Protection, Voltage protection, Overexcitation (volts per hertz) – Basler Electric DECS-250N User Manual

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DECS-250N

Protection

Protection

The DECS-250N offers protection relating to generator voltage, frequency, power, field parameters,
rotating exciter diodes, power input failure, and generator-to-bus synchronism. Configurable protection
elements supplement this protection with additional, user-defined system parameters that have multiple
pickup thresholds per parameter. Most protection functions have two groups of settings labeled Primary
and Secondary. Two setting groups enable independent protection coordination which is selectable in
BESTlogic™Plus.

Voltage Protection

BESTCOMSPlus Navigation Path: Settings Explorer, Protection, Voltage

HMI Navigation Path: Settings, Protection, Voltage Protection

Voltage protection includes overexcitation, generator undervoltage, generator overvoltage, and loss of
sensing voltage.

Overexcitation (Volts per Hertz)

Volts per hertz protection is annunciated if the ratio of the per-unit voltage to the per-unit frequency
(volts/hertz) exceeds one of the Volts per Hertz Pickup Level

A

settings for a definite amount of time

B

. If the

Volts per Hertz Pickup level is exceeded, timing will continue until the volts per hertz ratio drops below the
dropout ratio (95%). Volts per hertz protection also guards against other potentially damaging system
conditions such as a change in system voltage and reduced frequency conditions that can exceed the
system’s excitation capability.

Several volts per hertz settings enable the DECS-250N to provide flexible generator and generator step-
up transformer overexcitation protection. An inverse square timing characteristic is provided through the
Inverse Time Pickup Setpoint

C

and Time Dial

D

settings. These settings enable the DECS-250N to

approximate the heating characteristic of the generator and generator step-up transformer during
overexcitation. A linear reset characteristic is provided through the Reset Dial

E

setting. Volts per hertz

protection can be enabled and disabled

F

without altering the pickup and time delay settings.

Two sets of fixed-time, overexcitation pickup settings are available through the Definite Time Pickup #1,
#2 and Definite Time Delay #1, #2 settings.

The following equations represent the trip time and reset time for a constant V/Hz level. Volts per hertz
characteristic curves are illustrated in Figure 25 and Figure 26.

n

NOMINAL

MEASURED

T

T

Hz

V

Hz

V

D

T













−

=

1

/

/

100

×

×

=

FST

E

D

T

T

R

R

Equation 7. Trip Time

Equation 8. Reset Time

Where:

T

T

= time to trip

T

R

= time to reset

D

T

= time dial trip

D

R

= time dial, reset

E

T

= elapsed time

n = curve exponent (0.5, 1, 2)

G

FST=full scale trip time (T

T

)

E

T

/FST =fraction of total travel toward trip that integration had progressed to. (After a trip, this value

will be equal to 1.)

BESTCOMSPlus

®

overexcitation settings are illustrated in Figure 27.