GE 489 Instruction Manual page 111

Generator management relay

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4 SETPOINTS

c) VOLTAGE DEPENDENT OVERLOAD CURVE

It is possible and acceptable that the acceleration time exceeds the safe stall time (bearing in mind that a locked rotor con-

dition is quite different than an acceleration condition). In this instance, each distinct portion of the thermal limit curve must

be known and protection coordinated against that curve. The protection relay must be able to distinguish between a locked

rotor condition, an accelerating condition, and a running condition. The 489 voltage dependent overload curve feature is tai-

lored to protect these types of machines. Voltage is monitored constantly during starting and the acceleration thermal limit

curve adjusted accordingly. If the VT Connection setpoint is set to none or if a VT fuse failure is detected, the acceleration

thermal limit curve for the minimum allowable voltage will be used.

The voltage dependent overload curve is comprised of the three characteristic thermal limit curve shapes determined by

the stall or locked rotor condition, acceleration, and running overload. The curve is constructed by entering a custom curve

shape for the running overload protection curve. Next, a point must be entered for the acceleration protection curve at the

point of intersection with the custom curve, based on the minimum allowable starting voltage as defined by the minimum

allowable voltage. Locked Rotor Current and safe stall time must also be entered for that voltage. A second point of inter-

section must be entered for 100% voltage. Once again, the locked rotor current and the safe stall time must be entered, this

time for 100% voltage. The protection curve that is created from the safe stall time and intersection point will be dynamic

based on the measured voltage between the minimum allowable voltage and the 100% voltage. This method of protection

inherently accounts for the change in speed as an impedance relay would. The change in impedance is reflected by

machine terminal voltage and line current. For any given speed at any given voltage, there is only one value of line current.

GE Multilin

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MULTIPLES OF FULL LOAD AMPS

Figure 4–13: THERMAL LIMITS FOR HIGH INERTIAL LOAD

489 Generator Management Relay

489

THERMAL LIMITS

FOR HIGH INERTIAL LOAD

1- Running Overload Thermal Limit

2- Acceleration Thermal Limit @ 80%V

3- Acceleration Thermal Limit @ 100%V

4- Locked Rotor Thermal Limit

5- Machine Acceleration Curve @ 80% V

6- Machine Acceleration Curve @ 100%V

808826A3.CDR

4.10 S9 THERMAL MODEL

4-61

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GE 489 Instruction Manual page 111

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