Manual New Revision

3714 Kinnear Place
Saskatoon, SK
Canada
S7P 0A6
Ph: (306) 373-5505
Fx: (306) 374-2245 www.littelfuse.com/relayscontrols
SE-330HV MANUAL
NEUTRAL-GROUNDING-RESISTOR MONITOR
REVISION 5-I-091115
LITTELFUSE STARTCO
NEUTRAL-GROUNDING-RESISTOR SE-330HV
MONITOR
RESISTOR
FAULT
GROUND
FAULT
DIAGNOSTIC
TRIP
TRIP
CALIBRATED
RELAY K1
8
6
10
20
40
60
80
4
100
2
MEM
GF TRIP LEVEL
(% CT RATING)
0.5 0.7 1.0
0.4
0.3
0.2
0.1
2.0
3.0
5.0
10.0
POWER
850
650
500
1000
1700
4000
6000
300
8500
100
10000
VN TRIP LEVEL
(S(S5
(S5
200 K Ω VN x 2)
100 K Ω VN x 1)
CAL
GF TRIP TIME (s)
RESET
Copyright  2015 Littelfuse Startco.
All rights reserved.
Document Number: PM-1215-EN
Printed in Canada.
SE-330HV Neutral-Grounding-Resistor Monitor
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Page i
Rev. 5-I-091115
Page ii
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
TABLE OF CONTENTS
SECTION
LIST OF FIGURES
PAGE
General ................................................................. 1
1.1 Modern Resistance-Grounded Systems ................ 1
1.2 SE-330HV NGR Monitoring ................................ 1
2
Operation ............................................................. 3
2.1 Settings.................................................................. 3
2.1.1 GF Trip Time ............................................. 3
2.1.2 GF Trip Level ............................................ 3
2.1.3 VN Trip Level............................................. 3
2.1.4 Configuration Settings ............................... 3
2.1.4.1 Trip-Relay Mode and
Trip-Memory Mode (S2) ........................... 3
2.1.4.2 Ground-Fault-Trip Latch (S3) ....... 3
2.1.4.3 Resistor-Fault-Trip Latch (S4) ...... 3
2.1.4.4 Sensing-Resistor Selection (S5) .... 3
2.1.4.5 Frequency (S6) .............................. 4
2.1.4.6 Upgrade Mode (S8)....................... 4
2.1.5 Resistor-Fault Trip Time ........................... 4
2.1.6 Resistor-Fault Trip Level ........................... 4
2.1.7 Geo-Magnetic Filter ................................... 4
2.2 Calibration............................................................. 4
2.3 Trip Indication and Reset ...................................... 4
2.4 Remote Operation ................................................. 4
2.5 Relay K1 LED....................................................... 5
2.6 Unit Healthy Output .............................................. 5
2.7 Diagnostic LED..................................................... 5
2.8 Analog Output ....................................................... 5
3
Installation ........................................................... 6
3.1 SE-330HV ............................................................. 6
3.2 Sensing Resistor .................................................... 6
3.3 Ground-Fault CT ................................................. 18
3.4 Isolated Ground Connection ............................... 23
4
Data Interfaces .................................................. 24
4.1 SD Card............................................................... 24
4.1.1 Datalogging.............................................. 24
4.1.2 Firmware Upgrade ................................... 24
4.2 USB Interface...................................................... 24
4.3 Network Communications .................................. 24
5
Troubleshooting ................................................ 25
6
Technical Specifications.................................... 27
6.1 SE-330HV ........................................................... 27
6.2 Sensing Resistors ................................................ 29
6.3 Current Sensors ................................................... 30
7
Ordering Information ....................................... 31
8
Warranty ........................................................... 32
9
Test Procedures ................................................. 32
9.1 Resistor-Fault Tests............................................. 32
9.1.1 Calibration and Open Test ....................... 32
9.1.2 Voltage Test ............................................. 32
9.2 Sensing-Resistor Test .......................................... 32
9.3 Analog-Output Test............................................. 32
9.4 Ground-Fault Performance Test .......................... 33
Appendix A SE-330HV Revision History ................... 34
1
FIGURE
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
PAGE
Configuration Switches ............................................3
Analog-Output Connections .....................................5
SE-330HV Connection Diagram ..............................7
SE-330HV Outline and Panel-Mounting Details......8
SE-330HV Outline and Surface-Mounting Details ..9
SE-IP65CVR-G Weatherproof Cover Outline .......10
SE-IP65CVR-G Weatherproof Cover Installation .11
ER-15KV Sensing Resistor ....................................12
ER-25KV Sensing Resistor ....................................13
ER-35KV Sensing Resistor ....................................14
ER-72KV Sensing Resistor Outline .......................15
ER-72KV Sensing Resistor Mounting Details .......16
ER-1000HV Sensing Resistor ................................17
ER-1000HV Simplified Connection Diagram ........18
EFCT-1 Ground-Fault Current Sensor ...................19
SE-CS30-70 Ground-Fault Current Sensor ............20
EFCT-26 and SE-CS30-26 Ground-Fault
Current Sensors ......................................................21
RK-332 Remote Indication and Reset ....................22
PGA-0520 Analog Percent Current Meter .............22
Simplified Isolated-Ground Connection .................23
Ground-Fault-Test Circuit ......................................33
LIST OF TABLES
TABLE
1
2
3
PAGE
Typical Values for Tripping Systems .......................2
Ground-Fault Trip Levels for Selected CT’s ............2
Ground-Fault-Test Record......................................33
DISCLAIMER
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-330HV Neutral-Grounding-Resistor Monitor
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Page iii
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
1. GENERAL
1.1 MODERN RESISTANCE-GROUNDED SYSTEMS
A high-resistance-grounded system uses a neutralgrounding resistor (NGR) with a low let-through current
to limit ground-fault current. This is an improvement
over low-resistance or solidly-grounded systems
because, in those systems, a ground-fault flash hazard
exists and a ground fault can result in substantial pointof-fault damage. High-resistance grounding eliminates
these problems and modern ground-fault protection
operates reliably at low current levels. Furthermore, the
probability of an arc-flash incident is significantly
reduced in a high-resistance-grounded system.
NGR selection depends on system charging current
and whether the system is an alarm-only or a tripping
system. Alarm-only systems are usually restricted to
system voltages up to 5 kV with NGR let-through
currents of 5 A or less. Occasionally, alarm-only
systems up to 15 kV and up to 10 A are used; however,
they are not common because a ground fault on such a
system tends to escalate to a phase-to-phase fault before
the ground fault can be located and cleared. Consult
CEC 10-1102, NEC 250.36, and NEC 250.186 for
application details.
System charging current is the capacitive current that
flows to ground when a bolted ground 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 lowvoltage systems and 1 A per 1,000 kVA on mediumvoltage systems.
In an alarm-only system or in a tripping system
without selective coordination, choose an NGR with a
let-through current larger than the system charging
current and set the pick-up current of ground-fault
devices at or below 50% of the NGR let-through current.
In a tripping system with selective coordination, use
ground-fault devices with a definite-time characteristic to
achieve time coordination. Use the same pick-up current
for all ground-fault devices—this value must be larger
than the charging current of the largest feeder. Select an
NGR with a let-through current between five and 10
times the pick-up current of the ground-fault devices.
Do not use a grounding transformer with a lowvoltage resistor:
 The combined cost of a transformer and a lowvoltage resistor is more than the cost of a resistor
rated for line-to-neutral voltage.
 A transformer saturated by a ground fault through a
rectifier can make ground-fault protection
inoperative.
 Transformer inrush current up to 12 times rated
current can cause a ground-fault voltage larger than
expected.
 A parallel transformer winding makes it difficult to
monitor NGR continuity.
Page 1
Rev. 5-I-091115

A transformer can provide the inductance necessary
to cause ferroresonance if the NGR opens.
Following these guidelines will reduce the flash
hazard, reduce point-of-fault damage, achieve reliable
ground-fault protection, and ensure a stable system not
subject to ferroresonance.
1.2 SE-330HV NGR MONITORING
The SE-330HV is a microprocessor-based neutralgrounding-resistor monitor that detects NGR failures and
ground faults in resistance-grounded systems. The
SE-330HV measures NGR resistance, NGR current, and
transformer or generator neutral-to-ground voltage. The
components required to monitor an NGR are an
SE-330HV, a 100- or 200-k ER-series sensing resistor,
and a current transformer (CT).
Power-circuit elements, other than neutral-connected
NGR’s, that purposefully connect the power system to
ground are often not compatible with SE-330HV NGR
monitoring.
These elements include single-phase
grounding transformers, grounded-wye-primary potential
transformers (PT’s), and grounded-wye-primary power
transformers.
The SE-330HV continuously measures NGR
resistance in an unfaulted system. It will trip on resistor
fault if NGR resistance varies from its calibrated value.
When a ground fault occurs, voltage is present on the
neutral and NGR current will flow if the NGR is healthy.
The SE-330HV will trip on ground fault if fault current
exceeds the GF TRIP LEVEL setting for an interval
equal to the GF TRIP TIME setting. However, if the
NGR fails open during a ground fault, it is possible for
fault resistance to satisfy the NGR resistance
measurement. To detect this double-fault condition, the
SE-330HV measures neutral voltage. If neutral voltage
exceeds the VN TRIP LEVEL setting, and if NGR
current is less than 5% of the current transformer (CT)
rating, the SE-330HV will trip on resistor fault. If the
resistor-fault circuit is tripped and the neutral voltage
exceeds the VN TRIP LEVEL setting for an interval
greater than the GF TRIP TIME setting, the ground-fault
circuit will also trip.
Ground-fault current is sensed by a CT with a 1- or 5A secondary, or by a CT (EFCT-x or SE-CS30-x) with a
50-mA secondary. The trip level of the ground-fault
circuit is adjustable from 2 to 100% of the CT rating and
trip time is adjustable from 0.1 to 10.0 seconds.
The SE-330HV has four output relays. Relay K1 is
the trip relay. Relays K2 and K3 provide ground-fault
and resistor-fault indication. K4 is a solid-state relay that
provides UNIT HEALTHY indication. Relay K1 will
operate on either a resistor fault or a ground fault, and it
can be set to operate in the fail-safe or non-fail-safe
mode for undervoltage or shunt-trip applications.
Page 2
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
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-330HV provides the following additional
features:
 When the trip level is set to MEM, the ground-fault
trip setting is defined by an internal non-volatile
memory variable. Range is 2 to 100% in 1%
increments of the CT-primary rating.
 Indication relays can be set to fail-safe or non-failsafe.
 The number of trip records has been increased to
100 and includes date and time stamping.
 A microSD™ card interface can be used for longterm data logging and firmware updates.
A
microSD™ card and a microSD-to-SD adapter is
included. See Section 4.1.
 For ease of connection to new devices, the RS-232
interface has been replaced by a Mini B USB port.
 Dual Ethernet ports are available with support for
fiber-optic and RJ45 interfaces.
 The IEC 61850 protocol has been added.
TABLE 1. TYPICAL VALUES FOR TRIPPING SYSTEMS
SYSTEM
VOLTAGE
(LINE-LINE)
NEUTRAL-GROUNDING
RESISTOR
(VOLTS)
CURRENT
(AMPERES)
RESISTANCE
(OHMS)
7,200
14,400
7,200
14,400
25,000
35,000
72,000
15
15
25
25
25
25
100
277
554
166
332
577
808
420
SENSING
RESISTOR
MODEL
ER-15KV
ER-15KV
ER-15KV
ER-15KV
ER-25KV
ER-35KV
ER-72KV
RESISTANCE
(SWITCH S5
SETTING)
100 k
100 k
100 k
100 k
100 k
100 k
200 k
GROUNDFAULT
TRIP LEVEL
VN TRIP
LEVEL
(AMPERES)
(VOLTS)
3.0
3.0
5.0
5.0
5.0
5.0
20.0
850
1,700
850
1,700
4,000
6,000
6,000 x 2 = 12,000
TABLE 2. GROUND-FAULT TRIP LEVELS FOR SELECTED CT’S
GF TRIP
LEVEL(1)
(%)
2
4
6
8
10
20
40
60
80
100
EFCT-X
5:0.05
(AMPERES)
SE-CS30-X
30:0.05
(AMPERES)
50:1
50:5
(AMPERES)
*
*
*
*
5
10
20
30
40
50
0.10
0.60
0.20
1.20
0.30
1.80
0.40
2.40
0.50
3.00
1.00
6.00
2.00
12.0
3.00
18.0
4.00
24.0
5.00
30.0
(1)
When set to MEM, range is 2 to 100% in 1% increments.
* Setting not recommended.
100:1
100:5
(AMPERES)
*
*
*
8
10
20
40
60
80
100
200:1
200:5
(AMPERES)
*
*
12
16
20
40
80
120
160
200
400:1
400:5
(AMPERES)
*
16
24
36
40
80
160
240
320
400
Page 3
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
2. OPERATION
2.1 SETTINGS
2.1.1 GF TRIP TIME
GF TRIP TIME (definite time) is adjustable from 0.1 to
10.0 seconds. Time-coordinated ground-fault protection
requires this setting to be longer than the trip times of
downstream ground-fault devices.
A trip-time accumulator provides a ground-fault memory
function for detection of intermittent faults. The accumulated
time increases when a ground fault is detected and decreases
when a ground fault is not detected. A trip will eventually
occur when the time for fault current above the trip level is
greater than the time for fault current below the trip level.
NOTE: A resistor-fault trip is held off if the ground-fault
current is above 5% of the CT rating.
2.1.4 CONFIGURATION SETTINGS
Eight configuration switches (S1 to S8) and a
calibration button are located behind the access cover on
the front panel. See Fig. 1.
CALIBRATION BUTTON
CAL
SPARE
FAIL-SAFE
2.1.2 GF TRIP LEVEL
The SE-330HV uses a Discrete-Fourier Transform
(DFT) Algorithm to measure the fundamental component
of NGR current.
Choose an NGR let-through current and a ground-fault
trip level according to the guidelines in Section 1.1.
Set the ground-fault trip level as a percentage (2 to 100)
of the CT-primary rating. When the GF Trip Level is set
to MEM, the ground-fault setting stored in non-volatile
memory is used. This parameter must be set using a PC
running the SE-MON330 software connected to the USB
interface. The setting range is 2 to 100% of CT primary
rating in 1% increments. The default value is 15%. Inputs
are provided for 5-, 1-, and 0.05-A-secondary CT’s.
Typical values for 15-, 25-, and 100-A tripping systems
are shown in Table 1. Ground-fault trip levels for
selected CT’s are shown in Table 2.
Refer to
the
NGR
Monitor
Set-Point
Assistant
at
www.littelfuse.com/relayscontrols for other systems. The
Set-Point Assistant is included with the SE-MON330
software.
2.1.3 VN TRIP LEVEL
The SE-330HV uses a DFT algorithm to measure the
fundamental component of neutral voltage (VN).
If neutral voltage is greater than the VN TRIP LEVEL
setting for the duration of the resistor-fault trip time and
ground-fault current is less than 5% of the CT rating, the
SE-330HV will trip on resistor fault. If the resistor-fault
circuit is tripped and the neutral voltage exceeds the VN
TRIP LEVEL setting for an interval greater than the GF
TRIP TIME setting, the ground-fault circuit will also trip.
The VN TRIP LEVEL range is 100 to 10,000 V with
switch S5 in the 100-k (Vx1) position, and the range is
200 to 20,000 V with switch S5 in the 200-k (Vx2)
position. Calculate the voltage across the NGR when
NGR current is equal to the pick-up current of the groundfault circuit. Set the VN TRIP LEVEL at the next largest
value. See Fig. 1 and Section 2.1.4.4.
Typical values for 15-, 25- and 100-A tripping systems
are shown in Table 1. Refer to the NGR Monitor SetPoint Assistant at www.littelfuse.com/relayscontrols for
other systems.
S1
S2 NON-FAIL-SAFE
LATCHING GF TRIP
S3 NON-LATCHING GF TRIP
LATCHING RF TRIP
S4 NON-LATCHING RF TRIP
200 kΩ
50 Hz
SPARE
RUN
S5 100 kΩ
S6 60 Hz
S7
S8 UPGRADE
NOTE: DEFAULT SETTINGS SHOWN.
FIGURE 1. Configuration Switches.
2.1.4.1 TRIP-RELAY MODE AND TRIP-MEMORY
MODE (S2)
Set switch S2 to select the operating mode of trip relay
K1. In the non-fail-safe mode, relay K1 energizes and its
contact closes when a trip occurs. The non-fail-safe mode
can be used to trip shunt-trip circuit breakers. In the nonfail-safe mode, SE-330HV trips are reset when supply
voltage is cycled.
In the fail-safe mode, relay K1 energizes and its contact
closes if there are no trips. Contacts open if there is a trip, a
loss of supply voltage, or a processor failure. In the fail-safe
mode, SE-330HV trips are not reset when supply voltage is
cycled.
NOTE: Switch S2 does not affect the operating modes of
relays K2, K3, and K4.
2.1.4.2 GROUND-FAULT-TRIP LATCH (S3)
Set switch S3 to select latching or non-latching groundfault-circuit operation. Non-latching operation defeats
ground-fault trip-memory. See Section 2.3.
2.1.4.3 RESISTOR-FAULT-TRIP LATCH (S4)
Set switch S4 to select latching or non-latching resistorfault-circuit operation. Non-latching operation defeats
resistor-fault trip-memory. See Section 2.3
2.1.4.4 SENSING-RESISTOR SELECTION (S5)
Set switch S5 to the resistance of the sensing resistor. For
the ER-15KV, ER-25KV, and ER-35KV, select 100 k.
For the ER-1000HV and ER-72KV, select 200 k. Switch
SE-330HV Neutral-Grounding-Resistor Monitor
S5 sets the resistor-fault trip value and the VN TRIP LEVEL
range. See Section 2.1.3.
2.1.4.5 FREQUENCY (S6)
Set switch S6 to 50 or 60 Hz to tune the digital filter to
the line frequency of the monitored system.
2.1.4.6 UPGRADE MODE (S8)
The microSD™ card is used for firmware upgrades.
See Section 4.1.2 for upgrade instructions.
NOTE: An upgrade causes an SE-330HV restart and this
may cycle the output relays.
2.1.5 RESISTOR-FAULT TRIP TIME
The resistor-fault trip time can be adjusted from 12
(default) to 60 seconds using the SE-MON330 software or
via network communications.
2.1.6 RESISTOR-FAULT TRIP LEVEL
The resistor-fault trip level can be adjusted using the
SE-MON330 software or via network communications.
See Section 6.1.
2.1.7 GEO-MAGNETIC FILTER
A low-frequency ground current can be caused by the
Earth’s magnetic field and from charged clouds passing
overhead during a thunderstorm. In some rare conditions,
this can cause a false resistor-fault trip. Enabling the geomagnetic filter and increasing the resistor-fault trip time
can help counteract these effects.
A trip time of 30 seconds is recommended when the
geo-magnetic filter is enabled.
The geo-magnetic filter is disabled by default, but can
be enabled using the SE-MON330 software or via
network communications.
2.2 CALIBRATION
The SE-330HV measures the resistance change of the
NGR relative to the NGR-resistance value determined at
the time of calibration. When the resistance change is
greater than a threshold amount (2,500 Ω for 100-kΩ
systems, 5,000 Ω for 200-kΩ systems), a resistor-fault trip
occurs. Calibrate the SE-330HV on new installations, if
the NGR is changed, or if the sensing resistor is changed.
NOTE: If the SE-330HV is not calibrated and is supplied
from the load side of the breaker (non-fail-safe mode),
calibrate within the resistor-fault trip time after power-up
or it may trip and interrupt its supply. See Section 2.1.5.
The CALIBRATION button is located behind the
access cover on the front panel, and it is recessed to
prevent inadvertent activation.
Page 4
Rev. 5-I-091115
Calibration must be performed with the
NOTE:
SE-330HV connected to the sensing resistor and NGR of
the installed system.
To calibrate, press and hold the CALIBRATION button
until the green CALIBRATED LED turns off and returns
to on (if the LED is already off, press and hold until the
LED turns on). Calibration takes approximately two
seconds. If calibration is not successful, a resistor-fault
trip occurs, the RESISTOR FAULT TRIP LED will be
on, the CALIBRATED LED will be off, and the
DIAGNOSTIC LED will flash the calibration-error code.
See Section 2.7.
The SE-330HV may be calibrated remotely using
the SE-MON330 software with the USB interface or the
communications options.
If latching resistor fault (switch S4) is selected, the
calibration-error code flashes until RESET is pressed
even if the CALIBRATED LED is on.
The calibration value is stored in non-volatile memory.
2.3 TRIP INDICATION AND RESET
Red LED's and indication relays indicate ground-fault
and resistor-fault trips. The indication relays K2 (GF) and
K3 (RF) operate in fail-safe or non-fail-safe mode. The
default is non-fail-safe mode. In this mode, the relays are
energized when a fault occurs. The relay mode setting is
stored in non-volatile memory and can be set using the
SE-MON330 software or network communications.
When a trip occurs with latching operation selected, the
SE-330HV remains tripped until reset with the front panel
button or the remote-reset input. See Sections 2.1.4.3 and
2.1.4.4. Terminals 15 and 16 are provided for remote reset
as shown in Fig. 3. The reset circuit responds only to a
momentary closure so that a jammed or shorted button does
not prevent a trip. The front-panel RESET button is
inoperative when terminal 15 is connected to terminal 16. If
non-latching operation is selected, trips and corresponding
indication automatically reset when the fault clears and
power-up trip memory is defeated even when configuration
switch S2 is set to fail-safe. The maximum automatic reset
time is 2.8 s.
The red DIAGNOSTIC LED annunciates latched
calibration-error and remote trips. See Section 2.7.
When supply voltage is applied with switch S2 set to
FAIL-SAFE, the SE-330HV returns to its state prior to
loss of supply voltage. When supply voltage is applied
with switch S2 set to NON-FAIL-SAFE, SE-330HV trips
are reset. When a local, remote, or network reset is issued,
both trip LED's will flash if they are off.
Resistor-fault-trip reset can take up to one second.
Resistor-fault trip-memory can take up to three seconds
after SE-330HV power up.
2.4 REMOTE OPERATION
Relays K2 and K3 can be used for remote indication,
and terminals 15 and 16 are provided for remote reset.
RK-332 Remote Indication and Reset components are
SE-330HV Neutral-Grounding-Resistor Monitor
shown in Fig. 18. Connect them as shown in Fig. 3.
RK-332 components are not polarity sensitive.
Indication relays can be set to fail-safe or non-fail-safe
operation using the SE-MON330 software or network
communications. The default mode is non-fail-safe. In
non-fail-safe mode, relays energize on fault.
Network-enabled SE-330HV’s can be remotely tripped
and reset by the network master. The red DIAGNOSTIC
LED indicates a network-initiated trip. See Section 2.7.
Refer to the appropriate SE-330HV communications
manual.
2.5 RELAY K1 LED
The yellow RELAY K1 LED follows the state of relay
K1 and is on when K1 is energized (contact closed).
2.6 UNIT HEALTHY OUTPUT
UNIT HEALTHY relay K4 is energized when the
processor is operating. It can be ordered with N.O. or
N.C. contacts. See Section 7.
NOTE: The output changes state momentarily during a
processor reset.
NOTE: K4-contact rating is 100 mA maximum.
2.7 DIAGNOSTIC LED
The DIAGNOSTIC LED is used to annunciate trips
without individual LED indication. The number of short
LED pulses between pauses indicates the cause of the trip.
See Section 5.
2.8 ANALOG OUTPUT
An isolated 4-20-mA output indicates NGR current
with full-scale output corresponding to the CT rating. An
internal 24-Vdc supply allows the analog output to be
connected as a self-powered output. Power from an
external supply is required for loop-powered operation.
See Fig. 2. A PGA-0520 analog meter can be panelmounted to display the NGR current. See Fig. 19 and
Section 7.
+24V 18
+
19
-
20
0V
21
SELF POWERED
PGA-0520
+24V 18
+
19
-
20
0V
21
+
LOOP
SUPPLY
PGA-0520
LOOP POWERED
FIGURE 2. Analog-Output Connections.
Page 5
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
3. INSTALLATION
3.1 SE-330HV
Outline and panel-cutout dimensions for the SE-330HV
are shown in Fig. 4. To panel mount the SE-330HV,
insert it through the panel cutout and secure it with the
four included 8-32 locknuts and flat washers.
If an optional SE-IP65CVR-G Hinged Cover is used,
follow the included installation instructions. See Figs. 6
and 7.
All connections to the SE-330HV are made with plugin, wire-clamping terminal blocks. Each plug-in terminal
block can be secured to the SE-330HV by two captive
screws for reliable connections.
Outline dimensions and mounting details for surface
mounting the SE-330HV are shown in Fig. 5. Fasten the
optional surface-mount adapter to the mounting surface
and make connections to the adapter terminal blocks.
Follow Fig. 5 instructions to mount or remove the
SE-330HV.
Ground terminal 7 (G) and connect terminal 6 (R) to
the sensing-resistor R terminal.
Use terminal 1 (L1) as the line terminal on ac systems,
or the positive terminal on dc systems. Use terminal 2
(L2/N) as the neutral terminal on ac systems or the
negative terminal on dc systems. Connect terminal
3 ( ) to ground. Connect terminal 4 (SPG) to terminal
5 (SPGA).
NOTE: Disconnect terminal 1 (L1) and terminal 2 (L2/N)
before performing dielectric strength testing of the control
panel.
3.2 SENSING RESISTOR
Outline and mounting details for the ER-15KV,
ER-25KV, ER-35KV and ER-72KV sensing resistors are
shown in Figs. 8, 9, 10, 11, and 12. Install the NGR and the
sensing resistor near the transformer or generator. When
installed outdoors, a sensing resistor must be installed in a
suitable enclosure. Ground sensing-resistor terminal G.
Pass the sensing-resistor-to-neutral conductor and the NGRto-neutral conductor through the ground-fault-CT window
as shown in Fig. 3. Separately connect sensing-resistor
terminal N and the NGR to the neutral to include neutral
connections in the monitored loop. Alternately, if the NGR
connection to system neutral need not be monitored,
connect terminal N to the NGR neutral terminal. If a
ground fault in the sensing-resistor conductor is unlikely, a
minimal loss of protection will result if it does not pass
through the ground-fault-CT window. See Note 3 in Fig. 3.
Outline and mounting details for the ER-1000HV
Sensing Resistor are shown in Fig. 13. This sensing resistor
can be used to monitor a low-voltage very-high-resistance
NGR. See the simplified diagram in Fig. 14.
NOTE: Voltage at terminal N rises to line-to-neutral voltage
when a ground fault occurs. The same clearances are
required for sensing resistors as for NGR’s.
Page 6
Rev. 5-I-091115
NOTE: A parallel ground path created by moisture can
result in a false resistor-fault trip. Moisture sources
include wind-driven rain or snow, and condensation.
Sensing-resistor terminal R and its connection to SE330HV terminal R, including interposing terminal blocks,
must remain dry.
NOTE: The neutral-to-sensing-resistor-terminal-N connection
is not a neutral conductor as defined in Canadian
Electrical Code Section 10-1108 and National Electrical
Code Section 250.36(B). It is not required to be 8 AWG
(8.36 mm2) or larger.
Since current through this
conductor is always less than 250 mA, a 14 AWG
(2.08 mm2) conductor insulated to the system voltage is
more than sufficient.
Page 7
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
TRANSFORMER
OR GENERATOR
NOTE 1
NOTE 13
XXX:1 OR
S
9
1
11
10
5
8
C
9
EFCT-X
OR
SE-CS30-X
S
5
1
NOTE 4
G
1
NOTE 7
L1
L2/N
K1
22
6
K3
28
K4
12
REMOTE
RESET
15
16
17
5
GROUND
FAULT
RESISTOR
FAULT
13
UNIT HEALTHY
NOTE 8 +24V
NO
CONNECTION
+
ANALOG OUTPUT
RESET
0V
NO
CONNECTION
3
4
C
27
RF
NOTE 15
NOTE 14 & 15
24
25
14
N/- SUPPLY
2
GF
29
NOTE 5
7
23
K2
26
SPG
18
19
NOTE 9
20
21
NOTE 16
PGA-0520
USB PORT
NOTE 10
MICRO SD
SLOT
SPGA
OPTIONAL
NETWORK COM
NOTE 11
G
R
R
ALTERNATE CT
CONNECTIONS
L/+ SUPPLY
NGR
C
5A
1A
EFCT
SE-330HV
C
NOTE 3
ER-SERIES
SENSING
RESISTOR
NOTE 18
10 11
NOTE 17
NOTE 2
NOTES 12 & 13
XXX:5
N
8
NEUTRAL
SE-330HV
INDICATION
R
GROUND-FAULT
TRIP
R
RESISTORFAULT TRIP
R
DIAGNOSTIC
G
CALIBRATED
Y
RELAY K1
G
POWER
NOTE 6
NOTES:
1. USE SEPARATE LUG TO CONNECT SENSINGRESISTOR TERMINAL N TO NEUTRAL.
2. LOCATE THESE COMPONENTS NEAR
TRANSFORMER OR GENERATOR.
3. ALTERNATE SENSING-RESISTOR TERMINAL-N
CONNECTION. THE NEUTRAL CONNECTION
IS NOT MONITORED.
4. VOLTAGE BETWEEN SENSING-RESISTOR
TERMINALS R AND G IS LIMITED TO 100 V BY
INTERNAL CLAMP.
5. ALTERNATE CT LOCATION. NGR MUST ONLY
BE GROUNDED AT ONE POINT AS SHOWN.
6. SEE SECTION 3.4 FOR ISOLATED-GROUND
CONNECTION.
7. RELAY CONTACTS SHOWN WITH SE-330HV
DE-ENERGIZED.
8. OPTIONAL N.C. K4 AVAILABLE.
9. LOOP-POWERED CONNECTION USES
TERMINALS 19 AND 20 ONLY.
10. MINI B USB DEVICE CONNECTOR.
11. REFER TO APPROPRIATE SE-330HV
COMMUNICATIONS INTERFACE MANUAL.
12. TWO-CONDUCTOR TWISTED CABLE
REQUIRED. SHIELDED OR ARMOURED
RECOMMENDED.
13. CT CONNECTION IS NOT POLARITY
SENSITIVE.
14. CONNECT CONTACTS K1, K2, K3, AND K4
AS REQUIRED FOR PROTECTION,
INDICATION, AND CONTROL.
15. EXTERNAL LIGHTS AND SWITCHES NOT
INCLUDED WITH SE-330HV.
16. SELF-POWERED 4-20 mA OUTPUT.
17. TYPICAL TRIPPING SYSTEM.
18. GROUND CURRENT SENSOR AT TERMINAL 11
ONLY.
FIGURE 3. SE-330HV Connection Diagram.
Page 8
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
132.0
(5.20)
16.0
(0.63)
98.3
PANEL THICKNESS
1.6 (0.06) TO 4.8 (0.19)
(3.87)
LITTELFUSE STARTCO
NEUTRAL-GROUNDING-RESISTOR SE-330HV
MONITOR
RESISTOR
FAULT
GROUND
FAULT
DIAGNOSTIC
TRIP
1
2
3
4
5
CALIBRATED
40
60
80
4
100
2
MEM
GF TRIP LEVEL
(% CT RATING)
0.5 0.7 1.0
0.4
0.3
0.2
0.1
2.0
3.0
5.0
10.0
POWER
850
650
500
1000
1700
4000
6000
300
8500
100
10000
VN TRIP LEVEL
(S(S5
(S5
200 K Ω VN x 2)
100 K Ω VN x 1)
CAL
185.4
20
212.6
(8.37)
10
(7.30)
RELAY K1
8
6
12
13
NC - 14
15
RESET
16
17
+ 24V - 18
+ - 19
ANALOG OUTPUT
- - 20
0V - 2 1
UNIT
HEALTHY K4
TRIP
-
L1
L2/N
SPG
SPGA
ATTENTION
DISENGAGE CAPTIVE RETAINING
S C R E W S BE F O R E R E M O V I N G
P L U G -I N T ER M I NA L B L O CK S
6 - R
7 - G
SENSING
RESISTOR
GF TRIP TIME (s)
8 9 10 11-
RESET
SIDE VIEW
FRONT VIEW
8.2
(0.32)
S
E
1
F
5 5 A1 C
T
C A
GROUND
FAULT
K2
RESISTOR
FAULT
K3
K1
22
23
24
25
26
27
28
29
REAR VIEW
92.7
(3.65)
76.2
(3.00)
NOTES:
186.0
(7.32)
200.0
(7.87)
1. DIMENSIONS IN MILLIMETRES (INCHES).
4.75 (0.187) DIA
4 LOCATIONS
7.0
(0.28)
R=4.8 (0.19)
MAXIMUM
PANEL-MOUNT CUTOUT
FIGURE 4. SE-330HV Outline and Panel-Mounting Details.
Page 9
Rev. 5-I-091115
8.0
(0.31)
6.4
RETAINER SCREW
RETAINER
114.3
(4.50)
98.3
(3.87)
(0.25)
SE-330HV Neutral-Grounding-Resistor Monitor
138.0
(5.43)
LITTELFUSE STARTCO
NEUTRAL-GROUNDING-RESISTOR SE-330HV
MONITOR
RESISTOR
FAULT
GROUND
FAULT
DIAGNOSTIC
TRIP
L1 - 1
L2/N - 2
- 3
SPG - 4
SPGA - 5
RELAY K1
10
20
40
60
80
4
100
2
MEM
GF TRIP LEVEL
(% CT RATING)
0.5 0.7 1.0
SENSING
RESISTOR
RESISTOR
FAULT
K3
R - 6
G - 7
850
650
500
1000
1700
4000
6000
300
8500
100
10000
TRIP LEVEL
VN
(S(S5
(S5
200 K Ω VN x 2)
100 K Ω VN x 1)
CAL
6
7
GF TRIP TIME (s)
S - 8
E
1 - 9
F
C 1
T A 5 5 -1 0
A C -1 1
FRONT VIEW
SE-330-SMA
25.4
(1.00)
8
9
10
11
RESET
FRONT VIEW
63.5
(2.50)
5.0
GROUND
FAULT
K2
2.0
3.0
5.0
10.0
0.4
0.3
0.2
0.1
POWER
SIDE VIEW
(0.20)
24
25
26
27
28
29
K1
1
2
3
4
5
CALIBRATED
8
6
22
23
TRIP
212.6
(8.37)
225.4
(8.87)
12
NIT
K4 U
HEALTHY
13
14 - NC
15
RESET
16
PULSE ENABLE
17
18 - + 24V
19- +
ANALOG OUTPUT
20 - 2 1 - 0V
NOTES:
(NOTE 2)
1. DIMENSIONS IN MIILLIMETRES (INCHES).
2. MOUNTING SCREWS: M4 OR 8-32 PANHEAD.
MONITOR INSTALLATION
215.9
(8.50)
1. LOOSEN RETAINER SCREWS, MOVE RETAINERS
OUT WARD, AND TIGHTEN RETAINER SCREWS.
2. MATE MONITOR WITH ADAPTER PLUG-IN TERMINALS.
LOOSEN RETAINER SCREWS TO LET RETAINERS
SNAP OVER MONITOR BACKPLATE.
3. ENSURE THAT RETAINERS ARE AGAINST MONITOR
BODY AND TIGHTEN RETAINER SCREWS.
MONITOR REMOVAL
BEZEL OUTLINE
1. LOOSEN RETAINER SCREWS, SLIDE RETAINERS AWAY
FROM MONITOR BODY AND TIGHTEN RETAINER SCREWS.
2. PULL MONITOR FORWARD.
ADAPTER PANEL OUTLINE
MOUNTING DETAIL
FIGURE 5. SE-330HV Outline and Surface-Mounting Details.
Page 10
Rev. 5-I-091115
TO PREVENT UNAUTHORIZED ENTRY:
(1.34)
34.0
SE-330HV Neutral-Grounding-Resistor Monitor
1. USE WIRE SEAL THROUGH HOLES IN
WEATHERPROOF COVER ASSEMBLY, OR
2. SECURE WITH THE PLASTIC THREAD FORMING
SCREW SUPPLIED IN KIT.
SHOWN
WITH
SEAL
(9.84)
250.0
TOP VIEW
HOLE FOR
SEAL WIRE
127.0
(5.00)
FRONT VIEW
NOTES:
1. DIMENSIONS SHOWN IN MILLIMETRES (INCHES).
2. SHOWN WITH WEATHERPROOF SNAPS CLOSED.
3. REFER TO PANEL MOUNTING CUTOUT (FIGURE 4) FOR PANEL
MOUNTING DETAIL.
FIGURE 6. SE-IP65CVR-G Weatherproof Cover Outline.
SIDE VIEW
Page 11
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
INSTALL O-RING INTO
GROOVE IN THE REAR
OF WEATHERPROOF
WINDOW
INSERT THE SE-330HV THROUGH OPENING
OF THE WEATHERPROOF WINDOW, UNTIL IT
IS SECURELY NESTED TO THE BACK OF THE
DARK GREY PVC PANEL.
FRONT-PANEL
DETAILS NOT SHOWN.
INSTALL O-RING INTO THE GROOVE IN THE REAR
OF WEATHERPROOF WINDOW ASSEMBLY.
INSERT ASSEMBLY INTO PANEL AND FASTEN WITH
THE HARDWARE PROVIDED WITH THE SE-330HV.
FIGURE 7. SE-IP65CVR-G Weatherproof Cover Installation.
Page 12
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
422.0
RATINGS:
E R - 1 5 KV
132.0
(5.20)
144.0
(5.67)
(16.61)
SENS IN G RESISTO R
R
1 0 0 KΩ
84 0 0 V A C M A X
1 M I N UT E M A X
N
G
MAXIMUM VOLTAGE . . 8,400 Vac
MAXIMUM CURRENT . 84 mA
RESISTANCE . . . . . . . . 100 kΩ
THERMAL
8,400 Vac . . . . . . . . . . 1 MINUTE ON,
120 MINUTES
OFF
.
.
.
.
.
.
.
.
.
.
CONTINUOUS
1,900 Vac
NOTES 2 AND 4
0.25-20 BINDING HEAD
215.0
(8.46)
TOP
20.5
(0.81)
TORQUE
TERMINAL N . . . . . . . . 9.0 N-m (80 in-lb)
SIDE
FRONT
444.0
(17.50)
365.0
(14.37)
90.0
(3.53)
39.5
(1.56)
MINIMUM DISTANCE
TO ADJACENT OBJECTS
39.5
(1.56)
NOTES:
90.0
2. TERMINAL-BLOCK SCREWS:
6-32 x 0.25.
NOTE 3
MINIMUM CLEARANCE FROM BASE
305.0 (12.00)
3. MOUNTING SCREWS:
M6 OR 0.25-20.
4. USE LIQUID-TIGHT FITTING
FOR TERMINAL-BLOCKENCLOSURE CABLE ENTRY.
(3.53)
280.0
(11.00)
100.0
(3.94)
1. DIMENSIONS IN MILLIMETRES
(INCHES).
5. CERTIFICATIONS NOT SHOWN.
MOUNTING DETAIL
FIGURE 8. ER-15KV Sensing Resistor.
Page 13
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
780.0
(30.70)
100 K Ω
1 4,4 00 V A C MA X
1 M I N UT E MA X
R
N
0.25-20 BINDING HEAD
NOTES 2 AND 4
20.5
G
(0.81)
144.0
(5.67)
RATINGS:
E R - 2 5 KV
SE NS I NG R ES I ST OR
320.0
(12.60)
TOP
MAXIMUM VOLTAGE . 14,400 Vac
MAXIMUM CURRENT. 144 mA
RESISTANCE . . . . . . . 100 kΩ
THERMAL
14,400 Vac . . . . . . . . . 1 MINUTE ON,
120 MINUTES
OFF
2,500 Vac . . . . . . . . . CONTINUOUS
TORQUE
TERMINAL N . . . . . . . 9.0 N-m (80 in-lb)
FRONT
60.0
(2.40)
800.0
(31.50)
340.0
(13.38)
SIDE
340.0
(13.38)
217.0
(8.50)
534.0
(21.00)
100.0
(3.94)
NOTES:
1. DIMENSIONS IN
MILLIMETRES (INCHES).
NOTE 3
2. TERMINAL-BLOCK SCREWS:
6-32 x 0.25.
MINIMUM CLEARANCE FROM BASE
508.0 (20.00)
MINIMUM DISTANCE
TO ADJACENT OBJECTS
3. MOUNTING SCREWS:
M6 OR 0.25-20
4. USE LIQUID-TIGHT FITTING
FOR TERMINAL-BLOCKENCLOSURE CABLE ENTRY.
5. MOUNT AS SHOWN
WITH BASE HORIZONTAL.
6. CERTIFICATIONS NOT SHOWN.
MOUNTING DETAIL
FIGURE 9. ER-25KV Sensing Resistor.
Page 14
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
20.5
132.0
(5.20)
1000.0
(39.40)
E R - 3 5 KV
S E N SIN G R E SIS TO R
R
10 0 K Ω
22 , 2 0 0 V AC MA X
1 M I N UT E M AX
N
G
(0.81)
RATINGS:
MAXIMUM VOLTAGE . 22,000 Vac
MAXIMUM CURRENT . 220 mA
RESISTANCE . . . . . . . 100 kΩ
THERMAL
22,000 Vac . . . . . . . . . 1 MINUTE ON,
120 MINUTES
OFF
3,000 Vac . . . . . . . . . . CONTINUOUS
TORQUE
TERMINAL N . . . . . . . 9.0 N-m (80 in-lb)
0.25-20 BINDING HEAD
NOTES 2 AND 4
459.0
(18.10)
TOP
FRONT
SIDE
1600.0
(63.00)
MINIMUM CLEARANCE FROM BASE
685.0 (27.00)
100.0
(3.90)
400.0
(15.70)
400.0
(15.70)
NOTE 3
350.0
(13.80)
800.0
(31.50)
350.0
(13.80)
MINIMUM DISTANCE
TO ADJACENT OBJECTS
MOUNTING DETAIL
NOTES:
1. DIMENSIONS IN MILLIMETRES (INCHES).
2. TERMINAL-BLOCK SCREWS: 6-32 x 0.25.
3. MOUNTING SCREWS: M6 OR 0.25-20.
4. USE LIQUID-TIGHT FITTING FOR
TERMINAL-BLOCK-ENCLOSURE CABLE ENTRY.
5. MOUNT AS SHOWN WITH BASE HORIZONTAL.
6. CERTIFICATIONS NOT SHOWN.
FIGURE 10. ER-35KV Sensing Resistor.
Page 15
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
1044.9
(41.14)
RATINGS:
E R -7 2 KV
TERMINAL N
0.25-20 BINDING
HEAD
(7.42)
188.6
N
200 K
4 4 , 4 00 V A C M A X
1 M I N UT E M A X
SENSING RESISTOR
1181.1
(46.50)
MAXIMUM VOLTAGE . 44,000 Vac
MAXIMUM CURRENT. 220 mA
RESISTANCE . . . . . . . 200 kΩ
THERMAL
44,000 Vac. . . . . . . . . 1 MINUTE ON,
120 MINUTES
OFF
6,000 Vac . . . . . . . . . CONTINUOUS
TORQUE
TERMINAL N . . . . . . . 9.0 N-m (80 in-lb)
863.6
(34.00)
457.0
(17.99)
908.0
(35.75)
TOP
FRONT
NOTES:
1. DIMENSIONS IN MILLIMETRES (INCHES).
2. TERMINAL-BLOCK SCREWS: 6-32 x 0.25.
3. MOUNTING SCREWS: M6 OR 0.25-20.
4. USE LIQUID-TIGHT FITTING FOR
TERMINAL-BLOCK-ENCLOSURE CABLE ENTRY.
FIGURE 11. ER-72KV Sensing Resistor Outline.
RIGHT SIDE
Page 16
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
247.7
514.4
247.7
(9.75)
(20.25)
(9.75)
(5.50)
ER-72KV ORIENTED
WITH TERMINAL N
IN THIS LOCATION
140.0
247.7
432.0
(17.00)
MINIMUM
DISTANCE
TO ADJACENT
OBJECTS
(9.75)
2286.0
(90.00)
432.0
(17.00)
247.7
432.0
(17.00)
(9.75)
432.0
(17.00)
650.7
73.0
(2.88)
(25.63)
365.0
(14.38)
1146.0
(45.13)
2133.6
(84.00)
1009.7
355.5
(39.75)
(14.00)
775.0
(30.50)
768.4
(30.25)
MINIMUM VERTICAL
CLEARANCE FROM BASE: 1800.0 (70.87)
NOTES:
1. DIMENSIONS IN MILLIMETRES (INCHES).
2. MOUNTING SCREWS: M6 OR 0.25-20.
FIGURE 12. ER-72KV Sensing Resistor Mounting Details.
Page 17
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
RATINGS:
MAXIMUM VOLTAGE . 600 Vac
MAXIMUM CURRENT. 3 mA
RESISTANCE . . . . . . . 200 kΩ
THERMAL . . . . . . . . . . 600 Vac CONTINUOUS
41.5
40.0
(1.63)
(1.57)
10.5
19.0
10.5
(0.41)
(0.75)
(0.41)
8.0
22.2
(0.87)
(0.31)
40.0
(1.57)
NOTE 3
N
89.0
(3.50)
8.0
(0.31)
105.0
(4.13)
105.0
G
(4.13)
R
ER-1000HV
SENSI NG RES I STOR
20 0 K Ω
6 0 0 VA C M A X
4.5 (0.18) DIA
C’BORE 10.0 (0.39) DIA
3.2 (0.13) DEEP
FRONT
SIDE
NOTES:
1.
DIMENSIONS IN MILLIMETRES (INCHES).
2. TERMINAL-BLOCK SCREWS: 6-32 x 0.25.
3.
MOUNTING SCREWS: M4 OR 8-32.
4.
ENCLOSURE IS ELECTRICALLY CONNECTED TO TERMINAL G
THROUGH JUMPER FROM TERMINAL G TO
SCREW.
THIS CONNECTION MAY BE REMOVED FOR DIELECTRIC STRENGTH
TESTING. ENSURE THAT THE JUMPER IS INSTALLED AFTER TESTING.
FIGURE 13. ER-1000HV Sensing Resistor.
MOUNTING DETAIL
SE-330HV Neutral-Grounding-Resistor Monitor
Page 18
Rev. 5-I-091115
NEUTRAL
NGR
NOTE 1
8 9
S
1
ER-1000HV
SENSING
RESISTOR
10 11
5
C
5A
1A
EFCT
R
R
3
4
SPG
5
SPGA
N
G
G
6
7
NOTES:
L1
SE-330HV
L2/N
1
2
L/+ SUPPLY
N/- SUPPLY
1. GF TRIP SETTING IS PERCENT OF 50 mA
WHEN NO CT IS USED.
2. FOR GF SETTING > 50 mA USE EFCT-x.
MULTIPLE PRIMARY WRAPS MIGHT
BE REQUIRED.
FIGURE 14. ER-1000HV Simplified Connection Diagram.
3.3 GROUND-FAULT CT
Select and install a ground-fault CT that will provide
the desired trip level. Typically, the CT-primary rating
should be approximately equal to the NGR let-throughcurrent rating. This provides an appropriate GF TRIP
LEVEL setting range and analog-output scaling. See
Sections 2.1.2 and 2.8.
Outline and mounting details for the EFCT- and
SE-CS30-series current sensors are shown in Figs. 15,
16, and 17. Ground-fault-CT connections and the
preferred ground-fault-CT location are shown in
Fig. 3. If a ground fault in the NGR is unlikely, a
minimal loss of protection will result if the ground-fault
CT monitors the NGR connection to ground rather than
its connection to neutral. A minimal loss of protection
will also result if the sensing-resistor-to-neutral
connection does not pass through the CT window. This
alternate CT location is shown in Fig. 3.
The accuracy of a typical current sensor decreases
below 5% of its current rating. CT-primary currentinjection testing is recommended to verify trip levels
below 5% of the CT-primary rating.
See
Section 9.4. Littelfuse Startco current sensors are
designed for use at low levels and respond linearly to 2%
current rating.
NOTE: The current-sensor insulation class is of no
consequence if its secondary is grounded and the
conductors through its window are insulated for the
system voltage. Bushing type CT’s are required for
applications using bare conductors on the NGR’s neutral
side.
Page 19
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
NOTES:
1. DIMENSIONS IN MILLIMETRES (INCHES).
2. MOUNTING SCREWS: M4 OR 8-32.
3. PRESS MOUNTING FEET IN PLACE USING
INSTALLATION TOOL PROVIDED.
4. RoHS COMPLIANT.
5. EN 60044-1 COMPLIANT.
121.0
(4.76)
121.0
(4.76)
20.5
(0.81)
56.0
(2.21)
46.0
(1.81)
30.0
(1.18)
80.0
(3.15)
NOTE 2
M5 SCREWS
TOP
MOUNTING DETAIL
25.0
(0.98)
30.0
(1.18)
EFCT-1 EARTH FA ULT CT
600 V CLASS, INSULATION CLASS A
R
R
LR 53428
5.0 (0.20) Ø
RECESSED FOR
8-mm HEX NUT
1.0 (0.04) DEEP
22.0
(0.87)
EFCT - 1FC
FLUX
CONDITIONER
(OPTIONAL)
.0
82 23)
.
(3
69
(2.7 .8
5)
126.0
(4.96)
US
(5.43)
138.0 MAX
C
5.5
(0.22)
110.0
(4.33)
FRONT
FIGURE 15. EFCT-1 Ground-Fault Current Sensor.
5.5
(0.22)
56.0
(2.21)
SIDE
Page 20
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
121.0
(4.76)
121.0
(4.76)
20.5
80.0
(3.15)
56.0
(2.21)
46.0
(1.81)
30.0
(1.18)
(0.81)
NOTE 3
M5 SCREWS
TOP
MOUNTING DETAIL
25.0
(0.98)
(1.18)
30.0
SE-CS30-70
CURRENT SENSOR
R
LR 53428
R
22.0
Ø 5.0 (0.20)
RECESSED FOR
8-mm HEX NUT
1.0 (0.04) DEEP
5.5
110.0
5.5
(0.22)
(4.33)
(0.22)
56.0
(2.21)
SIDE
FRONT
MOUNTING FOOT
INSTALLATION
TOOL
126.0
69.
8
(2.7
5)
NOTES:
1. DIMENSIONS IN MILLIMETRES (INCHES).
2. PRESS MOUNTING FEET IN PLACE USING
INSTALLATION TOOL PROVIDED (DETAIL ‘A’).
3. MOUNTING SCREWS: M4 OR 8-32.
DETAIL ‘A’
FIGURE 16. SE-CS30-70 Ground-Fault Current Sensor.
(4.96)
US
(0.87)
(5.43)
138.0 MAX
C
4. RoHS COMPLIANT.
5. EN 60044-1 COMPLIANT.
Page 21
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
68.0
(2.68)
34.0
(1.34)
68.0
(2.68)
M4 OR 8-32 TAP
26.5
(1.04)
52.5
(2.07)
42.6
(1.68)
17.0
(0.67)
MOUNTING DETAIL
TOP
(0.43)
110.0 MAX
M5 SCREWS
25.0
(0.98)
26.5
(1.04)
SE-CS30-26
CURRENT SENSOR
R
R
LR 53428
US
4.0 (0.16) Ø
0
.
26
RECESSED FOR
7-mm HEX NUT
3.0 (0.12) DEEP
2)
7.0
.0
(1
58.0
(2.28)
(0.87)
34.0
(1.34)
72.0
(2.83)
C
5.0
(0.20)
5.0
(0.20)
52.5
(2.07)
FRONT
SIDE
NOTES:
1. DIMENSIONS IN MILLIMETRES (INCHES).
2. PRESS MOUNTING FEET IN PLACE USING
INSTALLATION TOOL PROVIDED (DETAIL ‘A’).
MOUNTING FOOT
INSTALLA TION
TOOL
3. MOUNTING SCREWS: M4 OR 8-32.
4. RoHS COMPLIANT.
5. EN 60044-1 COMPLIANT.
DETAIL ‘A’
6. SE-CS30-26 SHOWN.
FIGURE 17. EFCT-26 and SE-CS30-26 Ground-Fault Current Sensors.
Page 22
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
30.0
(1.18)
RESISTOR FAULT
17.3
(0.68)
29.9
(1.17)
36.6
(1.44)
NOTE 4
22.2 (0.87) DIA
NOTES:
LEGEND PLATES
1. TWO RED LED LIGHTS
24-120 VAC/DC, NOT POLARITY
SENSITIVE.
30.0 MINIMUM
(1.18)
29.9
(1.17)
MOUNTING DETAIL
PUSH BUTTON
2. YELLOW PUSH BUTTON
3 A @ 240 VAC - A600,
0.5 A @ 125 VDC - Q600.
(1.57)
40.0 MINIMUM
43.5
36.6
(1.44)
(1.71)
PILOT LIGHTS
14.9
(0.59)
GROUND FAULT
LEGEND
PLATE
(0.59)
X1
X2
22.5
(0.89)
15.0
43.5
(1.71)
25.0
(0.98)
RESET
3. DIMENSIONS IN MILLIMETRES
(INCHES).
4. ----- INDICATES CLEARANCE
REQUIRED.
5. PANEL THICKNESS 1.0 TO 6.0
(0.04 TO 0.24).
6. NEMA 4X.
FIGURE 18. RK-332 Remote Indication and Reset.
67.5
(2.657)
67.5
(2.657)
48.0
(1.890)
66.0
(2.598)
R1.25(0.049)
MAXIMUM
TOP
MOUNTING CUTOUT
100
60
40
®
20
65.0
(2.559)
80
1. DIMENSIONS IN MILLIMETRES (INCHES).
71.0
(2.795)
%
NOTES:
0
PGA-0520
ANALOG % CURRENT METER
FRONT
FIGURE 19. PGA-0520 Analog Percent Current Meter.
SIDE
REAR
SE-330HV Neutral-Grounding-Resistor Monitor
3.4 ISOLATED GROUND CONNECTION
An isolated ground bed can prevent a ground potential
rise (GPR) from being transferred to remote equipment.
If the G terminals on the sensing resistor and the
SE-330HV are connected to an isolated ground, the
SE-330HV will be exposed to the GPR. If the GPR is
greater than the terminal-block rating, the SE-330HV
must be isolated from station ground and precautions
must be taken with the power supply and the trip contacts.
See Technical Note RG-1 “NGR Monitoring with Isolated
Ground Beds” at www.littelfuse.com/relayscontrols.
An alternate configuration which allows an SE-330HV
to be connected to station ground is shown in Fig. 20.
The SE-330HV monitors the series combination of the
NGR and the two ground beds. This configuration is
acceptable provided the series resistance of the NGR and
the ground beds is within the NGR calibration range and
ground-bed-resistance changes remain within the trip
range. See Section 6.1.
NEUTRAL
ER-SERIES N
SENSING
RESISTOR
STATION
TRIP CIRCUIT
22
NGR
23
R
STATION
CONTROL
SUPPLY
1
2
K1
L1
R
L2/N
G
G
6
7
SE-330HV
3
STATION GROUND BUS
STATION
GROUND BED
ISOLATED
GROUND BED
REMOTE GROUND
FIGURE 20. Simplified Isolated-Ground Connection.
Page 23
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
4. DATA INTERFACES
4.1 SD CARD
The SE-330HV supports microSD™ data storage.
The microSD™ card port is located on the front panel
just below the USB port. The microSD™ card is used
for long-term data logging of measured values and for
firmware upgrades.
4.1.1 DATALOGGING
When a microSD™ card is installed, the SE-330HV
looks for a directory called “Datalogging”. If this
directory exists, data logging will automatically start
after the card is indexed (indexing may take several
minutes depending on the size of the card and the
number of files).
The log is updated every two seconds and it includes
measured values, configuration parameters, and trip
status. A new log file is created at the start of each day.
If previous log files exist and the microSD™ card has
less than 20 MB of free space, the oldest datalogging file
will automatically be deleted before a new file is created.
The red DIAGNOSTIC LED may indicate an SD Card
error. See Section 5. Approximately 3 GB of data is
generated per year of logging.
4.1.2 FIRMWARE UPGRADE
Firmware upgrades are performed using a microSD™
card in conjunction with configuration switch S8. See
Section 2.1.4.6. The SE-Flash software is not required.
To upgrade the SE-330HV firmware, insert a
microSD™ card containing the firmware upgrade file
(.S19 format) in the root directory of the SD card and set
switch S8 to UPGRADE within 30 s of card installation.
If S8 is switched to UPGRADE after 30 s, the upgrade
process will not occur. If the microSD™ card is inserted
after S8 is switched to UPGRADE, switch S8 to RUN
and then back to UPGRADE. The SE-330HV evaluates
firmware upgrade files found in the root directory of the
microSD™ card and uses the first valid file.
Ensure that the DIAGNOSTIC LED is off before
beginning the firmware upgrade process.
The red DIAGNOSTIC LED blinks rapidly while the
firmware upgrade is running and the SE-330HV will
restart when the upgrade is complete. If the upgrade is
not successful, the DIAGNOSTIC LED will indicate an
SD Upgrade Error. See Section 5. Set switch S8 back to
RUN for normal operation. If a firmware upgrade fails,
the existing firmware is not overwritten.
A record of the upgrade can be found in
“upgrade_log_<SN>.txt” on the microSD™ card. This
file is updated each time an upgrade is performed.
NOTE: The included microSD™ card has a temperature
rating of -25 to 85°C (-13 to 140°F). For applications
colder than -25°C (-13°F), use an Industrial-Grade
microSD™ card.
Page 24
Rev. 5-I-091115
NOTE: The maximum recommended microSD™ card
storage capacity is 4 GB.
4.2 USB INTERFACE
Use the SE-MON330 software (version 3.5 or newer)
to access set-points, measured values, and trip records
through the mini B USB interface located on the front
panel. The following data can be viewed:
 Front-panel and configuration-switch settings
 Neutral voltage and neutral current
 Resistance change from the calibrated value
 Trip status
 Trip records, 100 date and time stamped
 Firmware version and serial number
The following values can be viewed and adjusted:
 Ground-fault trip setting (when front-panel GF Trip
Level is set to MEM)
 K2 ground-fault relay output operating mode
 K3 resistor-fault relay output operating mode
 Clock settings
 Trip records can be cleared
 Remote calibration
 Resistor-fault trip time
 Resistor-fault trip level
 Geo-magnetic filter
Ensure the real-time clock is set to the correct time
prior to normal operation. Trip records and on-board
datalogging information include date and time readings
from the clock. Refer to the SE-MON330 software help
file.
4.3 NETWORK COMMUNICATIONS
The optional communications interfaces include a
single CAN port and dual Ethernet ports supporting
cable, fiber(1), or both cable and fiber. Protocols include:
 DeviceNet over CAN (ordering option 1)
 EtherNet/IP over cable or fiber (ordering options 3,
4, and 5)
 Modbus TCP over cable or fiber (ordering options 3,
4, and 5)
 IEC 61850 over cable or fiber (ordering options 6, 7,
and 8)
Refer to the appropriate SE-330HV communicationsinterface manual for details.
(1)
Uses the plug-in style SC connector.
Page 25
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
5. TROUBLESHOOTING
PROBLEM
DIAGNOSTIC LED
FLASH CODE(1)
POWER LED off.
POWER LED flashes.
Calibration-Error Trip
DIAGNOSTIC LED flash code
1L-1S-1L
Remote Trip
DIAGNOSTIC LED flash code
1L-2S-1L
A/D-Converter-Error Trip
DIAGNOSTIC LED flash code
1L-4S-1L
SD Card
DIAGNOSTIC LED flash code
1L-5S-1L
Watchdog Trip
DIAGNOSTIC LED flash code
1L-6S-1L
CPU Trip
DIAGNOSTIC LED flash code
1L-7S-1L
Non-Volatile Memory Error Trip
DIAGNOSTIC LED flash code
1L-8S-1L
SD Upgrade Error
DIAGNOSTIC LED flash code
1L-9S-1L
DIAGNOSTIC LED = Solid Red
Pressing RESET does not clear trips.
UNIT HEALTHY relay K4 momentarily
changes state.
SOLUTION
Check if supply voltage is present on terminals 1 and 2. If present,
an overvoltage may have caused the power supply to shutdown.
Cycle supply voltage. If POWER LED remains off, return unit for
repair.
A power-supply overload has occurred. Cycle supply voltage. If
problem persists, consult Littelfuse Startco.
The total resistance of the NGR and sensing-resistor circuit is
outside the calibration range. Verify that switch S5 is set to match
the resistance of the sensing resistor, check the resistance of the
NGR, and verify the sensing-resistor circuit. See Section 9.2 for
sensing-resistor tests.
Repeat the calibration procedure after the open or shorted condition
has been corrected.
GF LED(2): No Change, RF LED(2): ON, K1:Trip
The SE-330HV was tripped by a signal from network
communications. Press RESET to clear the trip.
GF LED(2): ON, RF LED(2): ON, K1:Trip
An A/D-converter error was detected. Press RESET to clear the
trip. If the problem persists, consult Littelfuse Startco.
GF LED(2): No Change, RF LED(2): ON, K1:Trip
SD Card is full or a write error occurred. Delete files or use a
different microSD™ card.
GF LED(2): No Change, RF LED(2): No Change, K1:No Change
If this diagnostic was caused during an attempt to upgrade the
firmware, follow this alternate process:
- remove supply from SE-330HV
- insert a microSD card containing the firmware upgrade file in the
root directory of the SD card
- power on the SE-330HV
- set switch S8 to UPGRADE within 30 s
- the upgrade should continue as described in Section 4.1.2
A watchdog trip results in a processor reset. During reset, UNIT
HEALTHY relay K4 will be de-energized. After a reset, UNIT
HEALTHY relay K4 will be energized. Press RESET to clear the
trip. If the problem persists, consult Littelfuse Startco.
GF LED(2): ON, RF LED(2): ON, K1:Trip
The CPU has detected a system fault. Press RESET to clear the
trip.
GF LED(2): ON, RF LED(2): ON, K1:Trip
An error was detected in the Non-Volatile Memory. Press RESET
to clear the trip. If the problem persists, consult Littelfuse Startco.
GF LED(2): ON, RF LED(2): ON, K1:Trip
An error occurred during the flash-memory upgrade procedure.
Ensure that the firmware upgrade file is correct or use a different
microSD™ card.
GF LED(2): No Change, RF LED(2): No Change, K1:No Change
SE-330HV processor failed to start. Cycle supply. If problem
persists, consult Littelfuse Startco. K1: De-energized.
Trip condition is still present. Locate and correct.
The RESET button is disabled if remote-reset terminals 15 and 16
are connected. Replace shorted remote-reset switch or issue Reset
command from the communications network.
Occurs when processor is reset.
SE-330HV Neutral-Grounding-Resistor Monitor
PROBLEM
No analog-output current.
DIAGNOSTIC LED
FLASH CODE(1)
Page 26
Rev. 5-I-091115
SOLUTION
The output at terminals 19 and 20 requires a voltage source. See
Fig. 2 for analog-output connections. See Section 9.3 for the
analog-output tests.
NOTES:
(1)
L = long pause, S = short flash.
(2)
When LED is on, corresponding indication relay is energized when in the non-fail-safe mode or de-energized when in
the fail-safe mode.
SE-330HV Neutral-Grounding-Resistor Monitor
6. TECHNICAL SPECIFICATIONS
6.1 SE-330HV
Supply:
Option 0 ................................ 30 VA, 120 to 240 Vac
(+10, -45%) 50/60 Hz,
20 W, 110 to 250 Vdc
(+10, -25%)
Option 2 ................................ 20 W, 48 Vdc
(+50, -25%),
35 VA, 48 Vac
(+10, -45%) 50/60 Hz
Power-Up Time ........................ 3 s at 120 Vac
AC Measurements .................... Discrete Fourier
Transform. 16 samples
per cycle, 50 or 60 Hz
Resistor-Fault Circuit:
Neutral-To-Ground Voltage Trip Levels(1):
ER-15KV to ER-35KV ......100; 300; 500; 650; 850;
1,000; 1,700; 4,000; 6,000;
8,500; 10,000 Vac
ER-1000HV, ER-72KV .....200; 600; 1,000; 1,300;
1,700; 2,000; 3,400; 8,000;
12,000; 17,000;
20,000 Vac
Accuracy .............................10% of setting
3 dB Frequency Response:
S6 = 50 Hz .......................25 to 85 Hz
S6 = 60 Hz .......................30 to 90 Hz
NGR Calibration Range:
ER-15KV to ER-35KV ......0 to 10 k
ER-1000HV, ER-72KV .....0 to 20 k
Trip Resistance, VN = 0:
ER-15KV to ER-35KV:
Range(5) ............................1.25 to 3.75-k change
± 1 k
Default .............................2.5-k change
ER-1000HV, ER-72KV:
Range(5) ............................2.5 to 7.5-k change
± 2 k
Default .............................5-k change
DC-Voltage Rejection:
ER-15KV to ER-35KV ......125 Vdc
ER-1000HV, ER-72KV .....250 Vdc
Trip Time ...............................12 to 60 s ± 1 s
Trip Hold-Off Level ..............5% of CT-Primary Rating
Trip Mode ..............................Latching/Non-Latching
Ground-Fault Circuit:
Trip Level ..............................2, 4, 6, 8, 10, 20, 40, 60,
80, 100% of CT-Primary
Rating or 2 to 100% using
MEM parameter
Trip Time ...............................0.1, 0.2, 0.3, 0.4, 0.5, 0.7,
1.0, 2.0, 3.0, 5.0, 10.0 s
Page 27
Rev. 5-I-091115
Trip-Level Accuracy ............. Maximum of 1% of CTPrimary Rating or 3% of
Setting(2)
Trip-Time Accuracy ............. 10% of Setting, 20 ms
minimum
3 dB Frequency Response:
S6 = 50 Hz .......................... 25 to 85 Hz
S6 = 60 Hz .......................... 30 to 90 Hz
Maximum CT Lead Resistance:
EFCT & SE-CS30................. 5 
Other CT’s ............................. Consult CT Curve
CT-Input Burden:
5-A Input ............................ < 0.01 
1-A Input ............................ < 0.05 
EFCT Input......................... < 10 
Thermal Withstand:
1-A and 5-A Input:
Continuous ...................... 2 x CT Rating
1-Second .......................... 20 x CT Rating
EFCT Input:
Continuous ...................... 10 x CT Rating
1-Second .......................... 25 x CT Rating
Measurement Range ............. 25 x CT-Primary Rating
Trip Mode.............................. Latching/Non-Latching
Trip Relay K1 Contacts:
Configuration ........................ N.O. (Form A)
Operating Mode .................... Fail-Safe or Non-Fail-Safe
CSA/UL Contact Ratings ..... 8 A resistive 250 Vac, 5 A
resistive 30 Vdc
Supplemental Contact Ratings:
Make/Carry 0.2 s ................ 30 A
Break:
dc...................................... 75 W resistive,
35 W inductive
(L/R = 0.04 s)
ac ...................................... 2,000 VA resistive,
1,500 VA inductive
(PF = 0.4)
Subject to maximums of 8 A at 250 Vac, 5 A resistive
at 30 Vdc, and 0.4 A resistive at 250 Vdc.
GF (K2) and RF (K3) Relay Contacts:
Configuration ........................ N.O. and N.C. (Form C)
Operating Mode(5) ................. Non-Fail-Safe or Fail-Safe
CSA/UL Contact Ratings ..... 8 A resistive 250 Vac,
8 A resistive 30 Vdc
Supplemental Contact Ratings:
Make/Carry 0.2s ................. 20 A
Break:
dc...................................... 50 W resistive,
25 W inductive
(L/R = 0.04 s)
SE-330HV Neutral-Grounding-Resistor Monitor
ac ......................................2,000 VA resistive,
1,500 VA inductive
(PF = 0.4)
Subject to maximums of 8 A at 250 Vac, 8 A resistive
at 30 Vdc, and 0.4 A resistive at 150 Vdc.
Unit Healthy Output K4 (Option 0):
Configuration.........................N.O. (Form A)
Operating Mode.....................Closed when Healthy
Ratings ...................................100 mA, 250 V (ac or dc)
Closed Resistance..................30 to 50 
Unit Healthy Output K4 (Option 1):
Configuration.........................N.C. (Form B)
Operating Mode.....................Open when Healthy
Ratings ...................................100 mA, 250 V (ac or dc)
Closed Resistance..................25 to 50  maximum
Auto-reset time ............................2.8 s maximum
4-20-mA Analog Output:
Type .......................................Self Powered and
Loop Powered
Range .....................................4 to 22 mA
Loop Voltage .........................8 to 36 Vdc
Load .......................................500  (maximum with
24-Vdc supply)
Isolation .................................120 Vac
Parameter ...............................NGR Current, 20 mA =
CT Primary Current
USB Communications:
Baud Rate ..............................12 Mbit/s
Protocol ..................................USB Device
Connector...............................Mini B
SD Memory Card:
Type .......................................Standard Grade
Form Factor ...........................microSD™(3)
Format ....................................FAT32
Capacity
512 MB to 4 GB
(microSD™ and
microSDHC™)
Operating Temperature:
Standard Grade
(Included)............................-25 to 85°C (-13 to 140°F)
Industrial Grade ..................-40 to 85°C (-40 to 140°F)
PWB Conformal Coating ............MIL-1-46058 qualified,
UL QMJU2 recognized
Mounting Configurations ............Panel Mount and Optional
Surface Mount
Dimensions:
Height.....................................213 mm (8.4”)
Width .....................................99 mm (3.9”)
Depth ......................................132 mm (5.2”)
Page 28
Rev. 5-I-091115
Shipping Weight ......................... 2.0 kg (4.4 lb)
Environment:
Operating Temperature ......... -40 to 60°C (-40 to 140°F)
Storage Temperature ............. -55 to 80°C (-67 to 176°F)
Humidity................................ 85% Non-Condensing
IP Rating ................................ IP30
Surge Withstand .......................... ANSI/IEEE C37.90.1-1989
(Oscillatory and Fast
Transient)
EMC Tests:
Verification tested in accordance with EN 60255-26:2013.
Radiated and Conducted
Emissions ........................... CISPR 11:2009,
CISPR 22:2008,
EN 55022:2010
Class A
Current Harmonics and
Voltage Fluctuations .......... IEC 61000-3-2
and IEC 61000-3-3
Class A
Electrostatic Discharge ....... IEC 61000-4-2
± 6 kV contact discharge
(direct and indirect)
± 8 kV air discharge
Radiated RF Immunity ....... IEC 61000-4-3
10 V/m, 80-1,000 MHz,
80% AM (1 kHz)
10 V/m, 1.0 to 2.7 GHz,
80% AM (1 kHz)
Fast Transient ..................... IEC 61000-4-4
Zone B
± 2 kV (power supply
port), ± 1 kV (all other
ports)
Surge Immunity .................. IEC 61000-4-5
Zone B
± 1 kV differential mode
± 2 kV common mode
Conducted RF Immunity .... IEC 61000-4-6
10 V, 0.15-80 MHz,
80% AM (1 kHz)
Magnetic Field
Immunity ............................ IEC 61000-4-8
50 Hz and 60 Hz
30 A/m and 300 A/m
SE-330HV Neutral-Grounding-Resistor Monitor
Power Frequency(4) ............. IEC 61000-4-16
Zone A: differential mode
100 Vrms
Zone A: common mode
300 Vrms
1 MHz Burst ....................... IEC 61000-4-18
± 1 kV differential mode
(line-to-line)
± 2.5 kV common mode
Voltage Interruption ........... IEC 61000-4-11,
IEC 61000-4-29
0% for 10, 20, 30,
50 ms (dc)
0% for 0.5, 1, 2.5,
5 cycles (60 Hz)
IEC 61000-4-17
Level 4, 15% of rated dc
value
Certification .................................CSA, Canada and USA
R
C
LR 53428
US
UL Listed
Australia
N11659
CE, European Union
FCC
To:CSA C22.2 No. 14 Industrial Control Equipment
UL 508 Industrial Control Equipment
UL 1053 Ground Fault Sensing and Relaying
Equipment
CE Low Voltage Directive
IEC 61010-1:2010 (3rd Edition)
FCC CFR47, Part 15, Subpart B,
Class A – Unintentional Radiators
Compliance .............................. RoHS Pending
NOTES:
(1)
See sensing resistor specifications for applicable voltage
limits.
(2)
Accuracy included for EFCT-x and SE-CS30-x current
sensors only.
(3)
microSD™ and microSDHC™ are trademarks of
SD-3C, LLC.
(4)
Remote-reset wiring is limited to 10 m (32’).
(5)
This value can only be modified using SE-MON330
software. See Section 4.2.
Page 29
Rev. 5-I-091115
6.2 SENSING RESISTORS
Environment:
Operating Temperature ......... -40 to 60°C (-40 to 140°F)
Storage Temperature ............. -55 to 80°C (-67 to 176°F)
ER-15KV:
Maximum Voltage .............. 8,400 Vac
Maximum Current .............. 84 mA
Resistance ........................... 100 k
Thermal:
8,400 Vac ........................ 1 minute on,
120 minutes off
1,900 Vac ........................ Continuous
Torque (Terminal N)............. 9.0 N-m (80 in-lb)
Shipping Weight ................... 5.0 kg (11 lb)
Extended Operating
Temperature .......................... -55 to 60°C (-67 to
140°F)(1)
ER-25KV:
Maximum Voltage .............. 14,400 Vac
Maximum Current .............. 144 mA
Resistance ........................... 100 k
Thermal:
14,400 Vac ...................... 1 minute on,
120 minutes off
2,500 Vac ........................ Continuous
Torque (Terminal N)............. 9.0 N-m (80 in-lb)
Shipping Weight ................... 20 kg (44 lb)
Extended Operating
Temperature .......................... -55 to 60°C
(-67 to 140°F)(1)
ER-35KV:
Maximum Voltage .............. 22,000 Vac
Maximum Current .............. 220 mA
Resistance ........................... 100 k
Thermal:
22,000 Vac ...................... 1 minute on,
120 minutes off
3,000 Vac ........................ Continuous
Torque (Terminal N)............. 9.0 N-m (80 in-lb)
Shipping Weight ................... 40 kg (88 lb)
Extended Operating
Temperature .......................... -55 to 60°C
(-67 to 140°F)(1)
ER-72KV:
Maximum Voltage .............. 44,000 Vac
Maximum Current .............. 220 mA
Resistance ........................... 200 k
Thermal:
44,000 Vac ...................... 1 minute on,
120 minutes off
6,000 Vac ........................ Continuous
Torque (Terminal N)............. 9.0 N-m (80 in-lb)
Shipping Weight ................... 95 kg (210 lb)
SE-330HV Neutral-Grounding-Resistor Monitor
ER-1000HV:
Maximum Voltage .............. 600 Vac
Maximum Current .............. 3 mA
Resistance ........................... 200 k
Thermal ..................................600 Vac Continuous
Shipping Weight....................300 g (0.7 lb)
Certification.............................. CSA, Canada and USA
R
C
LR 53428
US
UL Listed
CE, European Union
NOTES:
(1)
Electrical specifications have been verified at a
Littelfuse lab.
6.3 CURRENT SENSORS
Environment:
Operating Temperature ...........-40 to 60°C (-40 to 140°F)
Storage Temperature ...............-55 to 80°C (-67 to 176°F)
EFCT-1:
Current Ratio ...................... 5:0.05 A
Insulation ............................ 600-V Class
Window Diameter............... 82 mm (3.2”)
Shipping Weight ................. 0.9 kg (2.0 lb)
Certifications ...................... CSA, UL, CE
Compliance ......................... RoHS, IEC 60044-1
Extended Operating
Temperature...........................-55 to 60°C
(-67 to 140°F)(1)
Supplemental
Specifications:
Trip Level Accuracy:
≤ 1 A ..........................1% of CT-Primary Rating
> 1 A ..........................3% of CT-Primary Rating
EFCT-26:
Current Ratio ...................... 5:0.05 A
Insulation ............................ 600-V Class
Window Diameter............... 26 mm (1.0”)
Shipping Weight ................. 0.45 kg (1.0 lb)
Certifications ...................... CSA, UL, CE
Compliance ......................... RoHS, IEC 60044-1
Extended Operating
Temperature...........................-55 to 60°C
(-67 to 140°F)(1)
Supplemental
Specifications:
Trip Level Accuracy:
≤ 1 A ..........................1% of CT-Primary Rating
> 1 A ..........................3% of CT-Primary Rating
Page 30
Rev. 5-I-091115
SE-CS10-2.5:
Current Ratio........................ 1,000:5 A
Insulation ............................. 600-V Class
Window Diameter ................ 63 mm (2.5”)
Shipping Weight .................. 0.7 kg (1.5 lb)
Certifications ........................ CE
Compliance .......................... IEC 60044-1
SE-CS30-26:
Current Ratio ........................ 30:0.05 A
Insulation ............................. 600-V Class
Window Diameter ................ 26 mm (1.0”)
Shipping Weight .................. 0.45 kg (1.0 lb)
Certifications ........................ CSA, UL, CE
Compliance .......................... RoHS, IEC 60044-1
Extended Operating
Temperature ............................ -55 to 60°C
(-67 to 140°F)(1)
SE-CS30-70:
Current Ratio ........................ 30:0.05 A
Insulation ............................. 600-V Class
Window Diameter ................ 70 mm (2.7”)
Shipping Weight .................. 1.2 kg (2.5 lb)
Certifications ........................ CSA, UL, CE
Compliance .......................... RoHS, IEC 60044-1
Extended Operating
Temperature ............................ -55 to 60°C
(-67 to 140°F)(1)
CT200:
Current Ratio ........................ 200:5 A
Insulation ............................. 600-V Class
Window Diameter ................ 56 mm (2.2”)
Shipping Weight .................. 1 kg (2.2 lb)
Certifications ........................ CSA, UL
Compliance .......................... RoHS
Extended Operating
Temperature ............................ -55 to 60°C
(-67 to 140°F)(1)
NOTES:
(1)
Electrical specifications have been verified at a
Littelfuse lab.
SE-330HV Neutral-Grounding-Resistor Monitor
7. ORDERING INFORMATION
SE-330HV-
-
K4 Contact:
0 N.O. UNIT HEALTHY Contact
1 N.C. UNIT HEALTHY Contact
Options:
0 No Options
Network Communications:(1)
0 None
1 DeviceNet™
3 Ethernet (Dual RJ45)
4 Ethernet (SC Fiber & RJ45)
5 Ethernet (Dual SC Fiber)
6 IEC 61850 (Dual RJ45)
7 IEC 61850 (SC Fiber & RJ45)
8 IEC 61850 (Dual SC Fiber)
Supply:
0 Universal ac/dc Supply
2 48 Vdc Supply
NOTE: Please refer to the SE-330 Product Change Notice
(PCN) document for updated ordering information and new
revision details, available at www.littelfuse.com/se-330hv.
NOTE: The SE-330-SMA Surface Mount Adapter is
available as an accessory only.
Sensing Resistors:
ER-15KV .................................For system voltages up to
15 kVac
ER-25KV .................................For system voltages up to
25 kVac
ER-35KV .................................For system voltages up to
35 kVac
ER-72KV .................................For system voltages up to
72 kVac
ER-1000HV.............................For system voltages up to
1 kVac
Current Sensors:
EFCT-1 ....................................Current Sensor,
5-A-primary rating,
82 mm (3.2”) window,
6 m (19.5’) of 22 AWG
(3.3 mm2) shielded cable
included
EFCT-26 ..................................Current Sensor,
5-A-primary rating,
26 mm (1.0”) window,
6m (19.5’) of 22 AWG
(3.3 mm2) shielded cable
included
SE-CS10-2.5......................... Current Sensor,
30-A-primary rating,
63 mm (2.5”) window
SE-CS30-26.......................... Current Sensor
30-A-primary rating,
26 mm (1.0”) window
Page 31
Rev. 5-I-091115
SE-CS30-70........................... Current Sensor,
30-A-primary rating,
70 mm (2.7”) window
CT200 ................................. Current Sensor,
200-A-primary rating,
56 mm (2.2") window
5SHT-101-E .......................... Current Sensor,
100-A-primary rating,
40 mm (1.6”) window
5SHT-151-E .......................... Current Sensor,
150-A-primary rating,
40 mm (1.6”) window
5SHT-500-E .......................... Current Sensor,
50-A-primary rating,
40 mm (1.6”) window
7SHT-301-E .......................... Current Sensor,
300-A-primary rating,
64 mm (2.5”) window
7SHT-401-E .......................... Current Sensor,
400-A-primary rating,
64 mm (2.5”) window
Accessories:
RK-332 .................................. Remote Indication and
Reset, includes two 120-V
pilot lights, a reset push
button, and legend plates
SE-IP65CVR-G .................... Hinged transparent cover,
IP65
PGA-0520.............................. Percent Analog Meter
SE-330-SMA......................... Surface Mount Adapter
AC300-MEM-00................... Industrial-Grade
microSD™ Card
Software: (2)
SE-MON330 Software ......... SE-330HV Data-Display
Program for PC, version
3.5 or newer
NGR Monitor
Set-Point Assistant ................ Setting Guide
NOTES:
(1)
Profibus models only available on legacy SE-330HV.
(2)
Available at www.littelfuse.com/relayscontrols.
SE-330HV Neutral-Grounding-Resistor Monitor
8. WARRANTY
The SE-330HV Neutral-Grounding-Resistor Monitor is
warranted to be free from defects in material and
workmanship for a period of five years from the date of
purchase.
Littelfuse Startco will (at Littelfuse Startco’s option)
repair, replace, or refund the original purchase price of an
SE-330HV that is determined by Littelfuse Startco to be
defective if it is returned to the factory, freight prepaid,
within the warranty period. This warranty does not apply
to repairs required as a result of misuse, negligence, an
accident, improper installation, tampering, or insufficient
care. Littelfuse Startco does not warrant products
repaired or modified by non-Littelfuse Startco personnel.
9. TEST PROCEDURES
NOTE: Ensure the real-time clock is set. See Section 4.2.
9.1 RESISTOR-FAULT TESTS
Perform tests with system de-energized and supply
voltage applied to the SE-330HV.
9.1.1 CALIBRATION AND OPEN TEST
Test Equipment: 100-k and 200-k, 1/4-watt, 1%
calibration resistors (calibration resistors
supplied with SE-330HV).
Procedure:
 Remove connections to terminals 6 and 7.
 Connect the 100-k resistor to terminals 6 and 7.
 Set switch S5 to the 100-k position.
 Perform calibration as per Section 2.2.
 The CALIBRATED LED should be on. Press RESET.
 Remove the 100-k resistor and wait for the resistorfault trip time.
PASS: The SE-330HV should trip on resistor fault.
 Connect the 200-k resistor to terminals 6 and 7.
 Set switch S5 to the 200-k position.
 Perform calibration as per Section 2.2.
The CALIBRATED LED should be on.
 Press RESET.
 Remove the 200-k resistor and wait for the resistorfault trip time.
PASS: The SE-330HV should trip on resistor fault.
NOTE: Resistor-fault-trip reset can take up to one second.
9.1.2 VOLTAGE TEST
Test Equipment: 0 to 250 Vac voltage source, multimeter, and
ER sensing resistor.
NOTE: Use an isolation transformer if the test-voltage source
does not provide dc continuity for the SE-330HV resistancemeasuring circuit.
Page 32
Rev. 5-I-091115
NOTE: Applying the test voltage to the R and G terminals will
damage the SE-330HV and the ER sensing resistor. The VN
TRIP LEVEL is the trip voltage at terminal N, not terminal R.
Procedure:
 Connect the ER sensing resistor to the SE-330HV and
calibrate the SE-330HV.
 Disconnect the wire from sensing-resistor terminal N. A
resistor-fault will occur.
 Set the voltage source to 0 V.
 Connect the voltage source between sensing resistor N and
G terminals.
 Set the VN TRIP LEVEL (VAC) to 100.
 Press RESET.
 The RESISTOR FAULT TRIP LED should be off.
 Increase the test voltage to 120 Vac for 100-k sensors or
240 Vac for 200-k sensors and wait the resistor-fault
trip time.
PASS: The SE-330HV should trip on RESISTOR
FAULT. A time-delayed ground-fault trip follows the
resistor-fault trip if neutral voltage persists after the resistor
fault. For legacy units with firmware revision 6 or less,
this does not apply.
9.2 SENSING-RESISTOR TEST
Test Equipment: Multimeter.
Procedure:
 Disconnect the sensing resistor.
 Measure the resistance between sensing-resistor terminals
R and N.
PASS: Resistance should be between 98 and 102 k for
100-k sensing resistors. Resistance should be between
196 and 204 k for 200-k sensing resistors.
 Measure the resistance between sensing-resistor terminals
R and G in both directions.
PASS: Resistance should be greater than 10 M in
both directions.
9.3 ANALOG-OUTPUT TEST
Test Equipment: Multimeter with a mAdc scale.
Procedure:
 Connect the 4–20-mA output as a self-powered output as
shown in Fig. 3. Measure the current from terminal 20 to
terminal 21.
PASS: With no CT current, the analog output should be
4 mA.
 Output is linear to 20 mA. Output is 20 mA when CTprimary current is equal to the CT-primary rating.
Page 33
Rev. 5-I-091115
SE-330HV Neutral-Grounding-Resistor Monitor
9.4 GROUND-FAULT PERFORMANCE TEST
To meet the requirements of the National Electrical
Code (NEC), as applicable, the overall ground-fault
protection system requires a performance test when first
installed. A written record of the performance test is to be
retained by those in charge of the electrical installation in
order to make it available to the authority having
jurisdiction. A test-record form is provided for recording
the date and the final results of the performance tests.
The following ground-fault system tests are to be
conducted by qualified personnel:
NEUTRAL
NOTE 1
TO SE-330HV
TO SENSING
RESISTOR
TERMINAL N
L
N
a) Evaluate the interconnected system in accordance with
the overall equipment manufacturer’s detailed
instructions.
b) Verify proper installation of the ground-fault current
sensor. Ensure the cables pass through the groundfault-current-sensor window. This check can be done
visually with knowledge of the circuit.
The
connection of the current-sensor secondary to the
SE-330HV is not polarity sensitive.
c) Verify that the system is correctly grounded and that
alternate ground paths do not exist that bypass the
current sensor. High-voltage testers and resistance
bridges can be used to determine the existence of
alternate ground paths.
NGR
11
3
5
OP1
8
9
12
L1
L2
1
REMOTE
INPUT
OP2
SE-400
RMT1
RMT2
NOTE:
1. USE MULTIPLE WRAPS FOR TEST CURRENTS > 9.9 A.
FIGURE 21. Ground-Fault-Test Circuit.
TABLE 3. GROUND-FAULT-TEST RECORD
DATE
TEST RESULTS
d) Verify proper reaction of the circuit-interrupting
device in response to a simulated or controlled groundfault current. To simulate ground-fault current, use
CT-primary current injection (does not apply for
bushing-type CT’s). Fig. 21 shows a test circuit using
an SE-400 Ground-Fault-Relay Test Unit. The SE400 has a programmable output of 0.5 to 9.9 A for a
duration of 0.1 to 9.9 seconds. Set the test current to
120% of GF TRIP LEVEL. Inject the test current
through the current-sensor window for at least 2.5
seconds. Verify that the circuit under test has reacted
properly. Correct any problems and re-test until the
proper reaction is verified.
e) Record the date and the results of the test on the
attached test-record form.
NOTE: Do not inject test current directly into CT-input
terminals 8, 9, 10, and 11.
NOTE: For accurate trip-time measurement, the fault
current should not be re-applied for the time defined by the
GF TRIP TIME setting to allow the trip accumulator to
initialize.
Retain this record for the authority having jurisdiction.
SE-330HV Neutral-Grounding-Resistor Monitor
MANUAL
RELEASE DATE
APPENDIX A
SE-330HV REVISION HISTORY
HARDWARE REVISION
MANUAL
(REVISION NUMBER
REVISION
ON PRODUCT LABEL)
September 11, 2015
5-I-091115
June 22, 2015
5-H-062215
May 20, 2015
5-G-052015
March 3, 2015
5-F-030315
July 8, 2014
5-E-070814
April 14, 2014
5-D-041414
Page 34
Rev. 5-I-091115
FIRMWARE REVISION
2.52
15
2.50
2.40
14
2.31
2.30
13
12
2.20
January 9, 2014
5-C-010914
November 29, 2013
5-B-112913
10A
2.10
October 8, 2013
5-A-100813
10A
2.08
11
MANUAL REVISION HISTORY
REVISION 5-I-091115
SECTION 4
Section 4.1.2 updated.
SECTION 5
SD card diagnostic troubleshooting updated.
REVISION 5-H-062215
SECTION 2
Section 2.1.6 added.
SECTION 4
SD Card approximate yearly data logging usage updated.
SE-MON330 software version updated.
SECTION 6
Resistor-fault trip level ranges added.
REVISION 5-G-052015
SECTION 4
SD Card storage capacity updated.
SECTION 6
SD Card storage capacity specification updated.
REVISION 5-F-030315
SECTION 2
Sections 2.1.5 and 2.1.6 added.
SECTION 4
Section 4.2 new features added.
SECTION 6
Resistor-fault circuit trip time updated.
REVISION 5-E-070814
SECTION 6
Added CE, C-Tick, and FCC information.
REVISION 5-D-041414
APPENDIX A
Hardware revision updated.
REVISION 5-C-010914
SECTION 6
Extended operating temperatures added to the ER-15KV, ER-25KV, and ER-35KV sensing resistors and SE-CS30
current sensors.
SE-330HV Neutral-Grounding-Resistor Monitor
Page 35
Rev. 5-I-091115
REVISION 5-B-112913
SECTION 6
CE added to sensing resistors.
SECTION 7
Ordering information updated.
REVISION 5-A-100813
SECTION 1
Faceplate updated.
New features added.
SECTION 2
Communications options updated.
Configuration switches updated.
Indication relays explanation added.
Non-volatile-memory error added.
SECTION 3
Connection drawing updated.
SECTION 4
Section heading changed to Data Interfaces.
Updated with microSD™ and USB interfaces.
Upgrade procedure added.
Real Time Clock note added in Section 4.2.
SECTION 5
Non-volatile-memory error added.
Switch S8 diagnostic LED error removed.
LED and relay status added to troubleshooting solutions.
SECTION 6
Ground-fault circuit trip level updated.
USB communications specifications added.
Resistor-fault accuracy changed.
microSD™ memory card specifications added.
SECTION 7
Ordering information updated.
SE-330-SMA Surface Mount Adapter is now listed as an accessory only.
APPENDIX A
Added revision history.
HARDWARE REVISION HISTORY
HARDWARE REVISION 15
RTC circuit updated.
HARDWARE REVISION 14
Added CE and C-Tick compliance.
HARDWARE REVISION 13
Reduced ESD sensitivity of front-panel dials.
HARDWARE REVISION 12
Improved Fiber Ethernet support.
HARDWARE REVISION 11
Reduced ESD sensitivity of USB and SD card connectors.
HARDWARE REVISION 10A
Updated SE-330HV platform to include USB and microSD™ interfaces, programmable trip level (MEM) feature,
and ability to add future options.
Real-time clock added.
Added dual cable and fiber Ethernet ports.
Update to RTC circuit.
FIRMWARE REVISION HISTORY
FIRMWARE REVISION 2.52
Improved compatibility with Internet Explorer™ web browser.
SE-330HV Neutral-Grounding-Resistor Monitor
Page 36
Rev. 5-I-091115
FIRMWARE REVISION 2.50
Added support for adjustable resistor-fault trip level.
Web page functionality re-enabled for Ethernet options.
FIRMWARE REVISION 2.40
Added support for geo-magnetic filter.
Added support for 12 to 60 s resistor-fault trip time.
Improved log file descriptions.
IEC 61850 GOOSE network input support now always enabled.
Improved compatibility for Modbus TCP.
Web page disabled for Ethernet options. This will be enabled in a future firmware release.
IP setting changes for Ethernet options now require power cycle to take effect.
FIRMWARE REVISION 2.31
SD Card and USB diagnostic events no longer cause a trip.
FIRMWARE REVISION 2.30
Remote calibration feature added.
FIRMWARE REVISION 2.20
Added support for EtherNet/IP protocol.
IED name now reported correctly through IEC 61850 interface.
EtherNet/IP and Modbus communications card LED status updated.
Hardware version viewable in the SE-MON330 software and through the Modbus and IEC 61850 servers.
FIRMWARE REVISION 2.10
Added support for IEC 61850 and DeviceNet protocols.
FIRMWARE REVISION 2.08
Updated firmware to include USB and microSD™ interfaces, datalogging, and firmware update via microSD™.
K2 and K3 indication relays can be configured for fail-safe or non-fail-safe operation.
Trip records increased to 100 with date and time stamping.
Added support for communications options.