V4-T2-238 Volume 4—Circuit Protection CA08100005E—August 2013 www.eaton.com 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2 2.3 Molded Case Circuit Breakers Series C 100% Rated Digitrip RMS 510 Circuit Breakers The NEC allows the breaker to be rated at 100% of its frame size in an assembly, provided that 90°C wire is applied at 75°C ampacity. Order as individual components: breaker frame (which includes trip unit) and rating plug. 100% Rated Digitrip RMS 510 Circuit Breakers Note 1 Includes B2016RDL rear connectors. Maximum Continuous Ampere Rating at 40°C Circuit Breaker Frame Only Digitrip Rating Plug Only L – Adjustable Long Delay Pickup (I r ) with Adjustable Long Delay Time S – Adjustable Short Delay Pickup with Adjustable Short Delay Time (I 2 t or Flat Response) I – Adjustable Instantaneous Pickup G – Adjustable Ground Fault Pickup with Adjustable Ground Fault Time Delay (I 2 t or Flat Response) Rated Current (I n ) Fixed Rating Plug LI LS LSI LIG LSG LSIG Catalog Number Catalog Number Three-Pole Standard Interrupting Capacity 600 Vac Rated 65 kAIC at 480 Vac 1600 CRD316T51W CRD316T53W CRD316T52W CRD316T54W CRD316T55W CRD316T56W 800 RP6R16A080 1000 RP6R16A100 1200 RP6R16A120 1600 RP6R16A160 2000 1 CRD320T51W CRD320T53W CRD320T52W CRD320T54W CRD320T55W CRD320T56W 1000 RP6R20A100 1200 RP6R20A120 1600 RP6R20A160 2000 RP6R20A200 Three-Pole High Interrupting Capacity 600 Vac Rated 100 kAIC at 480 Vac 1600 — CRDC316T53W CRDC316T52W CRDC316T54W CRDC316T55W CRDC316T56W 800 RP6R16A080 1000 RP6R16A100 1200 RP6R16A120 1600 RP6R16A160 2000 1 CRDC320T51W CRDC320T53W CRDC320T52W CRDC320T54W CRDC320T55W CRDC320T56W 1000 RP6R20A100 1200 RP6R20A120 1600 RP6R20A160 2000 RP6R20A200
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100% Rated Digitrip RMS 510 Circuit BreakersThe NEC allows the breaker to be rated at 100% of its frame size in an assembly, provided that 90°C wire is applied at 75°C ampacity. Order as individual components: breaker frame (which includes trip unit) and rating plug.
100% Rated Digitrip RMS 510 Circuit Breakers
Note1 Includes B2016RDL rear connectors.
MaximumContinuousAmpereRatingat 40°C
Circuit Breaker Frame Only Digitrip Rating Plug OnlyL – Adjustable Long Delay Pickup (Ir) with Adjustable Long Delay TimeS – Adjustable Short Delay Pickup with Adjustable Short Delay Time (I2t or Flat Response)I – Adjustable Instantaneous Pickup G – Adjustable Ground Fault Pickup with Adjustable Ground Fault Time Delay (I2t or Flat Response)
Rated Current (In)
Fixed Rating PlugLI LS LSI LIG LSG LSIG
Catalog Number Catalog Number
Three-Pole Standard Interrupting Capacity 600 Vac Rated 65 kAIC at 480 Vac
Series C Types RD, CRD, RDC, CRDC Circuit Breakers Equipped WithDigitrip RMS 310 Trip Units
Typical Instantaneous Time-Phase Current Characteristic CurveBased on In ....................................................................................... SC-5629-93 2
Typical Long Delay/Short Delay Time-Phase CurrentCharacteristic Curve Based on In ................................................... SC-5630-93 3
Typical Ground Fault/Protection Time/Current CharacteristicCurve Based on In ............................................................................ SC-5631-93 4
Series C Types RD, CRD, RDC, CRDC Circuit Breakers Equipped WithDigitrip RMS 510/610/810 Trip Units
Typical Instantaneous Time-Phase Current Characteristic CurveBased on In ....................................................................................... SC-5626-93 5
Typical Long Delay/Short Delay Time-Phase CurrentCharacteristic Curve Based on Ir ␣ ................................................... SC-5627-93 6
Typical Ground Fault/Protection Time/Current CharacteristicCurve Based on In ............................................................................ SC-5628-93 7
Series C R-Frame Circuit Breakers Equipped With 1600/2000A Digitrip OPTIM Trip UnitsLong Delay I2t, Short Delay I2t ........................................................... SC-6336-96 9Long Delay I2t, Short Delay Flat ........................................................ SC-6337-96 10Long Delay I4t, Short Delay Flat ........................................................ SC-6338-96 11Instantaneous and Override, 1600 Amperes ................................... SC-6342-96 15Instantaneous and Override, 2000 Amperes ................................... SC-6343-96 16Ground Fault or Ground Fault Alarm Only, 1600 Amperes ........... SC-6345-96 18Ground Fault or Ground Fault Alarm Only, 2000 Amperes ........... SC-6346-96 19
Series C R-Frame Circuit Breakers Equipped With 2500A Digitrip OPTIM Trip UnitsLong Delay I2t, Short Delay I2t ........................................................... SC-6339-96 12Long Delay I2t, Short Delay Flat ........................................................ SC-6340-96 13Long Delay I4t, Short Delay Flat ........................................................ SC-6341-96 14Instantaneous and Override .............................................................. SC-6344-96 17Ground Fault or Ground Fault Alarm Only ...................................... SC-6347-96 20
DefinitionsIn is the maximum value of continuous current for which the trip unit can be set.In is the basis (or reference) for both the Instantaneous and the Ground protection currentsettings.The value of the rating plug is printed on the Rating Plug.
Ir is the basis for both the Long Delay and the Short Delay (if provided) protection currentsettings.The value of Ir is the Long Delay Current Setting x In.
Individual oversize copies of curves listed above printed on onion-skin paper are availablein limited quantity from:
Cutler-HammerWestinghouse &Cutler-Hammer ProductsFive Parkway CenterPittsburgh, PA 15220
When ordering onion-skin curves, use number at bottom of page where curve appears,i.e., SC-5629-93. Requests for full sets of curves will not be honored.
Time/Current Characteristic Curves forWestinghouse Series C® R-FrameCircuit Breakers
October 1997Mailed to: E/29-100A Westinghouse
Series C ®
Molded CaseCircuit BreakersR-Frame
Application Data29-167R
Page 2
AB DE-ION Circuit Breakers
October 1997
Types RD, CRD, RDC, CRDC Equipped With Digitrip RMS 310 Trip Units. Typical Instanta-neous Time-Phase Current Characteristic Curve Based on I
n
Curve No. SC-5629-93
6X
8X
4X
7X
2X
Minimum TotalClearing Time
Maximum TotalClearing Time
Standard FixedRating Plug
Short DelayPick UpSettings(Tolerance ±10%)
5X
3X
CURRENT IN MULTIPLES OF RATING PLUG AMPERES (In)
.5
.5
TIM
E IN
SEC
ONDS
10,000
100
50
30
20
10
5
3
2
1
.5
.3
.2
.1
.05
.03
.02
.01
.005
.003
.002
.001
1,000
500
300
200
5,000
3,000
2,000
1 HO
UR1
MIN
UTE
2 HO
URS
201054321.8.6
1.8.6CURRENT IN MULTIPLES OF RATING PLUG AMPERES (In)
.7 .9 6 7 8 9
20105432 6 7 8 9.7 .9
CURRENT IN AMPS
.02
.03
.04
.05Fixed InstantaneousOverride ➁
10,0
00
.1
.01
20,0
00
.001
SECO
NDS
30,0
00
40,0
00
50,0
00
100,
000
InterruptingRatingDeterminesEnd ofCurve ➂
➀
➀
NP6645C79H01
Short DelayPickup
In
In_Cat._Engaged
Remove
NP6635C68H07 Made in U.S.A.
Digitrip RMS 310
Cell No.
Digitrip RMS 310 Rating PlugFor Use in R Circuit Breaker Only
NotesCurve accuracy applies from –20°C to +55°C ambient. For possible ampere derating forambient above 40°C, refer to Cutler-Hammer.
Digitrip RMS 310 trip units are suitable for functional field testing with test kit Cat. No.STK2. For field testing using primary injection methods, follow NEMA publication AB-4-1991.
Application Data29-167R
Page 3
AB DE-ION Circuit Breakers
October 1997
Types RD, CRD, RDC, CRDC Equipped With Digitrip RMS 310 Trip Units. Typical LongDelay/Short Delay Time-Phase Current Characteristic Curve Based on I
n
6X
8X
4X
3X
2X
Standard FixedRating Plug
200 ms
100 ms
I
300 ms
5X
➀
FrameRatingAmperes(Max.)
Available Rating PlugsAmpereRating (In)
Type Short DelayPickup RangeAmperes
CatalogNumber
(Icu)
500V
4265
380-415V
065100
IEC 947-2220-240V
125200
600V
5065
480V
065100
UL/CSA240V
125200
Short DelayPickup
In
Short DelayTime
Sec
NP6645C79H02
In_Cat._Engaged
Remove
NP6635C68H07 Made in U.S.A.
Digitrip RMS 310
Cell No.
Digitrip RMS 310 Rating PlugFor Use in R Circuit Breaker Only
1.8.6CURRENT IN MULTIPLES OF RATING PLUG AMPERES (In)
.7 .9 6 7 8 9
20105432 6 7 8 9
Short DelayPick UpSettings(Tolerance±10%)
Minimum TotalClearing Time
Maximum TotalClearing Time
.7 .9
.02
.03
.04
.05Fixed InstantaneousOverride ➁
InterruptingRatingDeterminesEnd ofCurve ➂
.1
.01
10,0
00
20,0
00
.001
SECO
NDS
CURRENT IN AMPS
30,0
00
40,0
00
50,0
00
100,
000
7X
➀
200,
000
RD, CRDRDC, CRDC
For 2500A styles, maximum short delay pickup setting = 6X.For high fault current levels a fixed instantaneous override is provided at 17,500A(Tolerance ±15%).The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.For ground fault time-current curves see SC-5631-93.Not UL/CSA Listed.
➀➁
➂
➃➄
NotesCurve accuracy applies from –20°C to +55°C ambient. For possible ampere derating forambient above 40°C, refer to Cutler-Hammer.
Digitrip RMS 310 trip units are suitable for functional field testing with test kit Cat. No.STK2. For field testing using primary injection methods, follow NEMA publication AB-4-1991.
Curve No. SC-5630-93
Application Data29-167R
Page 4
AB DE-ION Circuit Breakers
October 1997
Types RD, CRD, RDC, CRDC Equipped With Digitrip RMS 310 Trip Units. Typical GroundFault/Protection Time/Current Characteristic Curve Based on I
n
Curve No. SC-5631-93
1200
A.
100
50
30
20
10
5
3
2
1
.5
.3
.2
.1
.05
.03
.02
.01
.005
.003
.002
.001
TIME IN SECONDS
1,000
500
300
200
5,000
3,000
2,000
1 HO
UR
1 MIN
UT
E2 H
OU
RS
TIM
E IN
SEC
ONDS
10,000
100
50
30
20
10
5
3
2
1
.5
.3
.2
.1
.05
.03
.02
.01
.005
.003
.002
.001
1,000
500
300
200
5,000
3,000
2,000
1 H
OU
R1
MIN
UT
E2
HO
UR
S
100
8060 907050 1000
800
600
900
700
500
400
300
200
4000
3000
2000
4000
3000
2000
100080
0
600
900
700
500
400
300
200
1008060 907050
CURRENT IN AMPERES
CURRENT IN AMPERES
10,000
600
A.
I
.15 SEC
Ground Fault PickupSettings(Tolerance ±10% Except,±20% on 200 A. Setting)
400
A.
200
A.
1000
A.
800
A.
.3 SEC
.5 SEC
NP6645C79H05
Short DelayPickup
In
In_Cat._Engaged
Remove
NP6635C68H07 Made in U.S.A.
Digitrip RMS 310
Cell No.
WestinghouseDigitalProtection
·
NP6645C79H06
In_Cat._Engaged
Remove
NP6635C68H07 Made in U.S.A.
Digitrip RMS 310
Cell No.
WestinghouseDigitalProtection
·
Gnd. FaultPickup
*
Gnd. FaultTime
Sec
Gnd.
Gnd. FaultPickup
*
Gnd. FaultTime
Sec
Gnd.
Short DelayPickup
In
Short DelayTime
Sec
*Gnd. Fault Pickup
A
BCDEFHK
200A
400A600A800A1000A1200A1200A1200A
SETTING CURRENT*Gnd. Fault Pickup
A
BCDEFHK
200A
400A600A800A1000A1200A1200A1200A
SETTING CURRENT
Digitrip RMS 310 Rating PlugFor Use in R Circuit Breaker Only
Digitrip RMS 310 Rating PlugFor Use in R Circuit Breaker Only
Series C® R-Frame Circuit BreakersEquipped with Type Digitrip RMS 310 Trip Unitsfor Ground Fault Protection
For use with Trip Unit Catalog Numbers1600A Max.RES1600LSGRES1600LSIG
2000A Max.RES2000LSGRES2000LSIG
2500A Max.RES2500LSGRES2500LSIG
NotesCurve accuracy applies from –20°C to +55°C ambient.
Digitrip RMS 310 trip units are suitable for functional field testing with test kit Cat. No. STK2.For field testing using primary injection methods, follow NEMA publication AB-4-1991.
➀ For phase time-current curves see SC-5629-93 and SC-5630-93.
Application Data29-167R
Page 5
AB DE-ION Circuit Breakers
October 1997
Types RD, CRD, RDC, CRDC Equipped With Digitrip RMS 510/610/810 Trip Units. TypicalInstantaneous Time-Phase Current Characteristic Curve Based on I
n
2
10
M2
I M P O R T A N T
ApplicationDeterminesEnd of Curve
AvailableInstantaneousSettings2, 2.5, 3, 4, 5, 6, M1 or M2 x In
4
2.5
3 5
648
M1
3
9M2
7M1M2
3
1
Plug Rating (In) M1 M2
800-1600 A2000 A2500 A
8 x In8 x In7 x In
10 x In9 x In7 x In
Values for M1 and M2 as marked on Rating Plug
1
2
®
CURRENT IN MULTIPLES OF PLUG RATING In
TIM
E IN
SEC
ONDS
1000
500
300
200
100
TIME IN
SECONDS
.1.07.05 .7.5.4.3.2 1 75432 10 7050403020
.1.07.05 .7.5.4.3.2 1 75432 10 7050403020
400
900800700600
50
30
20
10
40
90807060
5
3
2
1
4
9876
.5
.3
.2
.1
.4
.9
.8
.7
.6
.05
.03
.02
.01
.04
.09
.08
.07
.06
1000
500
300
200
100
400
900800700600
50
30
20
10
40
90807060
5
3
2
1
4
9876
.5
.3
.2
.1
.4
.9
.8
.7
.6
.05
.03
.02
.01
.04
.09
.08
.07
.06
Series C R-Frame Circuit Breakers withDIGITRIP RMS 510/610/810 Trip UnitsTypical Instantaneous Time-Phase Current Characteristic Curve (I)
CURRENT IN MULTIPLES OF PLUG RATING In
TRIP UNITS ARE NOT AVAILABLE WITH ONLYINSTANTANEOUS PROTECTION. THIS CURVE MUST BEUSED in conjunction WITH Curve No. SC-5627-93 for LONGDELAY (and if applicable SHORT DELAY) PROTECTION toobtain the complete time-current characteristic.
For 2000A Rating Plug.For 2500A Rating Plug.For 800-1600A Rating Plugs.The end of the curve is determined by the interrupting rating of the circuitbreaker. See above tabulation.The Rating Plug is for 50 and 60 Hz applications.Not UL/CSA listed.For Types RD and RDC only.Curves apply from –20°C to +55°C ambient. Temperatures above 95°Ccause automatic trip. For possible ampere derating for ambient above40°C, refer to Cutler-Hammer.
Curve No. SC-5626-93
Application Data29-167R
Page 6
AB DE-ION Circuit Breakers
October 1997
Types RD, CRD, RDC, CRDC Equipped With Digitrip RMS 510/610/810 Trip Units. TypicalLong Delay/Short Delay Time-Phase Current Characteristic Curve Based on I
AvailableLong Delay (Ir)Settings.5, .6, .7, .8, .85, .9, .95 or 1 x In = Ir
MinimumTotalClearingTime
MaximumTotalClearingTime
24
7
2
4
AvailableShort DelaySettings2, 2.5, 3, 4, 5, 6,S1(7) or S2(8) x Ir
.5 2
.4 2
2.2
.3 2
2
2.5
3 5
64
7S1
ApplicationDeterminesEnd of Curve
.3
1
TIM
E IN
SEC
ONDS
1000
500
300
200
100
TIME IN
SECONDS
400
900800700600
50
30
20
10
40
90807060
5
3
2
1
4
9876
.5
.3
.2
.1
.4
.9
.8
.7
.6
.05
.03
.02
.01
.04
.09
.08
.07
.06
1000
500
300
200
100
400
900800700600
50
30
20
10
40
90807060
5
3
2
1
4
9876
.5
.3
.2
.1
.4
.9
.8
.7
.6
.05
.03
.02
.01
.04
.09
.08
.07
.06
CURRENT IN MULTIPLES OF LONG DELAY SETTINGS Ir.1.07.05 .7.5.4.3.2 1 85432 10 3020
.1.07.05 .7.5.4.3.2 1 85432 10 403020
CURRENT IN MULTIPLES OF LONG DELAY SETTINGS IrCURRENT IN kA
Series C R-Frame Circuit Breakers withDIGITRIP RMS 510/610/810 Trip UnitsTypical Long Delay and Short DelayTime-Phase Current Characteristic Curve (LS)
6
6IMPORTANT
75432 10 20
.3
22.5 4
6
AvailableI2t ShapeShort Delay TimeSettingsIndicated by *
1
.5
.3
.2
.1
.4
.01705040302010
3.1
.4
.5
.2
Available FlatResponseShort DelayTime Settings.1, .2, .3, .4, or .5
LDS Range = 150% to 130% of Setting.LDT Range = 67% to 100% of Setting, at 6 x Ir .SDS Range = 90% to 110% of Setting.
Long Time Memory function automatically shortens long time delay asoverload conditions recur.With zone interlocking on short delay utilized and no restraining signal, theminimum time band applies – regardless of setting.The end of the curve is determined by the interrupting rating of the circuitbreaker. See above tabulation.For high fault current levels a fixed instantaneous override is provided at17,500A (Tolerance ± 15%).The Rating Plug is for 50 and 60 Hz applications.Not UL/CSA listed.For Types RD and RDC only.Curves apply from –20°C to +55°C ambient. Temperatures above 95°C causeautomatic trip. For possible ampere derating for ambient above 40°C, referto Cutler-Hammer.
SDM
Application Data29-167R
Page 7
AB DE-ION Circuit Breakers
October 1997
Types RD, CRD, RDC, CRDC Equipped With Digitrip RMS 510/610/810 Trip Units. TypicalGround Fault/Protection Time/Current Characteristic Curve Based on I
n
A K
A
B
D
®
I2t Shape for GroundTime Delay Settings Indicated by *
Series C R-Frame Circuit Breakers withDIGITRIP RMS 510/610/810 Trip UnitsTypical Time-Ground Current Characteristic Curve (G)
800
1000
1200
1250
1600
2000
2500
200
250
300
312
400
500
625
Code A➄ B➄ C➄ D➄ E F H K
Ground Fault Settings (Amperes) ➁➂➃
I n plu
g ra
tings
ava
ilabl
e
Notes➀
➁➂➃
➄
With zone interlocking on ground fault utilized and no restraining signal, the minimum timeband applies – regardless of setting.Except as noted tolerances on current levels are ± 10% of values shown in chart.The rating plug is for 50 Hz and 60 Hz, applications.All tabulated values are based on the use of a residual sensing scheme with the samerated current sensor in all phase and neutral conductors.For Testing Purposes Only: When using an external single phase current source to checklow level ground fault current settings, it is advisable to use the Auxiliary Power Module(APM). See TEST PROCEDURES in Instruction Leaflet.
AvailableShort DelayPickup Settings1.5 to 8 x Ir±5% in 0.1increments
Available I t SlopeShort Delay Time Settings0.1 to 0.5 seconds in0.01 second increments
2
Available Long DelayPickup Settings (I )r0.5 to 1 x I = In rin 0.01 increments
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) For ground fault time / current curves see SC-6345-96 (1600A), SC-6346-96 (2000A), andSC-6347-96 (2500A)
6) This curve is shown as a multiple of the Long Delay Pickup Setting, (Iprogrammed in primary value amperes via a Breaker Interface Module, or OPTIMizer,or a Remote PC (IMPACC System).
7) The Long Delay Pickup Point (indicated by a flashing LED on the product) nominally occursat 116% of the I current, with a +/- 5% tolerance. The short delay settings have conventional100%, +/- 5% as the pickup points.
). This I setting isr r
r
I I
135200
100100
I I
70100
5050
I I
IMP
CU CS CU CS CU CS
2535
1318
8) For additional curve tolerances contact Cutler-Hammer.9) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
Circuit Breaker Time/Current Curves (Phase Current)Series CT R - Frame Circuit BreakersEquipped With 1600/2000A Digitrip Optim Trip UnitsResponse: LONG DELAY I2t, SHORT DELAY I2t
ApplicationDeterminesEnd of Curve
.5
.3
.1
r
r
24
7
4
2
October 1997
Application Data29-167RPage 10
AB DE-ION Circuit Breakers
Curve No. SC-6337-96
R-Frame Circuit Breakers Equipped with 1600/2000A Digitrip OPTIM Trip Units; Long Delay I2t, Short Delay Flat
AvailableLong Delay (I )rSettings0.5 to 1 x I = In rin 0.01 increments
AvailableShort DelayPickup Settings1.5 to 8 x Ir±5% in 0.1increments
Available FlatShort Delay Time Settings0.1 to 0.5 secondsin 0.01 second increments
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) For ground fault time / current curves see SC-6345-96 (1600A), SC-6346-96 (2000A), andSC-6347-96 (2500A)
6) This curve is shown as a multiple of the Long Delay Pickup Setting, (Iprogrammed in primary value amperes via a Breaker Interface Module, or OPTIMizer,or a Remote PC (IMPACC System).
7) The Long Delay Pickup Point (indicated by a flashing LED on the product) nominally occursat 116% of the I current, with a +/- 5% tolerance. The short delay settings have conventional100%, +/- 5% as the pickup points.
8) For additional curve tolerances contact Cutler-Hammer.9) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
Circuit Breaker Time/Current Curves (Phase Current)Series CT R - Frame Circuit BreakersEquipped With 1600/2000A Digitrip Optim Trip UnitsResponse: LONG DELAY I2t, SHORT DELAY FLAT
r
r
24
7
4
2
Application Data29-167R
Page 11
AB DE-ION Circuit Breakers
October 1997
Curve No. SC-6338-96
R-Frame Circuit Breakers Equipped with 1600/2000A Digitrip OPTIM Trip Units; Long Delay I4t, Short Delay Flat
AvailableShort DelayPickup Settings1.5 to 8 x Ir±5% in 0.1increments
Available FlatShort Delay Time Settings0.1 to 0.5 secondsin 0.01 second increments
Available Long DelayPickup Settings (I )r0.5 to 1 x I = In rin 0.01 increments
5
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) For ground fault time / current curves see SC-6345-96 (1600A), SC-6346-96 (2000A), andSC-6347-96 (2500A)
6) This curve is shown as a multiple of the Long Delay Pickup Setting, (I-programmed in primary value amperes via a Breaker Interface Module, or OPTIMizer,or a Remote PC (IMPACC System).
7) The Long Delay Pickup Point (indicated by a flashing LED on the product) nominally occursat 116% of the I current, with a +/- 5% tolerance. The short delay settings have conventional100%, +/- 5% as the pickup points.
8) For additional curve tolerances contact Cutler-Hammer.9) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
ApplicationDeterminesEnd of Curve
5
1
.5
.1
Circuit Breaker Time/Current Curves (Phase Current)Series CT R - Frame Circuit BreakersEquipped With 1600/2000A Digitrip Optim Trip UnitsResponse: LONG DELAY I4t, SHORT DELAY FLAT
r
r
October 1997
Application Data29-167RPage 12
AB DE-ION Circuit Breakers
Curve No. SC-6339-96
R-Frame Circuit Breakers Equipped with 2500A Digitrip OPTIM Trip Units; Long Delay I2t, Short Delay I2t
AvailableShort DelayPickup Settings1.5 to 6.4 x Ir±5% in 0.1increments
.5
.3
.1
Available I t SlopeShort Delay Time Settings0.1 to 0.5 seconds in0.01 second increments
2
Available Long DelayPickup Settings (I )r0.5 to 1 x I = In rin 0.01 increments
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) For ground fault time / current curves see SC-6345-96 (1600A), SC-6346-96 (2000A), andSC-6347-96 (2500A)
6) This curve is shown as a multiple of the Long Delay Pick-up Setting, (I ). This I setting isprogrammed in primary value amperes via a Breaker Interface Module, or OPTIMizer,or a Remote PC (IMPACC System).
7) The Long Delay Pick-up Point (indicated by a flashing LED on the product) nominally occursat 116% of the I current, with a +/- 5% tolerance. The short delay settings have conventional100%, +/- 5% as the pickup points.
8) For additional curve tolerances contact Cutler-Hammer.9) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
Circuit Breaker Time/Current Curves (Phase Current)Series CT R - Frame Circuit BreakersEquipped With 2500A Digitrip Optim Trip UnitsResponse: LONG DELAY I2t, SHORT DELAY I2t
r
r
24
7
4
2
Application Data29-167R
Page 13
AB DE-ION Circuit Breakers
October 1997
Curve No. SC-6340-96
R-Frame Circuit Breakers Equipped with 2500A Digitrip OPTIM Trip Units; Long Delay I2t, Short Delay Flat
Available FlatShort Delay Time Settings0.1 to 0.5 secondsin 0.01 second increments
AvailableShort DelayPickup Settings1.5 to 6.4 x Ir±5% in 0.1increments
Available Long DelayPickup Settings (I )r0.5 to 1 x I = In rin 0.01 increments
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) For ground fault time / current curves see SC-6345-96 (1600A), SC-6346-96 (2000A), andSC-6347-96 (2500A)
6) This curve is shown as a multiple of the Long Delay Pick-up Setting, (I ). This I setting isprogrammed in primary value amperes via a Breaker Interface Module, or OPTIMizer,or a Remote PC (IMPACC System).
7) The Long Delay Pick-up Point (indicated by a flashing LED on the product) nominally occurs
8) For additional curve tolerances contact Cutler-Hammer.9) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
at 116% of the I current, with a +/- 5% tolerance. The short delay settings have conventional100%, +/- 5% as the pickup points.
Available FlatShort Delay Time Settings0.1 to 0.5 secondsin 0.01 second increments
AvailableShort DelayPickup Settings1.5 to 6.4 x Ir±5% in 0.1increments
Available Long DelayPickup Settings (I )r0.5 to 1 x I = In rin 0.01 increments
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) For ground fault time / current curves see SC-6345-96 (1600A), SC-6346-96 (2000A), andSC-6347-96 (2500A)
6) This curve is shown as a multiple of the Long Delay Pick-up Setting, (I ). This I setting isprogrammed in primary value amperes via a Breaker Interface Module, or OPTIMizer,or a Remote PC (IMPACC System).
7) The Long Delay Pick-up Point (indicated by a flashing LED on the product) nominally occursat 116% of the I current, with a +/- 5% tolerance. The short delay settings have conventional100%, +/- 5% as the pickup points.
8) For additional curve tolerances contact Cutler-Hammer.9) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
Circuit Breaker Time/Current Curves (Phase Current)Series CT R - Frame Circuit BreakersEquipped With 2500A Digitrip Optim Trip UnitsResponse: LONG DELAY I4t, SHORT DELAY FLAT
r
r
Application Data29-167R
Page 15
AB DE-ION Circuit Breakers
October 1997
Curve No. SC-6342-96
R-Frame Circuit Breakers Equipped with 1600A Digitrip OPTIM Trip Units; Instantaneous and Override
Available InstantaneousPickup Settings2 to 10 x In ± 10%In 0.1 Increments
Available Flat ResponseShort Delay Time Settings0.1 to 0.5 seconds in0.01 second increments
FixedInstantaneousOverride
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) For ground fault time / current curves see SC-6345-96 (1600A), SC-6346-96 (2000A), andSC-6347-96 (2500A)
6) The instantaneous settings have conventional 100%, +/- 10% as the pickup points.
7) For additional curve tolerances contact Cutler-Hammer.8) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
Circuit Breaker Time/Current Curves (Phase Current)Series CT R - Frame Circuit BreakersEquipped With 1600A Digitrip Optim Trip UnitsResponse: INSTANTANEOUS AND OVERRIDE
n
n
102
October 1997
Application Data29-167RPage 16
AB DE-ION Circuit Breakers
Curve No. SC-6343-96
R-Frame Circuit Breakers Equipped with 2000A Digitrip OPTIM Trip Units; Instantaneous and Override
Available InstantaneousPickup Settings2 to 8 x In ± 10%In 0.1 Increments
Available Flat ResponseShort Delay Time Settings0.1 to 0.5 secondsin 0.01 second increments
FixedInstantaneousOverride
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) For ground fault time / current curves see SC-6345-96 (1600A), SC-6346-96 (2000A), andSC-6347-96 (2500A)
6) The instantaneous settings have conventional 100%, +/- 10% as the pickup points.
7) For additional curve tolerances contact Cutler-Hammer.8) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
Circuit Breaker Time/Current Curves (Phase Current)Series CT R - Frame Circuit BreakersEquipped With 2000A Digitrip Optim Trip UnitsResponse: INSTANTANEOUS AND OVERRIDE
n
n
2 8
Application Data29-167R
Page 17
AB DE-ION Circuit Breakers
October 1997
R-Frame Circuit Breakers Equipped with 2500A Digitrip OPTIM Trip Units; Instantaneous and Override
Curve No. SC-6344-96
.01
10,000
5,000
3,000
2,000
1,000
500
300
200
100
50
30
20
10
5
3
2
.5
.3
.2
.1
.05
.03
.02
1 M
INU
TE
1 H
OU
R2
HO
UR
ST
IME
INS
EC
ON
DS
1
100
20 30 40 50 60 70 80 902 3 4 5 6 7 108 91
2 3 20 304 5 6 7 40 50 60 70 80 90 100108 91
.01
.5
.3
.2
.1
.05
.03
.02
1
CURRENT IN MULTIPLES OF PLUG RATING I
CURRENT IN MULTIPLES OF PLUG RATING I AMPERES
2000
3000
30,0
00
4000
40,0
00
5000
50,0
00
6000
60,0
00
7000
70,0
00
8000
80,0
00
9000
10,0
00
20,0
00
1000
Available Rating Plug
250020001600
ORPL25A250ORPL25A200ORPL25A160
AmpereRating
(I )n
Rating PlugCatalogNumber
14875 -2012514875 -2012514875 -20125
OverrideAmperes
5000 -160004000 -128003200 -10240
InstantaneousPickup Range2 to 6.4 x In
Amperes
MaximumAmpereRating
2500
6.4
Available InstantaneousPickup Settings2 to 6.4 x In ± 10%In 0.1 Increments
ApplicationDeterminesEnd of Curve
Available Flat ResponseShort Delay Time Settings0.1 to 0.5 secondsin 0.01 second increments
FixedInstantaneousOverride
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) For ground fault time / current curves see SC-6345-96 (1600A), SC-6346-96 (2000A), andSC-6347-96 (2500A)
6) The instantaneous settings have conventional 100%, +/- 10% as the pickup points.7) For additional curve tolerances contact Cutler-Hammer.8) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
Circuit Breaker Time/Current Curves (Phase Current)Series CT R - Frame Circuit BreakersEquipped With 2500A Digitrip Optim Trip UnitsResponse: INSTANTANEOUS AND OVERRIDE
n
n
2
October 1997
Application Data29-167RPage 18
AB DE-ION Circuit BreakersR-Frame Circuit Breakers Equipped with 1600A Digitrip OPTIM Trip Units; Ground Fault or Ground Fault Alarm Only
Curve No. SC-6345-96
.01
10,000
5,000
3,000
2,000
1,000
500
300
200
100
50
30
20
10
5
3
2
.5
.3
.2
.1
.05
.03
.02
1 M
INU
TE
1 H
OU
R2
HO
UR
ST
IME
INS
EC
ON
DS
1
CURRENT IN MULTIPLES OF RATING PLUG I
CURRENT IN MULTIPLES OF RATING PLUG I
.01
.5
.3
.2
.1
.05
.03
.02
1
.1.1
.2.2
.3.3
.4.4
.5.5
.6.6
.7.7
.8.8
.9.9
11
22
33
44
55
66
77
88
99
1010
.2 .3 .4 .5 .6 .7 .8 .9 1 2 3 4 5 6 7 8 9 10
Available Rating Plugs
I t Slope forGround FaultTime Settings
2
Availaible I t ResponseGround Fault Time Settings0.1 to 0.5 secondsin 0.01 second increments
2
Available Ground FaultPickup Settings ±10%in 0.1 increments
Available Flat ResponseGround Fault Time Settings0.1 to 0.5 secondsin 0.01 second increments
Flat Shape forGround FaultTime Settings
.5
.3
.1
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) Ground fault level is electronically limited to a maximum of 1200 Amperes.6) For phase current curves, see SC-6336-96, SC-6337-96, SC-6338-96, SC-6339-96,
SC-6340-96, SC-6341-96, SC-6342-96, SC-6343-96, and SC-6344-96.7) The ground fault settings have conventional 100%, +/- 10% as the pickup points.8) For additional curve tolerances contact Cutler-Hammer.9) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
Circuit Breaker Time/Current Curves (Ground Current)Series CT R - Frame Circuit BreakersEquipped With 1600A Digitrip Optim Trip UnitsResponse: GROUND FAULT TRIP OR GROUND FAULT ALARM ONLY
n
n
1.0
.5
.5
.3
.1
.2
Application Data29-167R
Page 19
AB DE-ION Circuit Breakers
October 1997
Curve No. SC-6346-96
R-Frame Circuit Breakers Equipped with 2000A Digitrip OPTIM Trip Units; Ground Fault or Ground Fault Alarm Only
10,000
5,000
3,000
2,000
1,000
500
300
200
100
50
30
20
1 M
INU
TE
1 H
OU
R2 H
OU
RS
CURRENT IN MULTIPLES OF RATING PLUG I
CURRENT IN MULTIPLES OF RATING PLUG I
.1 .2 .3 .4 .5 .6 .7 .8 .9 1 2 3 4 5 6 7 8 9 10
Available Rating Plugs
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) Ground fault level is electronically limited to a maximum of 1200 Amperes.6) For phase current curves, see SC-6336-96, SC-6337-96, SC-6338-96, SC-6339-96,
SC-6340-96, SC-6341-96, SC-6342-96, SC-6343-96, and SC-6344-96.7) The ground fault settings have conventional 100%, +/- 10% as the pickup points.8) For additional curve tolerances contact Cutler-Hammer.9) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.
Availaible I t ResponseGround Fault Time Settings0.1 to 0.5 secondsin 0.01 second increments
2
Available Ground FaultPickup Settings ±10%in 0.1 increments
Available Flat ResponseGround Fault Time Settings0.1 to 0.5 secondsin 0.01 second increments
Flat Shape forGround FaultTime Settings
.5
.3
.1
Circuit Breaker Time/Current Curves (Ground Current)Series CT R - Frame Circuit BreakersEquipped With 2000A Digitrip Optim Trip UnitsResponse: GROUND FAULT TRIP OR GROUND FAULT ALARM ONLY
n
n
1.0
.5
.5
.3
.1
.2
October 1997
Application Data29-167RPage 20
AB DE-ION Circuit Breakers
Curve No. SC-6347-96
R-Frame Circuit Breakers Equipped with 2500A Digitrip OPTIM Trip Units; Ground Fault or Ground Fault Alarm Only
.01
10,000
5,000
3,000
2,000
1,000
500
300
200
100
50
30
20
10
5
3
2
.5
.3
.2
.1
.05
.03
.02
1 M
INU
TE
1 H
OU
R2 H
OU
RS
TIM
EIN
SE
CO
ND
S
1
CURRENT IN MULTIPLES OF RATING PLUG I
CURRENT IN MULTIPLES OF RATING PLUG I
.01
.5
.3
.2
.1
.05
.03
.02
1
.1.1
.2.2
.3.3
.4.4
.5.5
.6.6
.7.7
.8.8
.9.9
11
22
33
44
55
66
77
88
99
1010
.2 .3 .4 .5 .6 .7 .8 .9 1 2 3 4 5 6 7 8 9 10
Available Rating Plugs
I t Slope forGround FaultTime Settings
2
Availaible I t ResponseGround Fault Time Settings0.1 to 0.5 secondsin 0.01 second increments
2
.5
.1
Available Flat ResponseGround Fault Time Settings0.1 to 0.5 secondsin 0.01 second increments
Flat Shape forGround FaultTime Settings
Notes1) For field testing primary injection methods, follow NEMA AB4-1991 publications.2) Calibration response in short delay pickup range is the same for 1, 2, or 3 poles in series.3) There is a memory effect that can act to shorten the long delay. The memory effect
comes into play if a current above the long delay pickup value exists for a time and thenis cleared by the tripping of a downstream device or the circuit breaker itself. Asubsequent overload will cause the circuit breaker to trip in shorter time than normal.The amount of time reduction is inverse to the amount of time that has elapsed since theprevious overload. Approximately five minutes is required between overloads tocompletely reset the memory.
4) The end of the curve is determined by the interrupting rating of the circuit breaker.See above tabulation.
5) Ground fault level is electronically limited to a maximum of 1200 Amperes.6) For phase current curves, see SC-6336-96, SC-6337-96, SC-6338-96, SC-6339-96,
SC-6340-96, SC-6341-96, SC-6342-96, SC-6343-96, and SC-6344-96.7) The ground fault settings have conventional 100%, +/- 10% as the pickup points.8) For additional curve tolerances contact Cutler-Hammer.9) Total clearing times shown include the response times of the trip unit, the breaker opening, and the extinction of the arcing current.