Basler BE1-CDS220, Инструкция по эксплуатации

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BE1-CDS220 Application 8-17
SL-VO1=151PT+51NT+151NT+151QT+87RT+87UT
SL-VO2=151PT+51NT+151NT+151QT+87RT+87UT+43
SL-VO3=/IN3*143
SL-VO4=251PT+251NT+251QT+87RT+87UT+101T
SL-VO5=/IN3*101C
SL-VO6=ALMMAJ
SL-VO7=0
SL-VO8=0
SL-VO9=0
SL-VO10=0
SL-VO11=151PT+251PT+51NT+151NT+251NT+151QT+251QT+87RT+87UT
SL-VO12=87UT+51NPU+87RPU
SL-VO13=/243
SL-VO14=IN7
SL-VO15=IN8
Protection Elements
Referring to Figure 8-5, the 87 and 151 protection elements are connected to the high-side CT, input 1.
The 87 and 251 protection elements are connected to the low-side CT input 2. The 51 protection element
(N only) is connected to a ground CT at the grounded side of a delta-wye transformer. The ground input
(G) is an option on the BE1-CDS220 and must be ordered. Paralleled CTs inside a delta tertiary (3Io) can
also feed the 51N. The 87, 51, 151, and 251 protection elements are logic enabled to provide a trip
through the BE1-CDS220 outputs. Protection elements set at 0 are setting disabled and will not provide a
trip output, even if logic enabled.
Typically, the BE1-CDS220 would be applied with a BE1-851 or BE1-951 multifunction overcurrent relay to
provide independent, overlapping, backup protection in the event of a common mode failure. The 87
protection element provides high-speed restrained differential and unrestrained differential phase and
ground protection for faults inside the differential zone. At the same time, it provides security against mis-
operations resulting from transformer inrush by restraining and preventing a trip in the presence of 2
nd
and
5
th
harmonics.
Typically, the 151 protection element is coordinated with the low-side bus protection to provide Phase,
Neutral, and Negative-Sequence timed backup protection for the low-side bus if the bus protection is out
of service.
Typically, the 251 protection element is coordinated with the low-side feeder protection to provide Phase,
Neutral, and Negative-Sequence timed backup protection for feeder faults if the feeder protection is out of
service.
Typically, the 51N protection element is coordinated with the low-side bus and feeder protection to provide
Neutral (ground) timed backup protection for transformer low-side, bus, and feeder ground faults if any
primary zone of protection is of service.
Integration of Protection, Control, and I/O Elements
The logic settings in Table 8-11 also include the logic equations that establish the control connections
between elements of the TX-W-CTL scheme. For example, the three underlined commands in the logic
equations of Table 8-11 provide the electrical connection between the 87 element (trip enabled by the
settings) and trip outputs 1, 2, and 4. Referring to Figures 8-5 and 8-6, the 87 protection element trips
through outputs 1, 2, and 4. The 151 and 51N protection elements (also trip enabled by the settings) trip
through outputs 1 and 2, and the 251 protective element (also trip enabled by the settings) trips through
output 4. Protection elements set at 0 are setting disabled and will not provide a trip output even if logic
enabled.
Virtual control switch elements enabled for use in this scheme are 101, 43, 143, 243, and 343. The 101
control switch trips the low-side breaker through output 4 and closes the low-side breaker through output 5
if IN3 (86 input) is not TRUE. The high-side breaker is tripped by 43 through output 2 and closed by 143
through output 3 if IN3 (86 input) is not TRUE. Control switch 243 is used to turn the 87 function on or off.