De-Energized Switching - Siemens SIPROTEC 7SJ62 Manual

Functions
2.19 Synchronization Function
Switching under Asynchronous System Conditions
For switching under asynchronous system conditions the device determines the time for issuing the ON
command from the angle difference and the frequency difference such that the voltages (of busbar and feeder)
are identical at the instant the poles make contact. For this purpose the device must be informed of the oper-
ating time of the circuit breaker for closing.
Before a release is granted, the following conditions are checked:
• Is the reference voltage V
• Is the voltage V
• Is the voltage difference V
• Is the voltage difference V
• Are the two frequencies f
• Is the frequency difference f
• Is the frequency difference f
When the check has been terminated successfully, the device determines the next instant at which the two
systems are in phase from the angle difference and the frequency difference. The ON command is issued at
this instant minus the operating time of the circuit breaker.

2.19.1.4 De-energized Switching

Connecting two components of a power system is also possible if at least one of the components is de-ener-
gized and if the measured voltage is greater than the threshold6106 V>. Thus, with a multiple-phase connec-
all three voltages must have a higher value than threshold V> so that side V
tion at side V
1
energized. With single-phase connection, of course, only one voltage has to exceed the threshold value.
Besides release under synchronous conditions, the following additional release conditions can be selected for
the check:
SYNC V1>V2< =
SYNC V1<V2> =
SYNC V1<V2< =
Each of these conditions can be enabled or disabled individually; combinations are thus also possible (e.g.,
release if SYNC V1>V2< or SYNC V1<V2> are fulfilled).
For that reason synchronization with the use of the additional parameter 6x13 25 Synchron (configured to
NO) can also be used for the connection of a ground electrode. In such a case, one may only connect when
there is no voltage on the load side, i.e. under synchronous conditions no connection is permitted.
The release conditions can be configured individually either for automatic reclosing or for manual closing via
control commands. You can, for example, allow manual closing for synchronism or for de-energized feeder
whereas before an automatic reclosing operation, checking only de-energized conditions at one feeder terminal
and afterwards only synchronism at the other.
The threshold below which a power system component is considered as de-energized is defined by parameter
V<. If the measured voltage exceeds the threshold V>, a power system component is energized. Thus, with a
multiple-phase connection at side V
V is recognized as energized. With single-phase connection only one voltage has to exceed the threshold
1
value.
310
above the setting value Vmin but below the maximum voltage Vmax?
1
to be synchronized above the setting value Vmin but below the maximum voltage Vmax?
2
within the permitted threshold dV ASYN V2>V1?
– V
2 1
within the permitted threshold dV ASYN V2<V1?
– V
1 2
and f within the permitted operating range f
1 2
within the permitted threshold df ASYN f2>f1?
– f
2 1
within the permitted threshold df ASYN f2<f1?
– f
1 2
Release on the condition that component V
is de-energized.
Release on the condition that component V
V is energized.
2
Release on the condition that component V
ergized.
all three voltages must have a higher value than threshold V> so that side
1
± 3 Hz?
Nom
is recognized as
1
is energized and component V
1
is de-energized and component
1
and component V
1
SIPROTEC, 7SJ62/64, Manual
C53000-G1140-C207-2, Release date 01.2008
2
are de-en-
2