Siemens SIPROTEC 4 7SJ61 Manual page 61

Secondary nominal voltage
Vector groups
Neutral point
Fault power on 110 kV-side
Based on the data above, the following fault currents are calculated:
Three-Phase High Voltage Side Fault Current
Three-Phase Low Voltage Side Fault Current
On the High Voltage Side Flowing
The nominal current of the transformer is:
= 84 A (High Voltage Side)
Ι
NomT, 110
Current Transformer (High Voltage Side)
Current Transformer (Low Voltage Side)
Due to the following definition
[hochstrom-260602-kn, 1, en_US]
the following setting applies to the protection device: The 50-2 high-set current element must be set higher
than the maximum fault current which is detected during a low side fault on the high side. To reduce fault
probability as much as possible even when fault power varies, the following setting is selected in primary
values: 50-2 /Ι
Nom
50-3.
Increased inrush currents, if their fundamental component exceeds the setting value, are rendered harmless
by delay times (address 1203 50-2 DELAY or 1218 50-3 DELAY).
For motor protection, the 50-2 relay element must be set smaller than the smallest phase-to-phase fault
current and larger than the largest motor starting current. Since the maximum occurring startup current is
usually below 1.6 x the rated startup current (even with unfavourable conditions), the following setting is
adequate for the fault current element 50-2:
1.6 x Ι < 50-2 Pickup < Ι
Startup
The potential increase in starting current caused by overvoltage conditions is already accounted for by the 1.6
factor. The 50-2 element can be tripped without delay (50-2 DELAY = 0.00 s), since saturation of the shunt
reactance occurs in a motor, unlike in a transformer, for example.
The principle of the "reverse interlocking" utilizes the multi-element function of the time overcurrent protec-
tion: Element 50-2 PICKUP is applied as a fast busbar protection with a shorter safety delay time 50-2
DELAY (e.g. 100 ms). For faults at the outgoing feeders, element 50-2 is blocked. The elements 50-1 or 51
serve as backup protection. The pickup values of both elements (50-1 PICKUP or 51 PICKUP and 50-2 PICKUP)
are set equal. The delay time 50-1 DELAY or 51 TIME DIAL is set in such manner that it overgrades the
delay for the outgoing feeders.
The selected time is an additional delay time and does not include the operating time (measuring time,
dropout time). The delay can also be set to ∞. In this case, the element will not trip after pickup. However,
pickup, will be signaled. If the 50-2 element or the 50-3 element is not required at all, the pickup threshold
50-2 or 50-3 is set to ∞. This setting prevents tripping and the generation of a pickup message.
High-set Current Elements 50N-2, 50N-3 (ground)
The pickup current of the high-set element 50N-2 PICKUP or 50N-3 PICKUP can be set at address 1302 or
1317. The corresponding delay time 50N-2 DELAY or 50N-3 DELAY can be configured under address 1303
or 1318. The same considerations apply to these settings as they did for phase currents discussed earlier.
The selected time is an additional delay time and does not include the operating time (measuring time,
dropout time). The delay can also be set to ∞. In this case, the element will not trip after pickup. However,
SIPROTEC 4, 7SJ61, Manual
C53000-G1140-C210-6, Edition 05.2016
= 10, i.e. 50-2 = 1000 A. The same applies analogously when using the high-set element
fault,2pol,min
2.2 Overcurrent Protection 50, 51, 50N, 51N
V = 20 kV
Nom2
Dy 5
Grounded
1 GVA
at 110 kV = 5250 A
at 20 kV = 3928 A
at 110 kV = 714 A
= 462 A (Low Voltage
Ι
NomT, 20
Side)
100 A/1 A
500 A/1 A
Functions
61