GE M60 Instruction Manual page 294

GROUPED ELEMENTS
and therefore, a significant increase in rotor heating. This extra heating is not accounted for in the thermal limit curves
supplied by the motor manufacturer as these curves assume positive sequence currents from a perfectly balanced supply
voltage and motor design.
The thermal model can be biased to reflect the additional heating that is caused by negative sequence current when the
motor is running. This biasing is done by creating an equivalent motor heating current rather than simply using average
three phase RMS. This equivalent current is calculated using the following equation.
where
I = equivalent motor heating current
eq
I = per unit current based on FLA
per_unit
I_1 = positive sequence current
I_2 = negative sequence current
k = constant
The following figure shows the motor derating as a function of voltage unbalance as recommended by the National
Electrical Manufacturers Association (NEMA). Assuming a typical induction motor with an inrush of 6 x FLA and a negative
sequence impedance of 0.167, voltage unbalances of 1, 2, 3, 4, and 5% equals current unbalances of 6, 12, 18, 24, and 30%
respectively. Based on this assumption, the amount of motor derating for different values of k entered for setting
UNBALANCE BIAS K FACTOR
curve.
1.05
5
1.00
0.95
0.90
0.85
0.80
0.75
0.70
0
PERCENT VOLTAGE UNBALANCE
If a value of k = 0 is entered, unbalance biasing is defeated and the overload curve times out against the measured per unit
motor positive sequence current. The following equations can be used to calculate k.
175
k = ------- - (typical estimate); k
2
I
LR
COOL TIME CONSTANT RUNNING / STOPPED
the motor current is below the full load amps x service factor settings to simulate motor cooling. Enter the motor cooling
time constants for both the stopped and running cases. A stopped motor normally cools significantly slower than a
running motor.
Motor cooling is calculated as follows.
where
5-166
I =
eq
is also shown. Note that the curve created when k = 8 is almost identical to the NEMA derating
Figure 5-79: Medium motor derating factor due to unbalance voltage
1 2 3 4
NEMA
230
= ------- - (conservative estimate), where I
2
I
LR
— The thermal capacity used value is reduced in an exponential manner when

TCU = TCU

------------------------------------- -
TCU =

end
overload_pickup
2
I_2
   
2
  ------ -
I 1 k +
per_unit
   
I_1
1.05
1.00
0.95
0.90
0.85
0.80
0.75
0.70
0
5
is the per unit locked rotor current
LR
t  
–
 e   TCU
TCU +
–
start end end
I
hot
 1  
eq
-------- - 
100%
–
  
cold
M60 MOTOR PROTECTION SYSTEM – INSTRUCTION MANUAL
CHAPTER 5: SETTINGS
1 2 3 4
PERCENT VOLTAGE UNBALANCE
GE Multilin
808728A2.CDR
Eq. 5-12
k=2
k=4
k=6
k=8
k=10
5
Eq. 5-13
Eq. 5-14
Eq. 5-15