GE 489 User Manual

1-2

489 Generator Management Relay

GE Multilin

1.1 OVERVIEW

1 INTRODUCTION

1

Power metering is a standard feature in the 489. The table below outlines the metered parameters available to the operator
or plant engineer either through the front panel or communications ports. The 489 is equipped with three fully functional and
independent communications ports. The front panel RS232 port may be used for setpoint programming, local interrogation
or control, and firmware upgrades. The computer RS485 port may be connected to a PLC, DCS, or PC based interface
software. The auxiliary RS485 port may be used for redundancy or simultaneous interrogation and/or control from a second
PLC, DCS, or PC program. There are also four 4 to 20 mA transducer outputs that may be assigned to any measured
parameter. The range of these outputs is scalable. Additional features are outlined below.

Table 1–1: TRIP AND ALARM PROTECTION FEATURES

TRIP PROTECTION

ALARM PROTECTION

Seven (7) Assignable Digital Inputs: General Input,

Sequential Trip (low forward power or reverse power), Field-

Breaker discrepancy, and Tachometer

7 assignable digital inputs: general input and tachometer

Overload

Negative Sequence

Offline Overcurrent (protection during startup)

Ground Overcurrent

Inadvertent Energization

Ground Directional

Phase Overcurrent with Voltage Restraint

Undervoltage

Negative-Sequence Overcurrent

Overvoltage

Ground Overcurrent

Volts Per Hertz

Percentage Phase Differential

Underfrequency

Ground Directional

Overfrequency

High-Set Phase Overcurrent

Neutral Overvoltage (Fundamental)

Undervoltage

Neutral Undervoltage (3rd Harmonic)

Overvoltage

Reactive Power (kvar)

Volts Per Hertz

Reverse Power

Voltage Phase Reversal

Low Forward Power

Underfrequency (two step)

RTD: Stator, Bearing, Ambient, Other

Overfrequency (two step)

Short/Low RTD

Neutral Overvoltage (Fundamental)

Open RTD

Neutral Undervoltage (3rd Harmonic)

Thermal Overload

Loss of Excitation (2 impedance circles)

Trip Counter

Distance Element (2 zones of protection)

Breaker Failure

Reactive Power (kvar) for loss of field

Trip Coil Monitor

Reverse Power for anti-motoring

VT Fuse Failure

Low Forward Power

Demand: Current, MW, Mvar, MVA

RTDs: Stator, Bearing, Ambient, Other

Generator Running Hours

Thermal Overload

Analog Inputs 1 to 4

Analog Inputs 1 to 4

Service (Self-Test Failure)

Electrical Lockout

IRIG-B Failure

Table 1–2: METERING AND ADDITIONAL FEATURES

METERING

ADDITIONAL FEATURES

Voltage (phasors)

Drawout Case (for ease of maintenance and testing)

Current (phasors) and Amps Demand

Breaker Failure

Real Power, MW Demand, MWh

Trip Coil Supervision

Apparent Power and MVA Demand

VT Fuse Failure

Reactive Power, Mvar Demand, Positive and Negative MVarh

Simulation

Frequency

Flash Memory for easy firmware upgrades

Power Factor

RTD

Speed in RPM with a Key Phasor Input

User-Programmable Analog Inputs