Littelfuse Inc. 的 SE-134C User Manual 规格书

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SE-134C MANUAL
GROUND-FAULT GROUND-CHECK MONITOR
REVISION 7-D-090816
Copyright © 2016 by Littelfuse Startco.
All rights reserved.
Document Number: PM-1310-EN
Printed in Canada.
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
TABLE OF CONTENTS
SECTION PAGE
1 General ................................................................. 1
2 Operation ............................................................. 1
2.1 Ground-Fault Circuit ............................................. 1
2.1.1 GF Trip Time Setting ................................. 1
2.1.2 GF Trip Level Setting ................................ 1
2.2 Ground-Check Circuit ........................................... 1
2.3 Reset ...................................................................... 2
2.4 Trip Relay .............................................................. 2
3 Indication ............................................................. 2
3.1 Ground Fault ......................................................... 2
3.2 Power ..................................................................... 2
3.3 Diagnostic Error .................................................... 2
3.4 Ground Check ....................................................... 2
4 Installation ........................................................... 2
4.1 General .................................................................. 2
4.2 Monitor .................................................................. 3
4.3 Current Sensors ..................................................... 3
4.4 Termination Assembly .......................................... 3
4.5 Remote Operation ................................................. 3
4.6 Parallel-Path Isolation ........................................... 3
4.7 Ferrite Placement ................................................... 3
5 Technical Specifications .................................... 15
5.1 SE-134C .............................................................. 15
5.2 Current Sensors ................................................... 16
5.3 Termination Assemblies ...................................... 17
6 Ordering Information ....................................... 17
7 Warranty ............................................................ 18
8 Test Procedures ................................................. 18
8.1 Ground-Check Trip Tests .................................... 18
8.1.1 Latching Ground-Check Trip Test ........... 18
8.1.2 Non-Latching Ground-Check Trip Test ... 18
8.2 Trip Relay Fail-Safe Mode Test .......................... 18
8.3 Current-Sensor-Verification Test ........................ 18
8.4 SE-TA6A-Series Termination Assembly Tests .. 19
8.5 Ground-Fault Performance Test .......................... 19
Appendix A SE-134C Revision History ...................... 22
LIST OF FIGURES
FIGURE PAGE
1 SE-134C Typical Application ............................... 4
2 SE-134C Outline and Panel-Mounting Details ..... 5
3 SE-134-SMA Surface Mount Adapter and
SE-134C Surface-Mounting Details ..................... 6
4 SE-IP65CVR-G Weatherproof Cover Outline ...... 7
5 SE-IP65CVR-G Weatherproof Cover
Installation ............................................................. 8
6 SE-CS10 Current Sensors ..................................... 9
7 SE-TA6A and SE-TA6A-WL Termination
Assemblies .......................................................... 10
8 SE-TA6ASF-WL Small-Format-Wire-Lead
Termination Assembly ........................................ 11
9 RK-132 Remote Indication and Reset Kit .......... 11
10 PPI-600V Parallel-Path Isolator .......................... 12
11 PPI-600V Typical Installation ............................. 13
12 SE-134C with Ferrites Installed .......................... 14
13 Current Sensor Shield Connection ...................... 14
14 Trip Relay Maximum Switching Capacity ......... 20
15 Remote-Indication Relays GC and GF Maximum
Switching Capacity ............................................. 20
16 Ground-Fault-Test Circuit ................................... 21
17 Termination-Assembly-Test Circuits .................. 21
LIST OF TABLES
TABLE PAGE
1 Ground-Fault-Test Record .................................. 19
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.
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
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Page 1
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
1. GENERAL
The SE-134C is a microprocessor-based, combination
ground-fault and ground-wire monitor for resistance-
grounded systems. It has a switching power supply that
accepts a wide range of ac and dc voltages, and its
specifications apply over an industrial temperature range
at high humidity. The SE-134C meets the IEEE surge-
withstand-capability tests (oscillatory and fast transient)
for protective relays and relay systems. Isolated,
normally open and normally closed contacts are provided
for contactor control or for shunt or undervoltage
operation in a breaker-trip circuit. All operating
conditions are clearly annunciated and two Form C
contacts are provided for remote indication. The SE-
134C is housed in an anodized extruded-aluminum
enclosure, and all connections are made with plug-in,
wire-clamping terminal blocks. Provision is made for
both panel and surface mounting.
The ground-fault circuit detects fundamental-
frequency, zero-sequence current with a window-type
current sensor and it verifies that the current sensor is
connected and not shorted. A definite-time characteristic
with 11 trip levels and 11 trip times allows coordination
in virtually any resistance-grounded system. Although
other current sensors may satisfy the verification circuit,
only SE-CS10-series sensors have characteristics that
meet system specifications. Current-sensor verification
can be disabled for a ground-check-only application.
The ground-check circuit has an open-circuit voltage of
24 Vdc, which is not a hazard to personnel, and it has an
output drive current above 100 mA for optimum
performance in slip-ring, commutated-load, and high-
induced-ac applications. Features include an externally
accessible ground-check fuse, a resistance-insertion test,
3-kV isolation between the ground-check loop and the
monitor electronics, and a PPI-600V accessory for
parallel-ground-path rejection. A PPI-600V will also
eliminate intermachine arcing and prevent stray ac and dc
currents from flowing in the monitored ground wire.
Unlike ground-check circuits using other termination
devices, and especially those with phase-reversal
switches, a ground-check circuit using a termination
device with a Zener characteristic is capable of loop
measurements that are independent of current in the phase
conductors. The SE-134C ground-check circuit
recognizes the SE-TA6A-series 5.6-volt Zener
characteristic as a valid end-of-line completion. This is
the only passive characteristic that will satisfy the ground-
check circuit’s multi-level drive, allow induced currents
to circulate in the ground-check loop, survive a phase-to-
ground-check fault, and clamp the ground-check voltage
during the fault. Although a standard 5.6-volt Zener
diode may engage the SE-134C’s ground-check circuit,
only an SE-TA6A-series termination assembly has the
compensation required to meet system specifications. In
select applications, a combination of an SE-TA12A and
SE-TA12B Termination Assembly can be used to monitor
the cables of a splitter box (junction box) using a single
SE-134C Monitor. The SE-TA12A/SE-TA12B
combination is not compatible with the SE-134C-XGC-
X0 ordering option. See Technical Note GC-09, available
at www.littelfuse.com/relayscontrols.
2. OPERATION
2.1 GROUND-FAULT CIRCUIT
2.1.1 GF TRIP TIME SETTING
The ground-fault circuit has a definite-time
characteristic with 11 settings from 0.1 to 2.5 seconds.
Time-coordinated ground-fault protection requires the trip
time to be longer than the trip time of downstream
ground-fault devices.
2.1.2 GF TRIP LEVEL SETTING
The trip level of the ground-fault circuit is switch
selectable with 11 settings from 0.5 to 12.5 A. A
minimum tripping ratio of 5 is recommended to achieve at
least 80% winding protection, and this requires the trip
level to be no more than 20% of the grounding-resistor
let-through current. A ground-fault trip is latched,
requiring a reset. A current-sensor failure will also cause
a ground-fault trip. See Section 3.1
If the SE-134C is operated in a ground-check-only
application and an SE-CS10 is not connected, connect
terminals 17 and 18 to disable sensor verification. See
Fig. 1.
2.2 GROUND-CHECK CIRCUIT
The ground-check loop consists of the outgoing
ground-check conductor, quick-coupler connections, the
SE-TA6A-series termination assembly, the SE-TA6A
connection to equipment frame or ground bus, the
ground-return path, and the SE-134C cable-ground-
terminal connection to substation ground.
The SE-134C detects a valid ground-check loop when
an SE-TA6A-series termination assembly is detected in
the loop and loop resistance is less than 28 ohms (45
ohms for XGC option). The loop is not valid if open (or
high resistance), or if the ground-check conductor is
shorted to ground.
When the ground-check loop is valid, the SE-134C
ground-check circuit can be tested by pressing the GC
TEST button or by shorting GC TEST terminals 11 and
12. This test invalidates the loop by inserting 47 ohms
(75 ohms for XGC option) in the ground-check loop and a
trip should occur in less than 250 ms.
The ground-check circuit is usually operated in the
non-latching mode; however, it can be operated in the
latching mode by connecting terminals 14 and 15.
The ground-check circuit is protected by a 1.5-A time-
delay fuse (F1).
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
If the SE-134C is used in a ground-fault-only
application, an SE-TA6A must be connected to the
ground-check and cable-ground terminals to validate the
ground-check circuit. See Fig. 1.
The typical maximum distance of a trailing cable is
5.0 km (3.1 miles) for the standard model and up to
10 km (6.3 miles) for the XGC option. Several factors
may limit the maximum distance of the cable, including
the ground-check wire gauge, and induced ac current in
the ground-check loop.
2.3 RESET
All ground-fault trips are latching and ground-check
trips can be latching or non-latching. To reset ground-
fault trips or latching ground-check trips, press the
RESET button or connect the RESET terminals 9 and 10.
See Fig. 1.
Cycling the supply voltage will also reset ground-fault
trips; however, if the ground-check circuit is configured
for latching fail-safe operation, the ground-check circuit
will trip when supply voltage is applied.
The single-shot reset circuit responds only to a
momentary closure; a jammed or shorted button will not
maintain a reset signal. The front-panel RESET button is
inoperative when remote-reset terminals 9 and 10 are
connected. See Section 4.5.
2.4 TRIP RELAY
Isolated, normally open (Trip A, terminals 24 and 25)
and normally closed (Trip B, terminals 22 and 23)
contacts are provided for use in a contactor- or breaker-
control circuit. With no connection between terminals 12
and 13, the SE-134C trip relay operates in the fail-safe
mode. This mode is used with undervoltage devices
where the trip relay energizes and its normally open
contact closes if the ground-fault and ground-check
circuits are not tripped. This mode is recommended
because:
Undervoltage devices release if supply voltage fails.
Undervoltage ground-check circuits do not allow the
power circuit and open cable couplers to be energized
until the ground-check loop is verified.
The fail-safe mode of operation of the SE-134C trip
relay can be used for shunt-trip circuits with a stored-
energy trip source. In this case, the normally closed trip
contact is usedthe contact opens when the SE-134C is
energized and the ground-fault and ground-check circuits
are not tripped. Care must be taken to ensure safe and
correct operation during power up and power down.
Connect terminals 12 and 13 for non-fail-safe trip relay
operation with shunt-trip devices. In this mode, the
normally open trip contact is usedthe trip contact is
closed when a ground-fault or ground-check trip occurs.
Shunt-trip circuits are not fail-safe and are not
recommended because:
Shunt-trip devices do not operate if supply voltage
fails.
Shunt-trip ground-check circuits allow the power
circuit and open cable couplers to be energized for a
short interval after supply voltage is applied.
CAUTION: The SE-134C is not a lock-out device. Follow
lock-out procedures for maintenance.
3. INDICATION
3.1 GROUND FAULT
A red TRIP LED indicates a ground-fault trip and the
remote-indication relay GF is energized when the ground-
fault circuit is not tripped (fail-safe indication-contact
operation). A green SENSOR LED indicates a current
sensor is correctly connected. If the SE-CS10-series
current sensor is disconnected or shorted, the green LED
will go out and the ground-fault circuit will trip. If the
sensor fault is intermittent, the ground-fault circuit will
trip and the green LED will flash to indicate that the trip
was initiated by a sensor fault.
3.2 POWER
The green POWER LED indicates that the internal
power supply is on.
3.3 DIAGNOSTIC ERROR
The red DIAGNOSTIC ERROR LED indicates that an
internal error caused the SE-134C to trip. Return the
SE-134C to the factory if a reset does not clear the trip.
Induced ac current in the ground-check loop can cause
the LED to flicker. This is a normal condition and does
not indicate a diagnostic error; the ground-check
monitoring circuit is not affected.
3.4 GROUND CHECK
A red TRIP LED indicates a ground-check trip. A
green VALID LED indicates a valid ground-check loop
and the remote-indication relay GC is energized when the
ground-check loop is valid (fail-safe indication-contact
operation). Two yellow LED’s indicate the status of an
invalid ground-check loop. OPEN indicates the loop
resistance exceeds the trip resistance and SHORT
indicates the ground-check conductor is shorted to the
ground conductor. A flashing yellow LED indicates the
corrected cause of a latched ground-check trip.
4. INSTALLATION
4.1 GENERAL
This ground-fault ground-check monitoring system
consists of an SE-134C Monitor, an SE-CS10-series
Current Sensor, and an SE-TA6A-series Termination
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
Assembly connected as shown in Fig. 1. Select
applications can use a combination of SE-TA12A and SE-
TA12B Termination Assemblies (not compatible with the
XGC option). See Technical Note GC-09. If required,
remote indication and reset can be implemented with
standard pilot devices, or with an RK-132 Remote-
Indication-and-Reset Kit.
4.2 MONITOR
Each SE-134C is packaged with both panel- and
surface-mounting hardware.
Outline and panel-cutout dimensions for the SE-134C
are shown in Fig. 2. To panel mount the SE-134C, insert
it through the panel cutout and secure it with the four
supplied 8-32 locknuts and flat washers.
If an optional SE-IP65CVR-G is used, follow the
included installation instructions. See Figs. 4 and 5.
All connections to the SE-134C are made through plug-
in, wire-clamping terminal blocks for 24 to 12 AWG (0.2
to 2.5 mm2) conductors. Each plug-in terminal block can
be secured to the monitor by two captive screws for
reliable connections in high-vibration applications.
Outline dimensions and mounting details for surface
mounting an SE-134C are shown in Fig. 3. Fasten the
SE-134-SMA Surface-Mount Adapter to the mounting
surface and make connections to the adapter terminal
blocks. Follow the instructions in Fig. 3 to install or
remove the SE-134C.
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.
NOTE: On revision 5 and newer units, terminal 3 (SPG)
is internally connected to terminal 4. For these units an
external terminal-3-to-terminal-4 connection is not
required, nor is it necessary to remove the terminal-3
connection for dielectric-strength testing.
4.3 CURRENT SENSORS
Outline dimensions and mounting details for the
SE-CS10-series current sensors are shown in Fig. 6. Pass
only phase conductors through the sensor window as
shown in Fig. 1. If a shield, ground, or ground-check
conductor enters the sensor window, it must be returned
through the window before it is terminated. Connect the
current sensor to terminals 16 and 17. Ground terminal
17. Current-sensor primary and secondary connections
are not polarity sensitive. See Section 4.7.
NOTE: SE-CS10-series current sensors are 600-V-rated
current transformers. When system voltage is above
600 V, ensure conductors passed through the sensor
window are insulated to system voltage.
4.4 TERMINATION ASSEMBLY
Outline dimensions and mounting details for the
SE-TA6A, SE-TA6A-WL, and SE-TA6ASF-WL are
shown in Figs. 7 and 8. Install the SE-TA6A at the load
to complete the ground-check loop as shown in Fig. 1.
Connect terminal G of the SE-TA6A to the equipment
frame so that the ground-conductor-to-equipment-frame
connection will be included in the monitored loop.
4.5 REMOTE OPERATION
!Remote indication contacts and a reset input are
provided as shown in Fig. 1.
The optional RK-132 Remote Kit is shown in Fig. 9.
Connect terminals of the green ground-check indicator to
SE-134C terminals 26 and 27 and the red ground-fault
indicator to terminals 19 and 21. For remote reset,
connect the normally open push-button switch across
terminals 9 and 10.
4.6 PARALLEL-PATH ISOLATION
A PPI-600V can be used for parallel-path rejection. A
PPI-600V will also eliminate inter-machine arcing and
prevent stray ac and dc currents from flowing in the
monitored ground wire. See Figs. 10 and 11. See
Technical Note GC-10 “Parallel Path Isolator” at
www.littelfuse.com/relayscontrols, or contact Littelfuse
Startco for application details.!
!
4.7 FERRITE PLACEMENT
A ferrite kit is included with CE-compliant options
only. Where CE compliance is desired, install each ferrite
as shown in Fig. 12. If a current sensor is used, connect
the shield wire as shown in Fig. 13.
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 1. SE-134C Typical Application.
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 2. SE-134C Outline and Panel-Mounting Details.
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 3. SE-134-SMA Surface Mount Adapter and SE-134C Surface-Mounting Details.
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 4. SE-IP65CVR-G Weatherproof Cover Outline.
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 5. SE-IP65CVR-G Weatherproof Cover Installation.
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 6. SE-CS10 Current Sensors.
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SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 7. SE-TA6A and SE-TA6A-WL Termination Assemblies.
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Page 11
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 8. SE-TA6ASF-WL Small-Format-Wire-Lead Termination Assembly.
FIGURE 9. RK-132 Remote Indication and Reset Kit.
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Page 12
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 10. PPI-600V Parallel-Path Isolator.
% llItaIIusd STARTED GROUND cnzcx momma saws, 551x11, 55.1345, on 551:5 cm: gamma mum cum (9 G GE 0 o o I COMING GROUND ; CHASSIS GROUND aus Ppmaov NOTES: 1. THE PARALLEL-PATH ISOMWR IS NOT POLARIZED. EITHER FLANGE CAN BE CONNECTEDTO CHASSIS. 2. THE OUTGOING GROUND MUST BE ISOLATED FROMTHE CHASSIS GROUND BUS. IFA FIANGE-MOUNTED RECEPTACLE IS USED,VERIFYTHAT THE FLANGE IS ISOLATED FROMTHE GROUND PINyAND - USEA MA11NG PLUG WITHA NON-METALLIC HOUSING, OR - ISOLATETHE FLANGE FROMTHE CHASSIS IF THE MATING PLUG HASA METALLIC HOUSING. 3. CABLE PLUGS AND RECEPTACLES WITH GROUNDED MEI'AL HOUSING MUST BE ISOLATED FROM GROUNDTO PREVENT PARALLEL GROUND PATHS. 4. FOR SYSTEMS ABOVE 600 VAC, CON NECT A V131DA40 MOV ACROSS THE PPI-SDOV.
Page 13
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 11. PPI-600V Typical Installation.
% llltallusd STARTED NOTES: 1. PASS WIRES FROMTERMINALS 9T0 15 THROUGH A FERRITE. 2. PASSTHE SHIELDED CABLE FROM TERMINALS 16TO 17 THROUGH A FERRITE. CONNECT THE SHIELDTO CHASSIS AS SHOWN IN FIG. 13. 3. DOUBLE LOOP THEWIRES FROM TERMINALS 19 TO 28 THROUGH A FERRITE. 4. PASSWIRES FROM FERRITE (NOTE 3) THROUGH A SECOND FERRITE. 5. ALL FERRITES ARE LAIRD TECHNOLOGIES 28A2024-0A2 AND ARE ROHS COMPLIANT. 1‘ cc LATCH L— l_. CURRENT SENEDR DISABLE senso VE FICATIDN I; TTENTION ==§ TERMINAL 3L0 KED IN PLACEDSVE Esanws
Page 14
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 12. SE-134C with Ferrites Installed.
FIGURE 13. Current Sensor Shield Connection.
% llltallusd STARTED
Page 15
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
5. TECHNICAL SPECIFICATIONS
5.1 SE-134C
Supply:
Option 0 ................................. 25 VA, 120-240 Vac
(+10, -45%), 50-400 Hz;
15 W, 110-250 Vdc
(+10, -25%)
Option 1 .............................. 15 W, 24-48 Vdc
(+50, -25%);
20 VA, 48 Vac
(+10, -55%), 50-100 Hz
Ground-Fault Circuit:
Digital Filter ........................ 50 to 60 Hz, Bandpass
3 dB Frequency Response ... 30 to 90 Hz
Trip-Level Settings ............. .5, .75, 1.0, 1.5, 2.0, 2.5,
3.0, 5.0, 7.5, 10.0, and
12.5 A
Trip-Time Settings .............. .10, .20, .30, .40, .50, .70,
1.0, 1.3, 1.6, 2.0, and
2.5 s
Thermal Withstand .............. 150 A Continuous
1,000 A for 2.5 s
(Ground-Fault Current)
Sensor Lead Resistance ....... 2 Ω maximum
Trip-Level Accuracy ........... 5% or 0.1 A
Trip-Time Accuracy ............ +50, -15 ms
Sensor Verification ............. Enabled or Disabled
Sensor-Fault Detection ........ Open and Short
Trip Mode ........................... Latching
Ground-Check Circuit:
Open-Circuit Voltage .......... 24 Vdc
Output Impedance ............... 136 Ω
Loop Current ....................... 105 mA
Induced-ac Withstand ......... 60 Vac Continuous,
120 Vac for 10 s,
250 Vac for 0.25 s
Pull-in Time ........................ 750 ms
Trip Resistance:
Standard ............................ 28 Ω ± 10%
XGC Option ..................... 45 Ω ± 10%
Trip Time:
Standard at 50 Ω ............... 220 ± 30 ms
XGC Option at 75 Ω ........ 220 ± 30 ms
Short Detection ................... Yes
Isolation ............................... 3 kV, 60 Hz, 1 s
Test ...................................... Front-Panel Button and
Remote, N.O. Contact
Fuse Rating (F1) ................. 1.5 A, 500 Vac,
Time Delay
Fuse Part Number ............... FNQ 1½ Buss Fusetron
Trip Mode ........................... Latching or
Non-Latching
Trip Relay:
CSA/UL Contact Rating ..... 8 A Resistive 250 Vac,
5 A 30 Vdc, 0.25 HP,
B300 Pilot Duty
Supplemental Contact Ratings:
Make/Carry (0.2 s) ........... 30 A
Break dc ........................... 75 W Resistive,
35 W Inductive (L/R < 0.04)
Break ac ............................ 2,000 VA Resistive,
1,500 VA Inductive
(PF > 0.4)
Subject to maximums of 8 A and 250 V (ac or dc)
Contact Configuration ......... Isolated N.O. and
N.C. Contacts
Operating Mode .................. Fail-Safe or
Non-Fail-Safe
Maximum Switching
Capacity .............................. Fig.14
Remote-Indication Relays:
CSA/UL Contact Rating ..... 8 A Resistive 250 Vac,
8 A 30 Vdc
Supplemental Contact Ratings:
Make/Carry (0.2 s) ........... 20 A
Break dc ........................... 50 W Resistive,
25 W Inductive (L/R < 0.04)
Break ac ............................ 2,000 VA Resistive,
1,500 VA Inductive
(PF > 0.4)
Subject to maximums of 8 A and 250 V (ac or dc)
Contact Configuration ......... N.O and N.C. (Form C)
Operating Mode .................. Fail-Safe
Maximum Switching
Capacity .............................. Fig.15
Trip Reset ................................. Front-Panel Button and
Remote, N.O. Contact
Terminal Block Rating ............. 10 A, 300 Vac,
12 AWG (2.5 mm2)
PWB Conformal Coating ......... MIL-1-46058 qualified,
UL QMJU2 recognized
Mounting Configuration ........... Panel Mount and
Surface Mount
Dimensions:
Height .................................. 213 mm (8.4)
Width ................................... 99 mm (3.9”)
Depth .................................... 132 mm (5.2”)
Shipping Weight ....................... 2.3 kg (5.1 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 ............................. IP40 when panel-
mounted, IP20 otherwise
Surge Withstand ....................... ANSI/IEEE 37.90.1-2002
(Oscillatory and Fast Transient)
% llltallusd STARTCD (59: m 5W ® ma Ind madam Eumpmm ESADGE Aus‘ml
Page 16
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
EMC Tests:
Verification tested in accordance with EN 60255-26:2009.
Radiated and Conducted
Emissions ............................ CISPR 22:2008-09
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
Class A: ± 4 kV (on AC
mains and I/O lines)
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
Power Frequency ................ IEC 60255-22-7
Zone A: differential mode
150 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
Certification ................................. CSA, Canada and USA
UL Listed
Australia
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
Australia, Regulatory Compliance Mark (RCM)
CE Low Voltage Directive
IEC 61010-1:2010 (3rd Edition)
FCC CFR47, Part 15, Subpart B,
Class A Unintentional Radiators
Compliance ............................ RoHS Pending
5.2 CURRENT SENSORS
Environment:
Operating Temperature .... -40 to 60°C (-40 to 140°F)
Storage Temperature ........ -55 to 80°C (-67 to 160°F)
SE-CS10-2.5:
Current Ratio .................... 1,000:5 A
Insulation ......................... 600-V Class
Window Diameter ............ 63 mm (2.5”)
Shipping Weight .............. 690 g (1.5 lb)
SE-CS10-4:
Current Ratio .................... 1,000:5 A
Insulation ......................... 600-V Class
Window Diameter ............ 108 mm (4.2”)
Shipping Weight .............. 1.9 kg (4.3 lb)
SE-CS10-6:
Current Ratio .................... 1,000:5 A
Insulation ......................... 600-V Class
Window Diameter ............ 160 mm (6.3”)
Shipping Weight .............. 2.2 kg (4.8 lb)
SE-CS10-8:
Current Ratio .................... 1,000:5 A
Insulation ......................... 600-V Class
Window Diameter ............ 209 mm (8.2”)
Shipping Weight .............. 2.2 kg (4.8 lb)
% llltallusd STARTCD Cenlficalion @7 La 53422 E sa-merE-Dn U—Future Options Power Supply: 0 Universal ac/dc Supply 1 24— 10 AE-Vdc Supply“) Gmund Check Optians: Blank Standard XGC Extended-GC-Trip Resis‘ance
Page 17
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
Certification ................................ CE(1), European Union
Compliance ............................... IEC 60044-1
RoHS Pending
NOTES:
(1) When connected to an SE-134C.
5.3 TERMINATION ASSEMBLIES
SE-TA6A:
Characteristic ...................... 6-V Zener, Temperature
Compensated
Circuit Type ........................ High-Current Shunt
Regulator
Reverse Voltage .................. 5.6 ±0.03 Vdc @ 100 mA
Forward Voltage ................. 0.5 ±0.1 Vdc @ 100 mA
Operating Temperature ....... -40 to 60°C (-40 to 140°F)
Current Range ..................... 2 mA to 25 A
Maximum Clamping
Voltage ................................ 55 V @ 250 A,
5x20 µs Pulse
Power Rating ....................... 50 W
Screw Terminal ................... 6-32 x 0.25
Dimensions ......................... 105 x 40 x 41.5 mm
(4.13 x 1.57 x 1.63”)
Shipping Weight ................. 300 g (0.7 lb)
SE-TA6A-WL:
Characteristic ...................... 6-V Zener, Temperature
Compensated
Circuit Type ........................ High-Current Shunt Regulator
Reverse Voltage .................. 5.6 ±0.03 Vdc @ 100 mA
Forward Voltage ................. 0.5 ±0.1 Vdc @ 100 mA
Operating Temperature ....... -40 to 60°C (-40 to 140°F)
Current Range ..................... 2 mA to 25 A
Maximum Clamping
Voltage ................................ 55 V @ 250 A,
5x20 µs Pulse
Power Rating ....................... 50 W
Wire Leads .......................... 14 AWG (2.08 mm2),
356 mm (14”)
Dimensions ......................... 105 x 40 x 22.2 mm
(4.13 x 1.57 x 0.87”)
Shipping Weight ................. 300 g (0.7 lb)
SE-TA6ASF-WL:
Characteristic ...................... 6-V Zener, Temperature
Compensated
Circuit Type ........................ High-Current Shunt
Regulator
Reverse Voltage .................. 5.6 ±0.03 Vdc @ 100 mA
Forward Voltage ................. 0.5 ±0.1 Vdc @ 100 mA
Operating Temperature ....... -40 to 60°C (-40 to 140°F)
Current Range ..................... 2 mA to 15 A
Maximum Clamping
Voltage ................................ 55 V @ 250 A,
5x20 µs Pulse
Power Rating ....................... 12 W
Wire Leads .......................... 18 AWG (0.82 mm2),
300 mm (11.8”)
Dimensions ......................... 58.8 x 19 x 12.7 mm
(2.32 x 0.75 x 0.5”)
Shipping Weight ................. 45 g (0.1 lb)
Certification ................................. CSA, Canada and USA
UL Listed
CE(1), European Union
NOTES:
(1) When connected to an SE-134C.
6. ORDERING INFORMATION(1)
(1) All options include CE/RCM unless otherwise stated.
CE/RCM models include a ferrite kit.
(2) CE/RCM not available.
Ground-Check Termination:
SE-TA6A ............................ 50-W Termination
Assembly with Screw
Terminals
SE-TA6A-WL ..................... 50-W Termination
Assembly with Wire
Leads
SE-TA6ASF-WL ................ 12-W Small-Format
Termination Assembly
with Wire Leads
Current Sensors:
SE-CS10-2.5 ....................... Current Sensor,
63 mm (2.5”) window
SE-CS10-4 .......................... Current Sensor,
108 mm (4.2”) window
SE-CS10-6 .......................... Current Sensor,
160 mm (6.3”) window
SE-CS10-8 .......................... Current Sensor,
209 mm (8.2”) window
Parallel Path Isolator:
PPI-600V ............................ For system voltages up to
600 Vac
% llltallusd STARTED
Page 18
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
Accessories:
RK-132 ................................ Remote Indication and
Reset Kit, includes two
24-120-V pilot lights, a
reset push button, and
legend plates
SE-IP65CVR-G ................... Hinged transparent cover,
IP65
SE-134-SMA ....................... Surface-Mount Adapter,
included with SE-134C
SE-134-HDWR ................... Hardware Kit
(excludes ferrites and
SE-134-SMA), included
with SE-134C
7. WARRANTY
!The SE-134C Ground-Fault Ground-Check 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-134C 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.
!
8. TEST PROCEDURES!
8.1 GROUND-CHECK TRIP TESTS
8.1.1 LATCHING GROUND-CHECK TRIP TEST
Connect the monitor, current sensor and termination
assembly as shown in Fig 16. Connect terminals 14 and
15 for latching operation. With supply voltage applied,
the POWER, SENSOR, and VALID LED’s will be on.
Open the ground-check loop by removing either the
GC or G connection between the monitor and the
termination assembly (pressing the faceplate GC TEST
button will also perform an open-ground-check test). The
monitor will trip. The trip contacts (terminals 22-23 and
24-25) and the ground-check indication contacts
(terminals 26-27 and 26-28) will change state. The
VALID LED will be off, and both the GROUND CHECK
TRIP and the OPEN LED’s will be on.
Reconnect the ground-check loop. The VALID and
TRIP LED’s will be on and the OPEN LED will be
flashing. The TRIP contacts (terminals 22-23 and 24-25)
will remain latched and ground-check indication contacts
(terminals 26-27 and 26-28) will change state.
Reset the monitor.
Short the ground-check loop by connecting G to GC.
The monitor will trip. The trip contacts (terminals 22-23
and 24-25) and the ground-check indication contacts
(terminals 26-27 and 26-28) will change state. The
VALID LED will be off, and both the GROUND CHECK
TRIP and the SHORT LED’s will be on.
Remove the short from G to GC. The VALID and
TRIP LED’s will be on and the SHORT LED will be
flashing. The TRIP contacts (terminals 22-23 and 24-25)
will remain latched and ground-check indication contacts
(terminals 26-27 and 26-28) will change state.
Reset the monitor.
8.1.2 NON-LATCHING GROUND-CHECK TRIP TEST
!Connect the monitor, current sensor and termination
device as shown in Fig. 16. With supply voltage applied,
the POWER, SENSOR, and VALID LED’s will be on.
Open the ground-check loop by removing either the
GC or G connection between the monitor and the
termination assembly (pressing the faceplate GC Test
button will also perform an open circuit test). The
monitor will trip. The trip contacts (terminals 22-23 and
24-25) and the ground-check indication contacts
(terminals 26-27 and 26-28) will change state. The
VALID LED will be off, and both the GROUND CHECK
TRIP and the OPEN LED’s will be on.
Reconnect the ground-check loop. The monitor will
reset.
Short the ground-check loop by connecting G to GC.
The monitor will trip. The trip contacts (terminals 22-23
and 24-25) and the ground-check indication contacts
(terminals 26-27 and 26-28) will change state. The
VALID LED will be off, and both the GROUND CHECK
TRIP and the SHORT LED’s will be on.
Remove the short from G to GC. The monitor will reset.
8.2 TRIP RELAY FAIL-SAFE MODE TEST
Connect the monitor, current sensor and termination
device as shown in Fig. 16. With supply voltage applied,
the POWER, SENSOR, and VALID LED’s will be on.
The output contacts between terminals 22 and 23 will be
open and between 24 and 25 will be closed.
Remove the supply voltage. The output contacts
between terminals 22 and 23 will close and the output
contacts between terminals 24 and 25 will open.
8.3 CURRENT-SENSOR-VERIFICATION TEST
Connect the monitor, current sensor and termination
device as shown in Fig. 16. With supply voltage applied,
the POWER, SENSOR, and VALID LED’s will be on.
Open the current-sensor circuit by disconnecting one of
the sensor leads. The monitor will trip. The trip contacts
(terminals 22-23 and 24-25) and the ground-fault
indication contacts (terminals 19-20 and 19-21) will
change state. The GROUND FAULT TRIP LED will be
on and the SENSOR LED will be off.
% llltallusd STARTED TABLE I . G VF T R
Page 19
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
Reconnect the current sensor. The GROUND FAULT
TRIP LED will stay on and the SENSOR LED will flash.
The output contacts will remain latched.
Reset the monitor.
Short the current sensor by connecting terminals 16 and
17. The monitor will trip. The trip contacts (terminals
22-23 and 24-25) and the ground-fault indication contacts
(terminals 19-20 and 19-21) will change state. The
GROUND FAULT TRIP LED will be on and the
SENSOR LED will be off.
Remove the short from terminals 16 and 17. The
GROUND FAULT TRIP LED will stay on and the
SENSOR LED will flash. The output contacts will remain
latched.
Reset the monitor.
8.4 SE-TA6A-SERIES TERMINATION ASSEMBLY TESTS
!Apply 15 Vdc across the series combination of a
100-Ω, 5-W current-limiting resistor and the termination
assembly, as shown in Fig. 17. In the reverse biased test,
the voltage should be 5.6 V across the termination
assembly terminals. In the forward biased test, the
voltage across the termination assembly terminals should
be between 0.3 and 0.9 V.
!
8.5 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:
a) Evaluate the interconnected system in accordance with
the overall equipment manufacturer’s detailed
instructions.
b) Verify proper location of the ground-fault current
sensor. Ensure the cables pass through the ground-
fault-current-sensor window. This check can be done
visually with knowledge of the circuit. The
connection of the current-sensor secondary to the SE-
134C 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.
d) Verify proper reaction of the circuit-interrupting
device in response to a simulated or controlled
ground-fault current. To simulate ground-fault
current, use CT-primary current injection. Fig. 14
shows a test circuit using Littelfuse Startco Ground-
Fault-Relay Test Units. The SE-400 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. The SE-100T provides a test current of
0.65 or 2.75 A for testing 0.5- and 2.0-A trip levels.
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.
!
TABLE 1. GROUND-FAULT-TEST RECORD
DATE
TEST RESULTS
Retain this record for the authority having jurisdiction.!
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Page 20
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 14. Trip Relay Maximum Switching Capacity.
FIGURE 15. Remote-Indication Relays GC and GF
Maximum Switching Capacity.
% llltallusd STA RTGD NOTES: 1. MOMENTARILY CONNECTS 5(10 TO PERFORM REMOTE RESET. 2. MOMENTARILV CONNECT“ 511210 PERFORM REMOTE GROUND—CHECK fl TEST. x} x 3. CONNECT 12 8413 FOR NON-FAIL SAFE NOTEG OPERATION OF THETRIF RELAV. “‘ \\‘ mm a 2A 1|er as N /’/ 4. CONNECT 14 5115 FOR LATCHING 220 1 NH, O” GROUND-CHECK TRIP. O—N—<> , cums .9 Gr 2“ 5. CONNECT 17 :- IETO DISABLE CURRENT- O SENSOR VERIFICATION. “a; 2. 25 6c 17 6. CONTACTS SHOWN DE-ENERGIZED. OM52. .... . CHRRENT sumy 2% H vs SENSOR \m AG mam LT E 40 m4 Sins” N, 7 3 O u "01:: naszr Dual! ”‘7'“ "’O smsm O" mmm L x no“ supp” N {1 U k, Noriz "0"" vaAGE {) mm,“ my. 3 :0 "PS GROUND-FAULT new NUTE A O GROW” TESTUNrr “O “““Gmm (g: ISE—IDOTorSE—wo) cxa‘x 3 m can: <2 .g="">@ mm.) [L SE-TAEA5ERIES TERMINATION 35-1340 ASSEMBLY me n 5w 0 61: Q G ssnmaa vammmu “Sana“ vans REVERSE-BIASED TEST man 5w Om: FORWARD-BIASEDTEST IO“ ssnussmss mMnAwN ASSEMBLY vans
Page 21
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
FIGURE 16. Ground-Fault-Test Circuit.
FIGURE 17. Termination-Assembly-Test Circuits.
% llltallusd STARTED
Page 22
SE-134C Ground-Fault Ground-Check Monitor Rev. 7-D-090816
APPENDIX A
SE-134C REVISION HISTORY
MANUAL
RELEASE DATE
MANUAL
REVISION
PRODUCT REVISION
(REVISION NUMBER ON PRODUCT LABEL)
September 8, 2016
7-D-090816
05D
October 1, 2014
7-C-100114
August 20, 2013
7-B-111213
May 6, 2013
7-A-050613
MANUAL REVISION HISTORY
REVISION 7-D-090816
SECTION 2
XGC compatibility notes added.
SECTION 5
Added Figs. 14 and 15.
RCM Certification added.
SECTION 6
RCM Certification added.
REVISION 7-C-100114
SECTION 4
Figs. 7, 8, and 11 updated.
REVISION 7-B-111213
SECTION 2
Maximum trailing cable length added.
SECTION 5
Additional termination assembly and compliance specifications added.
REVISION 7-A-050613
SECTION 4
Ferrite placement instructions added.
SECTION 5
CE specifications, XGC option, and dimensions added.
SECTION 6
Ordering information updated.
PRODUCT REVISION HISTORY
REVISION 05D
Ferrite kit added.