IN.3Index
D–D
Date Code 20151029 SEL-411L Relay
serial P.2.38–P.2.42, C.1.2–C.1.3
application example
P. 1 0. 5 –
P. 10 . 6
transparent mode
P.15.14, P.15.41
virtual serial ports
C.2.3
Communications Card
C.6.18
Communications Processor
C.3.1
application example
C.3.5
Communications-Assisted Tripping
P.3.220–P.3.236
See also DCB; DCUB; POTT
DCB P.3.221–P.3.224
DCUB
P.3.232–P.3.236
POTT
P.3.224–P.3.231
Compressed ASCII
C.2.5
See also ASCII Commands
COMTRADE
P. 8. 8–P.8.14, P.13.11
See also Event
.CFG file P.8.9–P.8.10
.DAT file
P. 8. 1 0
.HDR file
P.8.8
Configuration
serial number label
P.10.2
Connection
P.2.25–P.2.42
ac/dc diagram
P.2.44–P.2.46
alarm output
P.2.34
battery monitors
P. 2. 32
close output
P. 2. 3 5
communications ports
P.2.37
control inputs
P.2.33
control outputs
P.2.34
grounding
P.2.30
IRIG-B
P. 2. 36 , P.1 3.2
power
P.2.32, P.10.3
screw terminal connectors
P.2 .2 9
secondary circuits
P. 2. 33
serial port
P.2.38
terminal blocks
P.2 .3 3
test connections
P. 1 1. 1 1
trip output
P.2.35
wire insulation
P.2.25
wire size
P.2 .3 0, P. 10 . 3
Connectors
P.2 .2–P.2. 45
screw terminal connectors
P.2 .2
terminal blocks
P.2 .2
Contact Card
See SEL Contact Card
Contact Outputs
See Control Outputs
Contact Wear Curve
See Circuit Breaker‚ contact wear
curve
Contact Wear Monitor
See Circuit Breaker‚ contact wear
monitor
Contrast, LCD
P.7.12
Control Inputs
P.2.5, P.2.12, P.2 .33
ac voltages
P.2.5
common
P.2 .5
debounce
P.2.5
independent
P.2.5
optoisolated
P.2.5, P.2.12
range
P.2.5
sample rate
P.2.6
time
COMTRADE report
P.8.22
event report
P.8.22
Control Outputs
P.2.6–P.2.9, P.2.12,
P.2.34–P.2.35
close outputs
P.10. 24 –P.10 .27
connecting
P.2.34
Form A
P.2.6, P.2.7, P.2.12
Form C
P.2.6, P. 2 .1 2
high-speed, high-current
interrupting
P.2.7–P.2.9
diagrams
P. 2 .8
precharging
P.2 .8
ratings
P.2.7
hybrid (high-current interrupting)
P.2.6–P.2.7
diagram
P.2.7
ratings
P.1.13, P.2.6
INT2, INT7, INTC, INTD, and
INTE
P.2.12
MOV
P. 2 .6
pulsing
application example
front panel
P.10. 22 –P.10 .24
terminal
P.10.21–P.10.22
sample rate
P.2.6
standard
P.2 .6
diagram
P.2.6
ratings
P.1.13
trip outputs
P. 1 0. 2 4 –P. 1 0. 27
Counters
See SEL
OGIC Control Equations
Coupling Capacitor Voltage Transformer
See CCVT
Cross-Country Faults
P.3.227
See also POTT
CSER Command
P.8 .3 2–P. 8 .3 3,
P.15.15–P.15.16
See also SER (Sequential Events
Recorder)
CST Command
P. 1 1. 4 0
CSUMMARY Command
P.8.28,
P.15.17–P.15.18
See also Event Summary
Current and Voltage Source Selection
P.3.106–P.3.118
connections
P.3.107
ESS := 1 (single circuit breaker)
P.3.108, P.3.112–P.3.113
ESS := 2 (single circuit breaker)
P.3.108, P.3.113
ESS := 3 (double circuit breaker)
P.3.108, P.3.114
ESS := 4 (double circuit breaker)
P.3.108, P.3.115
ESS := N (single circuit breaker)
P.3.108, P.3.112
ESS := Y
P.3.108–P.3.110, P.3.115–
P.3.118
current polarizing source
P.3.117–P.3.118
voltage source switching
P.3.111–
P.3.112
current transformer open circuit
detection P.3.67
CVT Transient Detection P.3.154–
P.3.155
logic diagram
P.3.155
D
Data
filtered data
P.8.2
high-resolution raw data
P.8.2
DC Battery System Monitor
P.1.4,
P.9 .20 –P.9 .2 4
ac ripple, definition
P.9 .2 0
ac ripple, measuring
P.9.22
alarm
P.9 .2 4
application example
P.9.21–P.9.24
dc ground detection
P.9.23
equalize mode voltage level
P.9.21
float high voltage level
P. 9. 2 1
float low voltage level
P.9.21
metering
P. 9. 2 4
open-circuit voltage level
P.9.21
reset metering
P.9 .2 4
thresholds, warn and fail
P. 9. 2 0
trip/close voltage level
P.9.21
Vdc1
P.9.20
Vdc2
P.9.20
DCB
P.3.221–P.3.224
blocking signal extension
P.3.222–
P.3.223
coordination timers
P.3.221–P.3.222
logic diagram
P.3.224
starting elements
P.3.222
stopping elements
P.3.223
DCUB
P.3.232–P.3.236
logic diagrams
P.3.235–P.3.236
loss-of-guard, LOG
P.3.232
permissive trip blocking, UBB
P.3.232
POTT scheme similarities
P.3.232
three-terminal lines
P.3.233
timers
P.3.234
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