IN.5Index
G–M
Date Code 20151029 SEL-411L Relay
EVENTS P.7.18–P.7.19
LOCAL CONTROL
P.7.23–P.7.28
BREAKER CONTROL
P.7.23
OUTPUT TESTING
P.7.27
MAIN MENU
P.7.14
METER
P.7.14–P.7 .1 7
RELAY ELEMENTS
P.7.21–P.7.22
RELAY STATUS
P.7.32
RESET ACCESS LEVEL
P.7.34
SER
P.7.19–P.7.20
SET/SHOW
P.7 .2 8–P. 7 .3 2
DATE/TIME
P.7.31
VIEW CONFIGURATION
P.7.32
FTP
C.3.3
Ethernet card
C.1.11
Fuse
P.2 .32
size
P.2.32
G
G.703 co-directional interface P.3.267
GOOSE
See IEC 61850
GPS Receiver
See Time Synchronization
Ground Directional Elements
P.3.142–
P.3.152
32I, zero-sequence current polarized
P.3.142
32QG, negative-sequence polarized
P.3.142
32V, zero-sequence voltage
polarized
P.3.142
automatic settings calculation
P.3.143
Best Choice Ground Directional
logic
P.3.148
logic flow chart
P.3.148
calculations
P.3.151–P.3.152
logic diagrams
P.3.146, P.3.149–
P.3.150
ORDER
P.3.144
Grounding
P.2.30
H
Help
ACSELERATOR QuickSet software
P. 10 . 5
terminal
P. 10 .4
High-Speed Elements
mho ground distance
P.3.178
mho phase distance
P.3.186
HIRIG
P.1 3.2, P. 1 3 .8
HIS Command P.8.29, P.15 .27 –P.15. 28
See also Event History
History Report
circuit breaker
P.9.2
See also Circuit Breaker‚ history
report
event
P. 8. 2 8
I
I
2
t
application example
P.9.6
fault current arcing time
P.9.3
ID Command
P.15.28
codes
P.15.28
IEC 61850
C.1.1, C.5.1–C.5.46
ACSELERATOR Architect C.5.13
ACSI Conformance
C.5.46–C.5.50
GOOSE
C.5.5
Logical Nodes
C.5.14
Object Models
C.5.3
Reports
C.5.6
SCL files
C.5.6
Settings
C.5.12
Input Processing
P.8.2
Input/Output
Ethernet card
P. 2. 1 4
See also Ethernet Card
INT2
P.2.11–P.2 .14
INT7
P.2.11–P.2 .14
INTC
P.2.11–P.2.14
INTD
P.2.11–P.2.14
INTE
P.2.11–P.2.14
interface board inputs
P.2.12
interface board installation
P. 2. 1 3–
P.2.14
interface board jumpers
P.2 .1 8–
P.2.24
See also Jumpers
interface board outputs
P.2.12
jumpers
P.2.18
See also Jumpers
P.2.18
Installation
P.2.24–P.2.42
dimensions
P.2.25
panel mounting
P.2.25
physical location
P.2.24
rack mounting
P.2.24
Instantaneous Metering
P.9.26–P.9.30
See also Meter
Instantaneous Overcurrent Elements
See Overcurrent Elements
Interface Boards INT2, INT7, INTC,
INTD, and INTE
P.2.11–P.2.14
inputs
P.2.12
installation
P.2.13–P.2.14
outputs
P. 2. 1 2–P.2.14
IRIG-B
P.2.36, P.13.1, P. 1 3. 2
See also Time Synchronization
J
Jumpers P.2.14–P.2.24
circuit breaker jumper
P.2.14
interface boards
P.2.18–P.2.24
main board
P.2.14–P.2.18
serial port
P.2 .1 7–P. 2 .1 8
password jumper
P.2.14
L
Labels
See Front Panel, labels
Latch Bits
P.1 4.15
LCD, Front Panel P.7.2
autoscrolling mode
P. 7 .5
contrast
P.7 .1 2
manual-scrolling mode
P.7.6
LEDs
front panel
P.7.36–P.7.43
labels
P.7 .36, P. 7 .4 2
targets
P.7.36–P.7.38
Line charging current compensation
Also see In-line transformers
P. 3. 1 6,
P.1 1. 21
LMD
See Distributed Port Switch
Load Encroachment
P.3.156–P.3.157
Local Bits P.7.24–P.7.27
See also Local Control
application example P.7.27
delete a local bit
P.7.27
enter a local bit
P.7.26
names
P.7.23, P.7.26
states
P.7.25
Local Control
P.7.23–P.7.28
See also Breaker Control
application examples
P. 1 0. 2 1 –
P.1 0. 24
graphic display
P.7.25
local bits
P.7.24–P.7 .27
output testing
P.7.27–P.7 .28
Loopback testing
P.11.26
LOP
See Loss-of-Potential
Loss-of-Potential
P.1.3, P.3.137–P.3.140
logic diagram
P.3.140
logic flow chart
P.3.138
Low-Level Test Interface
P.11.9–P. 11 .1 0
Lugs, Crimp
P.2.29
M
Maintenance Curve
See Circuit Breaker‚ maintenance
curve
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