4. APPLICATION
4-2
BUS1000 Busbar Protection
GEK-98514B
4.1.
SELECTION GUIDE
In order to select adequately the protection system required, the following data must be considered:
•
System frequency
•
Auxiliary infeed voltage
•
Bus disposition
•
Transformer relation and characteristics (including burdens and cable lengths) of the current
transformers for each position
•
Optional functions required:
•
Position overcurrent supervision
•
Breaker failure logic
•
Tests system
•
Housing in separate 19-inch racks or in complete cabinets.
4.2.
CALCULATION OF SETTINGS
For a correct application of the BUS1000 protection system and selection of its adjustments, the following
points must be considered:
4.2.1. MAIN CURRENT TRANSFORMERS
The BUS1000 system
does not require the use of dedicated current transformers
for bus differential
protection. Current transformers with positions associated to busses may be of different types and ratios.
Check that the relation between the highest and lowest transformation ratios of the current
transformers associated with the protected bus is not greater than 10.
Check that the saturation voltage in every current transformer is at least equal to the quotient between 500 V
and the transformation ratio of the auxiliary transformer connected to it. For example, for a position with an
auxiliary transformer of a 5/1 ratio, the saturation voltage of the main current transformer must be equal or
greater than 100 Volts.
4.2.2. INTERMEDIATE AUXILIARY CURRENT TRANSFORMERS
The transformation ratio of the auxiliary transformers provided for every position must be selected in such a
way that the global transformation ratio (resulting from the relation of the main transformers multiplied by the
auxiliary transformers) for every position associated to the busses to be protected is the same.
The first step to be taken is to start with the position whose main transformer has the greatest ratio, selecting
the lowest possible ratio for its auxiliary transformer, but without overloading the input to the bus protection
relay (2 I
N
maximum).
As an example, for a bus whose positions are provided with current transformers with 1000/5, 600/5 and
300/5 ratios, 5/1.67, 5/1 and 5/0.5 ratios will be selected respectively. This selection will provide a 600/1
global ratio for bus protection and will result in a full load current of 1.67 amps for inputs corresponding to
the circuits with CT ratio of 1000/5 A (full load primary current of 1000 A).
Check that the total of the currents of all the positions applied to the differential protection in maximum
current conditions going through the busses is not above 20 I
N
.
Содержание BUS1000
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Страница 27: ...5 HARDWARE DESCRIPTION GEK 98514B BUS1000 Busbar Protection 5 3 Figure 7 1 BBD RACK Figure 7 2 BTR RACK ...
Страница 28: ...5 HARDWARE DESCRIPTION 5 4 BUS1000 Busbar Protection GEK 98514B Figure 7 4 BAR RACK Figure 7 5 BFR RACK ...
Страница 34: ...5 HARDWARE DESCRIPTION 5 10 BUS1000 Busbar Protection GEK 98514B ...
Страница 36: ...6 RECEIVING HANDLING AND STORAGE 6 2 BUS1000 Busbar Protection GEK 98514B ...
Страница 54: ...8 FINAL INSTALLATION AND COMMISSIONING 8 4 BUS1000 Busbar Protection GEK 98514B ...
Страница 56: ...9 TESTS AND PERIODICAL MAINTENANCE 9 2 BUS1000 Busbar Protection GEK 98514B ...
Страница 57: ...10 FIGURES GEK 98514B BUS1000 Busbar Protection 10 1 10 10 10 10 FIGURES FIGURES FIGURES FIGURES ...
Страница 66: ...10 FIGURES 10 10 BUS1000 Busbar Protection GEK 98514B ...
Страница 70: ...11 DIMENSIONS 11 4 BUS1000 Busbar Protection GEK 98514B FIGURE 19 POWER SUPPLY OR THYRITE BOXES 226B2211F18 ...
Страница 71: ...11 DIMENSIONS GEK 98514B BUS1000 Busbar Protection 11 5 FIGURE 20 BREAKER BLOCK DIAGRAM 226B2211F23 ÿ ÿ ÿ ÿ ÿ ...
Страница 74: ...11 DIMENSIONS 11 8 BUS1000 Busbar Protection GEK 98514B FIGURE 23 CABINET 226B2211F21 ...
Страница 104: ...13 SCHEMATICS DOUBLE BUSBAR 13 16 BUS1000 Busbar Protection GEK 98514B ...
Страница 107: ...13 SCHEMATICS DOUBLE BUSBAR GEK 98514B BUS1000 Busbar Protection 13 19 16 TEST UNIT ZONES A B 226B6429F16 ...
Страница 121: ...13 SCHEMATICS DOUBLE BUSBAR GEK 98514B BUS1000 Busbar Protection 13 33 31 POWER SUPPLY AUXILIARY CIRCUITS 226B6429F31 ...
Страница 123: ...13 SCHEMATICS DOUBLE BUSBAR GEK 98514B BUS1000 Busbar Protection 13 35 43 SIGNALLING CONTACT OUTPUTS 226B6429F43 ...
Страница 124: ...13 SCHEMATICS DOUBLE BUSBAR 13 36 BUS1000 Busbar Protection GEK 98514B CABINETS INTERCONNECTIONS 226B6429F44 ...