GE EX2100e Fact Sheet

GE Energy

EX2100e Excitation Control
for Gas Turbine Generators

The EX2100e excitation control is GE Energy’s advanced
platform for generator excitation systems. EX2100e builds on
the EX2100 experience of over 700 units in gas, steam, and
hydro applications for new units and upgrades, in addition to
GE’s 40 years of experience with over 6,000 excitation
systems in 70 countries.

The “e” designates enhanced technology with a new
controller from the Mark* VIe controller family and ControlST*
software suite for commonality with GE’s family of plant
control systems. In addition, the EX2100e offers a brushless
dual redundant regulator option for cost effective reliability.

Architecture

The system consists of one or multiple controllers, a
protection module, power conversion bridges, and the power
magnetics / transformers. Typical functions performed in the
controller and protection system include:

Control

• Automatic voltage regulator

- Reactive current compensator

- Volts per hertz limiter

- Overexcitation limiter

- Underexcitation limiter

• Manual field voltage regulator

Protection

• Volts per hertz, dual level (24EX)

• Loss of excitation (40EX)

• Bridge ac voltage phase unbalance (47EX)

• Generator overvoltage (59EX)

• Off/online overexcitation (76EX)

The software can also include the power system stabilizer
(PSS). This enables the generator to produce and transmit
more power in a stable manner by reducing low frequency
rotor oscillations. Power system studies are available to
optimize the tuning of the stabilizer for the best performance.
These studies include computer simulations for transient
stability analysis. Field testing services are also available for
commissioning to verify and document system performance
to existing specifications.

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fact sheet

Redundancy

Gas turbine-generators (7 and 9FA, FB, and H class) have
potential source (bus fed) static excitation controls with
power potential transformers to step down the bus voltage to
a suitable voltage for the excitation controls. These controls
are normally supplied with either a full multi-bridge or a
warm backup for redundancy to maximize system reliability.
Redundant controls include online repair capability for circuit
boards and power supplies. Multi-bridge units can support
online repair of the power conversion bridges. Units with
redundant rectifier cooling fans can also be replaced online
to support equipment availability.

MS6001B, 6001FA, 7001EA, and 9001E gas turbine generators
usually have brushless excitation controls with an ac-rotating
generator connected to the shaft of the main generator.
These units are equipped with EX2100e excitation control
brushless regulators. They are normally supplied as simplex,
non-redundant, control systems, but are also available in
warm backup configuration for redundancy. They share the
same overall control design and software features as static
exciter systems for consistency. Gas turbines contain:

Turbine

MS9001H
MS7001H
MS9001FB
MS7001FB
MS9001FA
MS7001FA

MS9001E
MS7001EA
MS6001FA
MS6001B

System Type Redundancy
Potential source static

exciter

Brushless regulator
(typical)

Multi-bridge

Simplex and warm
backup option

GEA-S1240

Software Tools with System Diagrams

Networks and Communications

The EX2100e excitation control communicates on the same
10/100 Mbps Ethernet network as Mark Ve, Mark VI, and Mark
VIe turbine controls, and the LS2100 / LS2100e Static Starter.
Data is exchanged peer-to-peer between control systems for
functions such as var/power factor control to simplify plant
interconnections. Alarm/event management tools are shared
on the networks with high-resolution time tags, including 1
ms sequence of events reporting. A network timeserver can
be provided for time synchronization to a local time source or
a global positioning satellite. This is available with ±1 ms time
accuracy between a controller and a time source, and ±2 ms
time coherence between control systems.

If a third party supplies the Distributed Control System (DCS),
the local GE controls typically communicate using OPC
Modbus
three protocols support full operation and monitoring of the
controls from the DCS, but only OPC and GSM provide local
high-resolution time tags. If a Mark VIe Integrated Control
System (ICS) is supplied for the DCS, then IEC 60870-5 and
DNP 3.0 protocols are also frequently provided.

®

, or GE Standard Messaging (GSM) protocols. All

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,

Software Packages

The ControlST* software suite comprises several high­performance tools for ease of use by operators and
maintenance personnel. These include the WorkstationST*
software for management of HMI and Historian functions, the
ToolboxST* application for configuration and diagnostics, and
a CIMPLICITY
provides direct connectivity from parameters on operator
screens to their corresponding alarm history, trends, logic
diagrams, watch windows, and browsers.

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graphics user interface. Seamless integration

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Software tools include system diagrams with signal flow,
sequencing, and regulator control in the excitation control.
The diagrams display variables and their values in real time.
Parameters shown in the diagrams can be modified.

Benefits

• Maximum reliability with redundant control and

protection

• Better availability with improved diagnostics and online

repair

• Improved performance with advanced algorithms, such

as power system stabilizer

• Enhanced operability and maintenance with a versatile

software suite

• Reduced life-cycle support with a common architecture,

networks, and software suite

Conclusion

The EX2100e excitation control is a highly reliable control,
protection, and monitoring system. Its flexible architecture,
modern networks, and versatile software suite simplify
operations and integration with plant-level controls.
Advanced algorithms incorporate decades of fleet experience
and the latest controls technology to deliver the performance
needed in today’s power generation industry.

For further assistance or technical information, contact the
nearest GE Sales or Service Office, or an authorized GE Sales
Representative

© 2009, General Electric Company, All rights reserved.
* Trademark of General Electric Company.

CIMPLICITY is a registered trademark of GE Fanuc Automation North America, Inc.
Modbus is a registered trademark of Schneider Automation.
OPC is a registered trademark of The OPC Foundation.

GEA-S1240 090917

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