The WOODWARD 5437-1067A is a high-performance central processing unit (CPU) module designed for the WOODWARD MicroNet™ Plus distributed control system, serving as the intelligent core for turbine, engine, and generator set control in demanding power generation and industrial environments. It executes real-time control logic, supervisory sequences, and protection functions with deterministic scan times under 10 ms.
Built for mission-critical reliability, the 5437-1067A supports full hardware redundancy, advanced diagnostics, and seamless integration with field I/O—making it the backbone of modern, automated turbine control systems worldwide.
The WOODWARD 2301E 8273-1011 is a dedicated, isolated control module from Woodward’s renowned 2301E Speed Control family. It functions as a critical component within a complete governor system, designed to provide precise speed/load control for industrial prime movers like diesel, gas, and dual-fuel engines, as well as steam and gas turbines. This specific module, identified by the part number 8273-1011, is an OEM component responsible for driving the actuator and ensuring stable, responsive engine operation.
The WOODWARD 9907-147 is a genuine, factory-original electronic control module manufactured by Woodward for its legacy governor and control systems. This critical component functions as a dedicated control card, often integral to speed governing, sequencing, or actuator control functions within turbine or engine management systems. Its primary role is to ensure precise control logic execution, maintaining the stability, safety, and efficiency of the prime mover it governs.
The WOODWARD 9907-1200 is a high-integrity I/O interface module designed for use within WOODWARD’s MicroNet™ Plus distributed control system, primarily serving gas turbines, steam turbines, and reciprocating engines in power generation and industrial applications. It acts as the critical link between field sensors/actuators and the central controller, delivering precise analog and speed signal handling with built-in redundancy support.
Engineered for mission-critical environments, the 9907-1200 ensures reliable data acquisition and output control under extreme electrical noise, temperature swings, and vibration—making it a trusted component in black-start capable and island-mode power plants worldwide.
The WOODWARD 8440-1713 is a rugged, microprocessor-based electro-hydraulic actuator designed for precise speed and load control in industrial turbines, diesel engines, and generator sets. As part of Woodward’s acclaimed 8440 series, this module integrates servo-valve drive electronics, position feedback processing, and fail-safe logic into a single DIN-rail mountable unit. Engineered for mission-critical power generation and mechanical drive applications, the WOODWARD 8440-1713 delivers deterministic response, high reliability, and seamless integration with modern control systems—ensuring stable operation even under rapid load transients or grid disturbances.
For more detailed product specifications, please refer to the Woodward product documentation or contact their sales representatives.
The DC10502-000-012 is part of Woodward’s extensive line of engine and turbine control products.
Please note: This information is based on general knowledge of Woodward products and may not be entirely accurate or comprehensive. It is always recommended to consult the official Woodward documentation for the most up-to-date and detailed information.
While the specific application depends on the overall turbine control system design, the 5466-316 could be involved in various control functions within a turbine system, such as:
Speed Control: Processing sensor signals to monitor turbine speed and sending control signals to adjust turbine operation for maintaining desired speed.
Temperature Control: Monitoring exhaust gas temperatures or other critical temperature points within the turbine and adjusting control parameters to prevent overheating.
Vibration Monitoring: Interfacing with vibration sensors to detect potential issues and enabling preventative maintenance actions.
Fuel Control: Processing signals related to fuel flow or pressure to regulate fuel delivery for efficient and safe combustion.
Engine-Generator Control: The EasyGen-3500-5 provides comprehensive control functionalities for both the engine and the generator within a genset. It regulates engine parameters like speed, temperature, and fuel delivery to ensure optimal operation. Additionally, it controls the generator’s voltage, frequency, and power output to deliver clean and stable electrical power.
Protection Features: The controller incorporates various protection features to safeguard the engine and generator from damage. These features can include overspeed protection, overcrank protection, undervoltage protection, and overcurrent protection. By monitoring critical parameters and taking corrective actions, the EasyGen-3500-5 helps prevent equipment failures and extend lifespan.
Communication Capabilities: This model likely offers Ethernet and USB connectivity for communication with external systems. This allows for remote monitoring, data logging, and configuration updates using a computer or SCADA (Supervisory Control and Data Acquisition) system.
Simplified Construction: The EasyGen-3500-5 is designed with a focus on simplified construction, potentially making it easier to install and maintain compared to more complex controllers.
User-Friendly Interface: It likely features a user-friendly interface for configuration, monitoring, and troubleshooting. This can include an LCD display and keypad for local operation.
Applications:
The Woodward EasyGen-3500-5 is suitable for various applications involving engine-generator sets, including:
Backup Power Generation: Providing emergency power during outages in commercial buildings, hospitals, data centers, and other critical facilities.
Prime Power Generation: Supplying primary electrical power in off-grid locations or remote applications where connection to the utility grid is unavailable.
Peak Lopping: Assisting the utility grid by generating additional power during peak demand periods to reduce strain on the main grid infrastructure.
Renewable Energy Integration: Potentially managing gensets used in conjunction with renewable energy sources like solar or wind power to provide backup power or grid stabilization.
The Woodward 8200-1302 has numerous parameters that contribute to its superior performance. These include its high efficiency, precise operation, and durability. The specific parameters can vary depending on the application for which it is used.
Specifications
The specifications of the Woodward 8200-1302 are a testament to its excellence. It is built with top-quality materials that ensure its long-lasting performance. Furthermore, it is designed to meet all the necessary standards and requirements, ensuring its reliability and safety.
