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General Wiring Notes (figures A, B and C) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2Zone Interlock Wiring (figure 1) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 3Digitrip Alarm Wiring (figure 2) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 4Ground Fault Residual 3-Phase 4-Wire (figure 3) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5Source Ground Fault (figure 4) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 6Zero Sequence Ground Fault (figure 5) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 7Maintenance Mode Wiring (figure 6) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 8INCOM Communications Module (ICAM) (figure 7) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 9MODBUS Communications Module (MCAM) (figure 8) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 10PROFIBUS DP Communications Module (PCAM) (figure 9) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 11Communications Control (figure 10) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 12Undervoltage Release (figure 11) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 13Circuit Breaker Control - Type NF (figure 12) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 14Circuit Breaker Control - Type RF (figure 13) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 15Series NRX NF Mounted Breaker (with external PT Module) (figure 14) . . . . . . . . . . . . . . . . . . . . . . . . . 16Master Connection NF (figure 15) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 17-18Master Connection RF (figure 16) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 19-21
Description Page
effective November 2011
Series NRXTechnical Data TD01301014E
Series NRX Circuit Breaker Wiring Diagrams
Contents
Instructions Apply To:
1600 NRX SUB-TITLE IMAGE (12/15/2010)
Series NRX, Type NF Frame ANSI, UL1066, UL489 / IEC, IZMX16, IZM91
Series NRX, Type RF Frame IEC, IZMX40
4000 NRX RF DRAWOUT SUBTITLE IMAGE (12/15/2010)
2 EATON CORPORATION www.eaton.com
General Wiring Notes1 . Each contact block on the Secondary Terminal Block consists of two
contacts (Figure A) . A possible 27 terminal blocks will provide 54 contact points for the type NF frame . A possible 46 terminal blocks will provide 92 contact points for the type RF frame .
FixedTerminal Block
DrawoutTerminal Block
Figure A. Secondary Terminal Blocks
2 . Drawout circuit breakers use Style 66B2508G01 contact blocks that mount onto a metal DIN rail .
3 . Fixed mounted circuit breakers use Style 66B2510G01 contact blocks that mount onto an insulated support frame . The customer tension connectors are at a 45° angle .
4 . Customer wiring is done using a tension clamp termination on each contact .
5 . Contact blocks are individually mounted and hence contact posi-tions may be empty depending on accessories and options ordered .
6 . For drawout configurations, a cross connector can be used to tie adjacent contacts together . It is Weidmuller Style ZQV4 (300V rated only) .
7 . The tension clamp terminals will support solid or flexible conductors, #12/4mm2 through #24/2 .5mm2 AWG wire and are UL/CSA rated for 600V, 10A .
8 . The recommended wire strip length is 10 mm ( .394”) .
9 . The tension clamp terminals also support finely stranded conduc-tors with wire-end ferrules and plastic collars DIN 46228/4, rated connection .
10 . The two-point black plugs house two female crimp contacts (Wei-dmuller crimp Style 73477FCB01), with the odd assigned numbers having the coded rib feature on the black plug (Figure B) . Note that the connector plug must be oriented as shown in Figure B before making the connection.
11 . For secondary contacts, odd numbers should be treated as positive voltage for any accessory . This will not apply for AC ratings .
12 . Reference tools for secondary contacts: Crimp tool connector – 1003300000; crimp contact wire release front black housing – 1964560000; release of black housing from secondary structure – 1964550000 .
13 . Reference tool for removing leads from secondary contact connec-tor plug – 65A2818H01 Extraction Tool (Figure C) .
Type of connection Tension clamp connection
Blade size 0.6 x 3.5 mm
Clamping range, rated connection, max. 4 mm2
Conductor cross-section, solid, min 0.5 mm2
Conductor cross-section, flexible, max. 4 mm2
Conductor cross-section, flexible plus plastic collar DIN 46228/1, rated connection, min.
0.5 mm2
Cross-section for connected conductor, finely stranded with wire-end ferrules and plastic collars DIN 46228/4, rated connection, min.
0.5 mm2
Conductor connection cross-section AWG, min. AWG 30
Stripping length 10 mm
Connection direction top
Clamping range, rated connection, min. 0.05 mm2
Gauge to IEC 60947-1 A3
Conductor cross-section, solid, max. 4 mm2
Conductor cross-section, flexible, min. 0.5 mm2
Conductor cross-section, flexible plus plastic collar DIN 46228/1, rated connection, max.
2.5 mm2
Conductor cross-section, flexible AEH plus plastic collar DIN 46228/4, rated connection, max.
2.5 mm2
Conductor connection cross-section AWG, max. AWG 12
Table 1. Customer Wiring Details
Figure B. Weidmuller Plug and Crimp Contact
Figure C. Extraction Tool in Use
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014E Effective November 2011
Secondary Lead
Connector Plug
Terminal Extraction Tool
3EATON CORPORATION www.eaton.com
Technical Data TD01301014E Effective November 2011
Series NRX Circuit Breaker Wiring DiagramsFi
gu
re 1
. Zo
ne
Inte
rlo
ck W
irin
g
No
tes
1 . Tw
iste
d to
geth
er A
WG
#14
to
#20
copp
er w
ire . R
oute
Zon
e in
terlo
ck w
iring
sep
arat
e fr
om p
ower
co
nduc
tors
. DO
NO
T G
RO
UN
D a
ny Z
one
inte
rlock
wiri
ng .
2 . T
he m
axim
um d
ista
nce
betw
een
two
fart
hest
bre
aker
s on
diff
eren
t zo
nes
(fro
m t
he Z
O
dow
nstr
eam
to
the
ZI u
pstr
eam
ter
min
als)
is 2
50 fe
et (7
5m) .
3 . A
max
imum
of
20 b
reak
ers
may
be
cont
aine
d in
par
alle
l in
one
zone
.
4 . P
rovi
de a
sel
f in
terlo
ckin
g ju
mpe
r (o
n Zo
ne 3
), if
coor
dina
tion
is d
esire
d w
ith o
ther
dow
nstr
eam
br
eake
rs n
ot p
rovi
ding
the
zon
e in
terlo
ck fe
atur
e .
4 EATON CORPORATION www.eaton.com
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014E Effective November 2011
Figure 2. Digitrip Alarm Wiring
Notes
1 . For the Digitrip 520M product, Alarm 1 (ALM1) is for Remote Circuit Breaker Problem Alarm on CAT # N5MLSIG or for Maintenance Mode Active on CAT # N5MRLSIA . Contact rating 1A @ 120 VAC and 1A @ 24VDC .
For the Digitrip 1150 product, Alarm 1 (ALM1) is a programmable contact that can be assigned for a variety of trip or alarm conditions . . Contact rating 1A @ 120 VAC and 1A @ 24VDC .
2 . For the Digitrip 520M product, Alarm 2 (ALM2) is for Hi Load Alarm Function on CAT # N5MLSI or # N5MRLSI, or for use with Ground Alarm CAT # N5MRLSIG . Contact rating 1A @ 240 VAC and 1A @ 24VDC .
For the Digitrip 1150 product, Alarm 2 (ALM2) is a programmable contact that can be assigned for a variety of trip or alarm conditions . . Contact rating 1A @ 120 VAC and 1A @ 24VDC .
3 . If a Communication Module is used, see Figures 7, 8 or 9 for different wiring . A Communication Module will require 24VDC power which in turn provides isolated power to the Digitrip in the circuit breaker . If a Communication Module is not used, and if auxiliary voltage is desired for Alarms or display purposes, the trip unit should be fed from a separate galvanically isolated 24 volt dc supply .
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Series NRX Circuit Breaker
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5EATON CORPORATION www.eaton.com
Technical Data TD01301014EEffective November 2011
Series NRX Circuit Breaker Wiring Diagrams
Figure 3. Ground Fault Residual 3-Phase 4-Wire
Notes
1 . Sensor NFNCTKIT (IZMX-CT16-N) is customer wired to sense Neutral currents . This is required for 3 phase, 4 wire Residual Ground Fault (applicable for Trip Units having G protection) .
2 . Required Sensor Series NRX Frame (IZMX Type Coding) NF NFNCTKIT (IZMX-CT16-N) RF RFNCTKIT (IZMX-CT40-N) NF or RF NFGFSKIT (IZMX-EFS)
Digitrip
Series NRX Circuit Breaker
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6 EATON CORPORATION www.eaton.com
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014E Effective November 2011
Figure 4. Source Ground Fault Sensing
Notes
1 . Sensor NFGFSKIT (IZMX-EFS) is used to sense and detect Ground Fault Currents .
2 . Apply jumper for this mode of sensing for trip units having Ground or Ground Alarm Functionality .
Digitrip
Series NRX Circuit Breaker
�ExternalSensor
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7EATON CORPORATION www.eaton.com
Technical Data TD01301014E Effective November 2011
Series NRX Circuit Breaker Wiring Diagrams
Figure 5. Zero Sequence Ground Fault Sensing
Notes
1 . Sensor NFGFSKIT (IZMX-EFS) is used to sense and detect Ground Fault Currents of 3-wire or 4-wire .
2 . Apply jumper for this mode of sensing for trip units having Ground or Ground Alarm Functionality .
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Series NRX Circuit Breaker
Digitrip
8 EATON CORPORATION www.eaton.com
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014E Effective November 2011
Fig
ure
6. M
ain
ten
ance
Mo
de
Wir
ing
No
tes
1 . T
he D
igitr
ip 5
20M
Cat
# N
5MR
LSI(G
) can
loca
lly b
e pl
aced
in M
aint
enan
ce M
ode
via
a tw
o po
sitio
n sw
itch
loca
ted
on t
he Tr
ip U
nit .
The
Dig
itrip
115
0 C
at #
N11
RLS
I(G) c
an b
e lo
cally
pro
gram
med
to
plac
e th
e D
igitr
ip in
Mai
nten
ance
Mod
e . T
he f
unct
ion
can
be a
rmed
via
a r
emot
e sw
itch
as s
how
n . In
ad
ditio
n, t
he f
unct
ion
can
be a
ctiv
ated
via
Com
mun
icat
ions
Mod
ules
. A b
lue
LED
on
the
Dig
itrip
ver
ifies
the
Dig
itrip
is in
Mai
nten
ance
Mod
e . 2 .
The
rec
omm
ende
d se
lect
or s
witc
h fo
r th
is lo
w v
olta
ge a
pplic
atio
n is
Eat
on p
art
num
ber
1025
0T13
3-2E
whi
ch in
clud
es a
con
tact
blo
ck r
ated
for
logi
c le
vel a
nd c
orro
sive
use
.
3 . T
he m
axim
um le
ngth
of
this
wiri
ng t
o re
mot
e A
rm S
witc
h (o
r al
tern
ate
rela
y co
ntac
t) is
3 m
eter
s (9
.78
feet
) . U
se #
20
AW
G w
ire o
r la
rger
.
4 . A
rem
ote
Sta
ck L
ight
Ann
unci
ator
Pan
el o
r ot
her
rem
ote
indi
catio
n de
vice
can
be
conn
ecte
d to
ver
ify t
hat
Dig
itrip
is in
Mai
nten
ance
Mod
e .
5 . R
elay
in D
igitr
ip m
akes
whe
n in
Mai
nten
ance
Mod
e . C
onta
ct is
rat
ed 1
A @
120
VAC
.
6 . T
he D
igitr
ip c
an a
lso
be p
lace
d re
mot
ely
in it
s M
aint
enan
ce M
ode
via
a G
ener
al P
urpo
se R
elay
(ice
cub
e ty
pe w
ith lo
gic
leve
l con
tact
s), a
ctiv
ated
by
a re
mot
e co
ntro
l sw
itch .
A r
ecom
men
ded
type
is ID
EC
Rel
ay R
Y22
. Cho
ose
volta
ge a
s de
sire
d .
7 . I
f C
omm
unic
atio
n M
odul
e is
use
d, s
ee F
igur
es 7
or
8 fo
r di
ffere
nt w
iring
. Th
e C
omm
unic
atio
n M
odul
e w
ill r
equi
re 2
4VD
C p
ower
and
will
pro
vide
is
olat
ed p
ower
to
the
Dig
itrip
in t
he c
ircui
t br
eake
r . If
a C
omm
unic
atio
n M
odul
e is
not
use
d, t
he D
igitr
ip t
hat
requ
ires
auxi
liary
vol
tage
for A
larm
s sh
ould
be
fed
from
a g
alva
nica
lly is
olat
ed 2
4 vo
lt dc
sup
ply .
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Ser
ies
NR
X C
ircu
it B
reak
erS
erie
s N
RX
Cir
cuit
Bre
aker
Alt
ern
ate
Cu
sto
mer
Wir
ing
(p
arti
al)
Mai
nte
nan
ce M
od
e W
irin
g
�
�
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9EATON CORPORATION www.eaton.com
Technical Data TD01301014EEffective November 2011
Series NRX Circuit Breaker Wiring Diagrams
Figure 7. INCOM Communications Module (ICAM)
Notes
1 . The Series NRX Communication Module is a separate device that snaps into the Din Rail starting at locations 19 through 26 . (Removal of the four contact blocks is required .)
2 . The Communications Module voltage requirement is 24VDC ±10% and should be sourced from a high quality supply (6 watts is the burden of the CAM) .
3 . INCOM communication cable is a two conductor with shield type wire in “daisy chain” configuration . The recommended cable (Belden “Blue Hose” # 9643 or equivalent) has a twisted-pair of wires (# 20 AWG stranded 7 x 28 conductors with PVC insulation) having an aluminum/mylar foil shield with drain wire . The Maximum system capacity is 10,000 feet of communications cable and 1000 devices on the INCOM network . Make sure that the twisted-pair wire is recommended for INCOM network use . Use shielded twisted-pair wire to connect each slave to the INCOM network, daisy-chain style . The polarity of the twisted-pair is not important . Ground the shield at the host computer (device) .
4 . Set the jumper on the module to enable or disable the communications control as desired .
5 . When the Communications Module is employed and Source Ground or Zero Sequence Ground Sensing method is required, the Ground Fault function is enabled by this jumper .
6 . Connectors are UL/CSA rated 300V, VDE rated 250V . The recommended connector is Weidmuller # BL 3 .5/90/5 BK, oriented for 90° lead exit, however other lead orientations are possible . Wire guage # 18 AWG/0 .82mm2 .
7 . The final device in the daisy-chain configuration must have a 100 ohm termination resistor installed across terminals #1 and #2 on TB2 .
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Digitrip 520M/1150
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10 EATON CORPORATION www.eaton.com
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014E Effective November 2011
Figure 8. MODBUS Communications Module (MCAM)
Notes
1 . The Series NRX Communication Module is a separate device that snaps into the Din Rail starting at locations 19 through 26 . (Removal of the four contact blocks is required .)
2 . The Communications Module voltage requirement is 24VDC ±10% and should be sourced from a high quality supply (6 watts is the burden of the CAM) .
3 . Modbus communication cable is a three conductor with shield type wire in “daisy chain” configuration . The recommended cable has a twisted-pair of wires (# 24 AWG stranded 7 x 32 conductors with PVC insulation) having an aluminum/mylar foil shield with drain wire . The Maximum system capacity is 4,000 feet of communications cable and 32 unit loads on the Modbus RTU network . Make sure that the twisted-pair wire is recommended for Modbus RTU network use . Use shielded twisted-pair wire to connect each slave to the Modbus RTU network, daisy-chain style . The polarity of the twisted-pair is not important . Ground the shield at the host computer (device) .
4 . Set the jumper on the module to enable or disable the communications control as desired .
5 . When the Communications Module is employed and Source Ground or Zero Sequence Ground Sensing method is required, the Ground Fault function is enabled by this jumper .
6 . Connectors are UL/CSA rated 300V, VDE rated 250V . The recommended connector is Weidmuller # BL 3 .5/90/5 BK, oriented for 90° lead exit, however other lead orientations are possible . Wire gauge # 18 AWG/0 .82mm2 .
7 . The final device in the daisy-chain configuration must have a 121 ohm termination resistor installed across terminals #1 and #2 on TB2 .
Digitrip 520M/1150
Series NRX Circuit Breaker
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Figure 9. PROFIBUS Communication Module (PCAM)
Notes
1 . The Series NRX Communication Module is a separate device that snaps into Din Rail starting at location 19 through 26 . (Removal of the four contact blocks is required .)2 . Communication Module voltage requirement is 24 VDC ± 10% and should be sourced from reliable service (6 watts is
the burden of the CAM) .3 . Profibus DP communication cable uses a five conductor flexible cable with shield type wire in “daisy chain”
configuration . The maximum cable lenght depends on Baud rate and can link up to 32 unit loads on the network . See Profibus guide line Order number 2 .142 .
Ground the shield at host computer (device)4 . Set jumper on the module to enable or disable communications control as desired .5 . When the Communications Module is employed and Source Ground or Zero Sequence Ground Sensing method is
required, this Ground Fault function is enabled by this jumper .6 Connector TB1 is UL/CSA rated 300V, VDE rated 250V . Recommended: Weidmuller (BL 3 .5/90/5 BK) Orientation: 90°
lead exit, but other lead orientations are possible . Wire gauge: #18 AWG / 0 .82mm2 .7 . The final device on each end of the network in the daisy chain configuration must have termination resistors installed as
shown on TB2 .
Series NRXCircuitBreaker
CommunicationsModule
PROFIBUS Communications Module
Digitrip 520M/1150
1
5
3
7
4
2
6
TB2-6 TB2-3 TB2-8
390 ohm
7
390 ohm
7
220 ohm
TB2-5TB 29 pinD Sub
Female
53 4 68
Dat
a B
Dat
a A D
GN
D
CN
TR-P
/RTS VP
SHIE
LD(S
HEL
L)SC
REW
11EATON CORPORATION www.eaton.com
Technical Data TD01301014EEffective November 2011
Series NRX Circuit Breaker Wiring Diagrams
Figure 10. Communications Control (SR and ST Wiring)
Notes
1 . Spring Release and Shunt Trip wiring as shown for optional communication close or open capability .
2 . Choose Spring Release coil voltage rating as desired if communications is required .
3 . Choose Shunt Trip rating to be the same as Spring Release rating if communication is required .
4 . Control Power rating must match ST and SR coil rating .
5 . Close duration is two seconds on communication activation .
6 . Communication control jumper must be in the enable position for communications opening or closing .
7 . Spring Release terminals are 35 & 36 for NF Frame only . For RF Frame breakers, the terminals are 49 & 50 .
Series NRX Circuit BreakerCommunicationsModule
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12 EATON CORPORATION www.eaton.com
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014E Effective November 2011
Figure 11. Undervoltage Release
Notes
1 . Treated as the positive voltage for DC ratings .
Series NRX Circuit Breaker
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13EATON CORPORATION www.eaton.com
Technical Data TD01301014EEffective November 2011
Series NRX Circuit Breaker Wiring Diagrams
Figure 12. Circuit Breaker Control - Type NF Frame
Legend:MOT – Motor Operator for Charging Closing SpringST – Shunt TripSR – Spring ReleaseDescription of Operation
1 . Motor is energized and runs, charges closing spring, and is cut off by switch .
2 . When spring is charged, SC closes and Green indicating light will light (if applicable) .
3 . Closing CS-C contact energizes Spring Release Coil and closes circuit breaker . Spring Release internal electronics pulse the SR coil and then provides a high impedance circuit . This provides anti-pumping .
4 . When the spring discharges its energy, the motor switch will re-energize the charging motor until the spring is charged again .
5 . To detect presence of voltage (Health Light), use Omron Red indicator LED Port # C22-L-R-120 for 120VAC application . For 230VAC application, use C22-L-R-230 . For 24VDC application, use C22-L-R-24 . Remove White (22mm diameter pilot light) Light Diffuser from assembly to give better indication of voltage present . Activate Pushbutton to trip circuit breaker . See Eaton for other voltages .
6 . For secondary contacts, odd numbers should be treated as positive for any accessory . This will not apply to AC ratings .
7 . The secondary contacts for drawout circuit breakers have been so arranged to allow for jumper stab connectors to tie common voltage together wherever possible . (For example: Terminals 36 to 38 could employ this jumper stab) .
8 . Reference Figure 15 for internal circuit breaker wiring .
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Series NRX Circuit Breaker
14 EATON CORPORATION www.eaton.com
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014E Effective November 2011
Figure 13. Circuit Breaker Control - Type RF Frame
Legend:MOT – Motor Operator for Charging Closing SpringST – Shunt TripSR – Spring ReleaseDescription of Operation
1 . Motor is energized and runs, charges closing spring, and is cut off by switch .
2 . When spring is charged, SC closes and Green indicating light will light (if applicable) .
3 . Closing CS-C contact energizes Spring Release Coil and closes circuit breaker . Spring Release internal electronics pulse the SR coil and then provides a high impedance circuit . This provides anti-pumping .
4 . When the spring discharges its energy, the motor switch will re-energize the charging motor until the spring is charged again .
5 . To detect presence of voltage (Health Light), use Omron Red indicator LED Port # C22-L-R-120 for 120VAC application . For 230VAC application, use C22-L-R-230 . For 24VDC application, use C22-R-24 . Remove White (22mm diameter pilot light) Light Diffuser from assembly to give better indication of voltage present . Activate Pushbutton to trip circuit breaker . See Eaton for other voltages .
6 . For secondary contacts, odd numbers should be treated as positive for any accessory . This will not apply to AC ratings .
7 . The secondary contacts for drawout circuit breakers have been so arranged to allow for jumper stab connectors to tie common voltage together wherever possible . (For example: Terminals 50 to 52 could employ this jumper stab) .
8 . Reference Figure 16 for internal circuit breaker wiring .
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Series NRX Circuit Breaker
49 51 53
50 52
15EATON CORPORATION www.eaton.com
Technical Data TD01301014EEffective November 2011
Series NRX Circuit Breaker Wiring Diagrams
Figure 14. Series NRX NF Mounted Breaker (with external PT Module)
16 EATON CORPORATION www.eaton.com
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014EEffective November 2011
Series NRX NF Mounted Breakers – 3 pole – 3 wireSeries NRX RF Mounted Breakers without internal PT module
LA
LB
LC
PTMODULE
BREAKER
A
0-600 L-L INPUT
B C
To additionalbreakers
SecondaryContacts
{
1 3 5
31 VB30 VA
32 VC
TP2
14
Series NRX NF Mounted Breakers – 3 pole or 4 pole – 4 wire
LA
LB
LC
PTMODULE
BREAKER
A0-600 L-L INPUT
B C
To additionalbreakers
SecondaryContacts1
N
3 5
31 VB30 VA
32 VC
TP2
14 VN
LN
(16 max)
(16 max)
17EATON CORPORATION www.eaton.com
Technical Data TD01301014EEffective November 2011
Series NRX Circuit Breaker Wiring Diagrams
Figure 15. Typical breaker master connection diagram - NF
Fig
ure
15.
Ser
ies
NR
X-N
F Fr
ame
Bre
aker
Mas
ter
Co
nn
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18 EATON CORPORATION www.eaton.com
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014E Effective November 2011
Figure 15 Notes for previous page Number 6D32389 - NF Frame
ote:N :
1 . All contacts shown with circuit breaker open and discharged and control power de-energized . The OTS are shown in reset position .2 . All trip unit wires are #22 AWG—0 .34 mm2—300V .3 . All accessory wires are #18 AWG—0 .82 mm2—600V .4 . 54 contacts maximum .5 . PT module inputs for Digitrip 1150 only .6 . Connectors K15 and K16 are not always present .7 . On three-pole circuit breakers only, connector K4—1 .2 wires only are wired out to secondary contacts .8 . Odd number contacts have guide rib on black housing .9 . Zone interlock wiring shown dotted—optional jumper is standard .10 . Latch check switch can be wired either externally (option) or internally (option) to a spring release accessory . Wiring LCS internally ensures the one-shot pulse provided by the SR circuitry is made active only after the mechanism spring is charged and the latch is in its proper state .11 . For accessories having a DC rating, the odd numbers will be treated as positive voltage .12 . Reserved for spring charge SC input contact .13 . For Digitrip 520M ALM2 is an alarm used for GF (Ground fault style trip unit) . ALM1 is used for diagnostic alarm or maintenance mode active . For Digitrip 1150, these contracts can be programmed as desired .
19EATON CORPORATION www.eaton.com
Technical Data TD01301014EEffective November 2011
Series NRX Circuit Breaker Wiring Diagrams
Figure 16. Typical breaker master connection diagram - RF
Fig
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20 EATON CORPORATION www.eaton.com
Series NRX Circuit Breaker Wiring Diagrams Technical Data TD01301014E Effective November 2011
Fig
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17.
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Figure 17. Typical breaker master connection diagram (Cont.) - RF.
21EATON CORPORATION www.eaton.com
Technical Data TD01301014EEffective November 2011
Series NRX Circuit Breaker Wiring Diagrams
Figure 16 and 17. Notes for two previous pages Number 6D32424 - RF Frame
1 . All contacts shown with circuit breaker open and discharged and control power de-energized . The OTS are shown in reset position .2 . All trip unit wires are #22 AWG—0 .34 mm2—300V .3 . All accessory wires are #18 AWG—0 .82 mm2—600V .4 . 92 contacts maximum .5 . Contacts 47 and 48 are not used on this breaker . If an internal PT Module is not provided, an external PT Module may be connected at terminals 14, 30, 31, and 32 .6 . Connectors K15 and K16 are not always present .7 . On three-pole circuit breakers only, connector K4—1 .2 wires only are wired out to secondary contacts .8 . Odd number contacts have guide rib on black housing .9 . Zone interlock wiring shown dotted—optional jumper is standard .10 . Latch check switch can be wired either externally (option) or internally (option) to a spring release accessory . Wiring LCS internally ensures the one-shot pulse provided by the SR circuitry is made active only after the mechanism spring is charged and the latch is in its proper state .11 . For accessories having a DC rating, the odd numbers will be treated as positive voltage .12 . Reserved for spring charge SC input contact .13 . For Digitrip 520M ALM2 is used for GF (ground fault style trip unit) or high load alarm (non-ground fault style trip unit) . ALM1 is used for diagnostic alarm or maintenance mode active . For Digitrip 1150, these contacts can be programed as desired .
Eaton CorporationElectrical Group1000 Cherrington ParkwayMoon Township, PA 15108United States877-ETN-CARE (877-386-2273)Eaton .com
© 2010 Eaton CorporationAll Rights ReservedPrinted in USAPublication No . TD01301014EH05November 2011
PowerChain Management is a registered trademark of Eaton Corporation .
All other trademarks are property of their respective owners .
Series NRX Circuit Breaker Wiring Diagrams
Technical Data TD01301014E Effective November 2011