SE-330AU Neutral-Earthing-Resistor Monitor
Page ii
Rev. 4-I-101817
T
ABLE OF
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ONTENTS
S
ECTION
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P
AGE
F
IGURE
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General
................................................................. 1
1.1 Modern Resistance-Earthed Systems .................... 1
1.2 SE-330AU NER Monitoring ................................. 1
2
Operation
.............................................................. 2
2.1 Settings .................................................................. 2
2.1.1 EF Trip Time .............................................. 2
2.1.2 EF Trip Level ............................................. 2
2.1.3 V
N
Trip Level ............................................. 2
2.1.4 Configuration Settings ............................... 2
2.1.4.1 Earth-Fault-Trip Latch (S3) .......... 2
2.1.4.2 Resistor-Fault-Trip Latch (S4) ...... 2
2.1.4.3 Sensing-Resistor Selection (S5) .... 3
2.1.4.4 Frequency (S6) .............................. 3
2.1.4.5 Upgrade Mode (S8) ....................... 3
2.1.5 Resistor-Fault Trip Time ............................ 3
2.1.6 Resistor-Fault Trip Level ........................... 3
2.1.7 Geo-Magnetic Filter ................................... 3
2.2 Calibration ............................................................. 3
2.3 CT Detection ......................................................... 3
2.4 Trip Indication and Reset ...................................... 4
2.5 Remote Operation .................................................. 4
2.6 Relay K1 LED ....................................................... 4
2.7 Unit Healthy Output .............................................. 4
2.8 Diagnostic LED ..................................................... 4
2.9 Analog Output ....................................................... 4
3
Installation
............................................................ 6
3.1 SE-330AU ............................................................. 6
3.2 Sensing Resistor .................................................... 6
3.3 Earth-Fault CT ....................................................... 6
3.4 Isolated Earth Connection ................................... 24
4
Data Interfaces
................................................... 25
4.1 SD Card ............................................................... 25
4.1.1 Datalogging .............................................. 25
4.1.2 Firmware Upgrade ................................... 25
4.2 USB Interface ...................................................... 25
4.3 Network Communications ................................... 25
5
Troubleshooting
................................................. 26
6
Technical Specifications
.................................... 28
6.1 SE-330AU ........................................................... 28
6.2 Sensing Resistors ................................................. 30
6.3 Current Sensors ................................................... 31
7
Ordering Information
....................................... 31
8
Warranty
............................................................ 32
9
Test Procedures
.................................................. 33
9.1 Resistor-Fault Tests ............................................. 33
9.1.1 Calibration and Open Test ....................... 33
9.1.2 Voltage Test ............................................. 33
9.2
Sensing-Resistor Test .......................................... 33
9.3
Analog-Output Test ............................................. 33
9.4
Earth-Fault Performance Test .............................. 34
Appendix A SE-330AU Revision History
................... 35
L
IST OF
F
IGURES
P
AGE
Configuration Switches ......................................... 3
Analog-Output Connections .................................. 4
SE-330AU Connection Diagram ........................... 7
SE-330AU Outline and Panel-Mounting Details .. 8
SE-330AU Outline and Surface-Mounting
Details .................................................................... 9
SE-IP65CVR-G Weatherproof Cover Outline .... 10
SE-IP65CVR-G Weatherproof Cover
Installation ........................................................... 11
ER-600VC Sensing Resistor ............................... 12
SE-MRE-600 Moisture Resistant Enclosure
......... 13
ER-600VC Installed in SE-MRE-600
................... 14
ER-5KV Sensing Resistor ................................... 15
ER-5WP Sensing Resistor ................................... 16
ER-15KV Sensing Resistor ................................. 17
ER-25KV Sensing Resistor ................................. 18
ER-35KV Sensing Resistor ................................. 19
EFCT-1 Earth-Fault Current Sensor .................... 20
SE-CS30-70 Earth-Fault Current Sensor ............. 21
EFCT-26 and SE-CS30-26 Earth-Fault
Current Sensors ................................................... 22
RK-332 Remote Indication and Reset ................. 23
PGA-0520 Analog Percent Current Meter .......... 23
Simplified Isolated-Earth Connection ................. 24
Earth-Fault-Test Circuits ..................................... 34
L
IST OF
T
ABLES
T
ABLE
1
2
P
AGE
Typical Values for Tripping Systems .................... 5
Earth-Fault-Test Record ...................................... 34
D
ISCLAIMER
Specifications are subject to change without notice.
Littelfuse Startco is not liable for contingent or
consequential damages, or for expenses sustained as a result
of incorrect application, incorrect adjustment, or a
malfunction.
SE-330AU Neutral-Earthing-Resistor Monitor
1. G
ENERAL
1.1 M
ODERN
R
ESISTANCE
-E
ARTHED
S
YSTEMS
A high-resistance-earthed system uses a neutral-
earthing resistor (NER) with a low let-through current to
limit earth-fault current. This is an improvement over
low-resistance or solidly-earthed systems because, in
those systems, an earth-fault flash hazard exists and an
earth fault can result in substantial point-of-fault damage.
High-resistance earthing eliminates these problems and
modern earth-fault protection operates reliably at low
current levels. Furthermore, the probability of an arc-
flash incident is significantly reduced in a high-resistance
NER system.
NER selection depends on system charging current.
System charging current is the capacitive current that
flows to earth when a bolted earth fault occurs. This
current can be calculated or measured. For small systems,
the magnitude of charging current can be conservatively
estimated as
½
A per 1,000 kVA on low-voltage systems
and 1 A per 1,000 kVA on medium-voltage systems.
Choose an NER with a let-through current larger than
the system charging current. Set the pick-up current of
earth-fault devices at or below 10% of the NER let-
through current for systems up to 1.1 KV and 20% of the
NER let through current for systems above 1.1 KV.
Use earth-fault devices with a definite-time characteristic
to achieve time coordination. Use the same pick-up current
for all earth-fault devices—this value must be larger than
the charging current of the largest feeder. Select an NER
with a let-through current between five and 10 times the
pick-up current of the earth-fault devices.
Do not use an earthing transformer with a low-voltage
resistor:
•
The combined cost of a transformer and a low-
voltage resistor is more than the cost of a resistor
rated for line-to-neutral voltage.
•
A transformer saturated by an earth fault through a
rectifier can make earth-fault protection inoperative.
•
Transformer inrush current up to 12 times rated
current can cause an earth-fault voltage larger than
expected.
•
A parallel transformer winding makes it difficult to
monitor NER continuity.
•
A transformer can provide the inductance necessary
to cause ferroresonance if the NER opens.
Following these guidelines will reduce the flash hazard,
reduce point-of-fault damage, achieve reliable earth-fault
protection, and ensure a stable system not subject to
ferroresonance.
Page 1
Rev. 4-I-101817
1.2 SE-330AU NER M
ONITORING
The SE-330AU is a microprocessor-based neutral-
earthing-resistor monitor that detects NER failures and
earth faults in resistance-earthed systems. The SE-330AU
measures NER resistance, NER current, and transformer
or generator neutral-to-earth voltage. The components
required to monitor an NER are an SE-330AU, an ER-series
sensing resistor, and a current transformer (CT).
Power-circuit elements, other than neutral-connected
NER’s, that purposefully connect the power system to
earth may not be compatible with SE-330AU NER
monitoring. These elements include single-phase earthing
transformers, earthed-wye-primary potential transformers
(PT’s), and earthed-wye-primary power transformers.
The SE-330AU continuously measures NER resistance
in an unfaulted system. It will trip on resistor fault if
NER resistance varies from its calibrated value. When an
earth fault occurs, voltage is present on the neutral and
NER current will flow if the NER is healthy. The
SE-330AU will trip on earth fault if fault current exceeds
the EF TRIP LEVEL setting for an interval greater than
the EF TRIP TIME setting. However, if the NER fails
and creates an open circuit during an earth fault, it is
possible for fault resistance to satisfy the NER resistance
measurement. To detect this double-fault condition, the
SE-330AU measures neutral voltage. If neutral voltage
exceeds the V
N
TRIP LEVEL setting, and if NER current
is less than 5% of the current transformer (CT) rating, the
SE-330AU will trip on resistor fault. If the resistor-fault
circuit is tripped and the neutral voltage exceeds the V
N
TRIP LEVEL setting for an interval greater than the EF
TRIP TIME setting, the earth-fault circuit will also trip.
Earth-fault current is sensed by a sensitive CT (EFCT-x
or SE-CS30-x). The trip level of the earth-fault circuit is
adjustable from 0.125 to 5 A for the EFCT-x and 0.75 to
30 A for the SE-CS30-x. Trip time is adjustable from 0.1
to 0.5 seconds. Open-CT detection is provided with a
fixed 2-second time delay.
The SE-330AU has four output relays. Relay K1 is the
trip relay. Relays K2 and K3 provide earth-fault and
resistor-fault indication. K4 is a solid-state relay that
provides UNIT HEALTHY indication.
Relay K1
operates in the fail-safe mode for undervoltage
applications.
Additional features include LED trip indication, trip
memory, front-panel and remote reset, 4-20-mA analog
output, trip event recorder, USB local communications,
microSD™ data logging, and optional network
communications.
The SE-330AU is compatible with lockout earth-fault
protection devices¾the on line phase-to-earth resistance
added by coupling components must be above the
SE-330AU NER-failure-detection resistance.
The SE-330AU provides additional features over the
SE-330AU legacy model (revision 01 or less):
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