GE IS220PPROS1B
Product Introduction
The IS220PPROS1B is a Backup Turbine Protection I/O Pack developed by General Electric as a core component of the Mark VIe Speedtronic Control Series, dedicated to delivering redundant safety protection for gas and steam turbines in critical industrial settings. It functions as a backup protection module, working in tandem with the primary PTUR (Turbine Primary I/O Pack) to monitor turbine speed, acceleration, and emergency trip signals, and initiate shutdown procedures when abnormal conditions occur. The module features a 32‑bit embedded processor, dual redundant Ethernet ports for IONet communication, and a rugged design with conformal coating to withstand harsh industrial environments.
GE IS220PPRFH1B
Product Introduction
The IS220PPRFH1B is a PROFIBUS Master Gateway I/O Module developed by General Electric as part of the Mark VIe Speedtronic Control Series, acting as a critical communication bridge between Mark VIe controllers and PROFIBUS DP field devices. It functions as a PROFIBUS DPV0 and Class 1 master, mapping I/O data from PROFIBUS slaves to the Mark VIe I/O Ethernet for seamless integration into turbine control and industrial automation systems. The module features a Hilscher COM‑C PROFIBUS communication module with an RS‑485 interface, dual redundant Ethernet ports, and a 32‑bit embedded processor optimized for real‑time data transfer.
GE IS215WETAH1A
Product Introduction
The IS215WETAH1A is a Wind Energy Top Box A (WETA) Module developed by General Electric for the Mark VIe Wind Turbine Control Series, serving as a key control and monitoring component in wind turbine top box assemblies. It integrates core control logic for turbine operation management, safety interlocks, and communication with main cabinets, pitch control systems, and SCADA networks. The module processes real-time data from wind speed sensors, rotor speed encoders, generator output monitors, and safety relays to optimize energy capture and ensure safe turbine operation. It features a rugged design with conformal coating to withstand harsh environmental conditions, including extreme temperatures, humidity, and vibration, typical of onshore and offshore wind farm installations.
GE IS215WEPAH2B 109W3914P003
Product Introduction
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.
GE IS215WEMAH1A
Product Introduction
The IS215WEMAH1A is a WEMA and BPPS Board Assembly developed by General Electric for the Mark VIe Wind Turbine Control Series, serving as a central control and monitoring component in wind turbine main cabinets. It integrates core control logic for blade pitch positioning, turbine operation management, and safety interlocks, while facilitating seamless communication with other wind turbine subsystems such as the main controller, pitch drive units, and SCADA systems. The board processes real-time data from wind speed sensors, rotor speed encoders, blade angle sensors, and generator output monitors to optimize energy capture and ensure safe turbine operation.
GE IS215VCMIH2C
Product Introduction
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.
GE IS215UCVEM08B
Product Introduction
The IS215UCVEM08B is a US2000 Processor Board developed by General Electric as a core processing component for Mark VI Speedtronic turbine control systems, specifically designed for gas and steam turbine applications. It integrates an Intel Celeron processor, memory modules, and communication interfaces to execute real-time control logic, process sensor data, and coordinate with other system modules. It operates on the QNX real-time operating system, ensuring deterministic performance for critical turbine control functions such as speed regulation, load management, and safety interlocks.
GE IS215UCVEH2AE
Product Introduction
The IS215UCVEH2AE is a single‑slot VME CPU controller card developed by General Electric, specifically designed for the Mark VI Speedtronic turbine control system and also compatible with the EX2100 series industrial automation system. As a core central processing unit (CPU) component, it executes complex control logic operations, collects critical parameters of industrial equipment, performs signal conversion and transmission, and monitors equipment status. It coordinates communication with other I/O modules within the system to ensure stable and efficient operation of large rotating machinery such as steam turbines and gas turbines.
GE IS210BPPBH2CAA
Product Introduction
The IS210BPPBH2CAA is a Backup Protection Processor Board (BPPB) engineered by General Electric specifically for the Mark VI turbine control system. It serves as a core component for executing turbine application software, handling protection algorithms, sequencing, I/O display, and operator interface functions in both steam and gas turbine control setups. It supports triple modular redundancy (TMR) or simplex configurations, ensuring high reliability and availability in critical power generation applications. The board integrates seamlessly into VME rack-based Mark VI systems, working in tandem with other control modules to process sensor data, execute control logic, and provide backup protection in case of primary control module failures.
GE IS210AEBIH3BED
Product Introduction
The IS210AEBIH3BED is an enhanced AE Bridge Interface Card (AEBI) engineered by General Electric specifically for the Mark VIe Wind Series turbine control systems. It acts as a critical communication and signal-routing bridge between on-tower Automation Equipment (AE) modules and the central Mark VIe controller, enabling seamless real-time data exchange for precise turbine control and monitoring. As a functional variant “3BED” within the IS210AEBIH series, it builds on previous models with optimized communication redundancy, expanded I/O capacity, and advanced diagnostic capabilities while maintaining full compatibility with existing Mark VIe infrastructure.
GE IS210AEBIH3BEC
Product Introduction
The IS210AEBIH3BEC is a high - performance AE Bridge Interface Card engineered by General Electric for the Speedtronic Mark VIe Wind Series turbine control systems. It serves as a pivotal communication and signal - routing bridge, enabling seamless real - time data exchange between on - tower AE (Automation Equipment) modules and the central Mark VIe controller, which is essential for precise turbine control and monitoring. This card is a functional enhanced variant of the IS210AEBIH series, boasting improved communication stability, expanded I/O capacity, and advanced diagnostic features, all while maintaining compatibility with existing Mark VIe infrastructure.
GE IS210AEBIH1B AE Bridge Interface Card for Mark VIe Wind Turbine Control Systems
Product Introduction
The IS210AEBIH1B is a specialized AE Bridge Interface Card designed by General Electric for the Mark VIe Wind Series turbine control systems. It functions as a critical communication and signal - routing bridge between the turbine’s on - tower AE (Automation Equipment) modules and the central Mark VIe controller, enabling seamless data exchange for real - time control and monitoring. The board features conformal coating to protect against moisture, dust, and corrosion, making it suitable for harsh wind farm environments, including offshore and onshore installations. As a functional revision “B” of the base IS210AEBIH1 board, it incorporates enhanced communication stability and diagnostic capabilities without compromising form factor or durability. It supports simplex and redundant Mark VIe configurations, ensuring reliable operation and minimizing downtime in wind energy applications.
