATEX Zone 2) and compatible with ToolboxST for remote configuration, firmware updates, and performance verification, making it a critical component for reliable turbine operation.