Advanced genset controller AGC 200
DEIF Advanced Genset Controller, AGC 200, meets and surpasses OEM needs for synchronization. A cost-effective, compact, scalable and all-in-one product, the AGC 200 comes in several variants.
The advanced controller series integrates all necessary functions for genset protection and control, stands out for its reliability and operator-friendliness, and features patent-pending DEIF Emulation to speed up design, testing and commissioning, saving man hours and costs.
Applying asymmetric load sharing to ensure optimal load on the genset, the AGC 200 also cuts operating costs and reduces harmful emissions. With temperature dependent cooling, the AGC 200 manage cooling at pre-programmed cool-down temperatures. Features automatic priority selection, setting the optimum combination of gensets for optimized fuel consumption.
Critical power applications
With its integrated load and power management functionality, the AGC 200 secures backup power availability when you need it. An ideal solution for critical power applications, such as data centers, hospitals, airports and fish farms.
Rental genset applications
Rental companies will benefit from the standardized user interfaces of all DEIF controllers. The controllers have been designed with ease of operation in view and rental companies can easily set and lock parameters to ensure full protection of their equipment.
AGC 200 is plug’n’play compatible with DEIF’s ASC-4 hybrid controller for easy integration of diesel genset applications into a variety of hybrid installations. The market-leading solution maximizes sustainable power penetration while always securing a sufficient amount of spinning reserve in case PV production drops.
Available standard modes:
Island mode: Power plant with synchronizing generators or a stand-alone generator. Also applicable in critical power plants.
Automatic Mains Failure: Critical power/emergency standby plants, black start generator.
Fixed power: Power plant with fixed kW set point (including building load).
Peak shaving: Power plant where generator supplies peak load demand paralleled to the mains.
Load takeover: Plant mode where the load is moved from mains to generator, for example peak demand periods or periods with risk of power outages.
Mains power export: Power plant with fixed kW set point (excluding building load).
All modes are configurable, and it is possible to change the plant mode on the fly both in single and in power management applications.
AGC 200 variants:
- AGC 212: single genset in island operation
- AGC 213: single genset for automatic mains failure operation
- AGC 222: multiple genset with advanced power management in plants up to 32 generators (limited I/O)
- AGC 232: multiple genset in island applications with digital load sharing
- AGC 233: single genset for automatic mains failure, peak shaving, load take over and mains power export operation
- AGC 242: multiple genset with advanced power management in plants up to16 generators
- AGC 243: control of single or multiple gensets
- AGC 244: bus tie breaker
- AGC 245: mains breaker control
- AGC 246: mains and tie breaker
- AGC 252: multiple gensets with advanced power management in plants up to 256 generators
- IOM 200: analog interface for AGC 200 family
- Up to 32 gensets in one plant
- Synchronization of up to 56 breakers in one plant
- Multiple operating modes in one software
- Multi-master power management
- Load-dependent start and stop
- Load management
- Emulation for fast training and I/O test
- Automatic Mains Failure sequence
- Approved by TÜV and UL
- Hot standby for full system redundancy
– change to backup genset controller on the fly
- Close Before Excitation
– synchronization from 6 seconds
- Lifetime logging stored on SD card
- Fully compatible with AGC-4 controllers
- Suitable for hybrid power solutions fitted with ASC-4 controllers
Digital voltage controller DVC 310
- Start management capability with start on threshold, soft start, and Close Before Excitation (CBE) functions
- Voltage regulation accuracy +/-0.25 %
- Optimize genset performance and size using exclusive engine help functions (load acceptance module, negative forcing, U/f, soft voltage recovery and stator current limitation)