Introduction
The Woodward EASYGEN‑3200‑5 Generator Controller is an advanced, integrated power control and monitoring system designed to manage generator sets reliably in both standby and prime power applications. Part of Woodward’s easYgen‑3000 series, this controller combines engine control, generator protection, synchronization, and load sharing in a single rugged unit — ideal for industrial, commercial, and microgrid power systems. Its versatile functionality makes it a foundational component for mission‑critical power installations and distributed generation architectures.
Engineered for flexibility and durability, the EASYGEN‑3200‑5 supports multiple communication protocols and a multilingual human‑machine interface, enabling local setup and remote integration into supervisory control systems.
Technical Specifications
| Specification | Details |
|---|
| Model | EASYGEN‑3200‑5 |
| Manufacturer | Woodward |
| Product Type | Generator Controller |
| Series | easYgen‑3000 |
| Engine Compatibility | Diesel, Gas, Bi‑Fuel engines |
| Supported Power Range | Up to ~3.5 MW generator sets |
| Parallel Support | Up to 32 gensets |
| Display | 5.7″ or 7″ (model variant) color HMI |
| Synchronization | Automatic generator synchronization |
| Load Sharing | Proportional and droop load sharing |
| Communication Protocols | Modbus (RTU/TCP), CANopen/J1939, Ethernet |
| I/O Capacity | Digital, analog, RTD/pulse inputs/outputs |
| Power Supply | 12–24 V DC |
| Event Logging | FIFO event history (capacity varies) |
| Operating Temp. | –20°C to +70°C |
| Mounting | Panel mount |
| Weight | Approx. 1.8–2.0 kg |
Typical Applications
Standby and Emergency Power Systems
Maintains reliable backup power in critical facilities such as hospitals, data centers, and industrial plants.
Prime Power and Microgrids
Controls distributed generator resources for peak shaving, islanded operation, and optimized fuel use.
Industrial Generator Set Control
Integrates engine and generator management for manufacturing, mining, and infrastructure applications.
Parallel Generator Systems
Supports multi‑genset configurations with automatic synchronizing, load sharing, and breaker control.
Renewable Hybrid Systems
Interfaces with energy storage and renewable generation elements for coordinated microgrid management.
Advantages
Comprehensive Power Logic
Combines engine, generator, and system control into one compact controller, reducing system complexity.
Flexible Interfacing
Supports widely used fieldbus and industrial communications for integration into SCADA, PLC, or BMS architectures.
Enhanced Reliability
Designed for harsh environments with wide temperature tolerance and rugged construction.
Scalable Architecture
Adapts easily from single genset control to complex, multi‑unit architectures.
Operator‑Friendly Design
Intuitive display and configurable HMI help reduce commissioning time and simplify onsite operations.
Advantages
Comprehensive Power Logic
Combines engine, generator, and system control into one compact controller, reducing system complexity.
Flexible Interfacing
Supports widely used fieldbus and industrial communications for integration into SCADA, PLC, or BMS architectures.
Enhanced Reliability
Designed for harsh environments with wide temperature tolerance and rugged construction.
Scalable Architecture
Adapts easily from single genset control to complex, multi‑unit architectures.
Operator‑Friendly Design
Intuitive display and configurable HMI help reduce commissioning time and simplify onsite operations.
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