The Woodward 9907-027 Rev A Load Sharing Module Generator Module is designed for seamless integration into complex industrial control systems, enhancing efficiency through precise load management.
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The Woodward 9907-027 Rev A Load Sharing Module Generator Module is designed for seamless integration into complex industrial control systems, enhancing efficiency through precise load management.
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Model:9907-027 Rev A
Load Sharing Capability:Supports up to 4 generators
Control System:Advanced microprocessor-based
Input Voltage Range:200V to 500V AC
Output Current Range:10A to 50A DC
Frequency Stability:+/- 0.01%
Environmental Rating:IP54
Operating Temperature:-20°C to +50°C
Dimensions (WxDxH):150mm x 200mm x 100mm
Weight:3.5kg
The Woodward 9907-027 Rev A Load Sharing Module is engineered for industries requiring robust and reliable power management solutions. It features an advanced microprocessor-based control system that ensures precise load sharing across multiple generators, optimizing power distribution and enhancing system stability.
With support for up to four generators, this module provides unparalleled flexibility in managing complex power requirements. Its wide input voltage range (200V to 500V AC) and output current range (10A to 50A DC) make it suitable for a variety of industrial applications.
The module’s frequency stability of +/- 0.01% ensures uninterrupted operation even under varying loads, guaranteeing consistent performance. The IP54 environmental rating ensures durability in harsh conditions, while the operating temperature range (-20°C to +50°C) accommodates diverse environments.
Crafted from high-quality materials, the 9907-027 Rev A Load Sharing Module is designed for longevity and reliability. It is equipped with user-friendly interfaces and diagnostic tools, facilitating easy setup and maintenance.
For applications demanding precise control over power distribution, the Woodward 9907-027 Rev A Load Sharing Module is an indispensable component, offering a comprehensive solution that maximizes efficiency and minimizes downtime.
