magnum ds and dsl low voltage power circuit breakers · 2c12060h06 magnum ds/dsl fixed/drawout...
TRANSCRIPT
Magnum DS and DSL Low Voltage Power Circuit BreakerEngineering DataT.D. 01301004E Supersedes T.D. 01301004E dated July 2003Effective January 2005
Magnum DS Narrow Frame Breakerand Drawout Cassette
Magnum DS Power Circuit Breaker Family
Magnum DS Narrow FrameDrawout Cassette (rear view)
T.D.01301004E
Engineering DataPage 1Effective: January 2005
T.D. 01301004E
PURPOSE
This engineering data is expressly intended to provide outline drawings, connection diagrams, trip unit time-current characteristic curves, document references and other material not necessarily provided elsewhere for fixed and drawout Magnum DS/DSL Circuit Breakers and any associated drawout cassettes.
This information is also available from the Eaton website at www.Eaton.com
For application information, consult Eaton or see applicable Product Guides, Technical Documents, Application Publications and/or Industry Standards.
All possible contingencies which may arise during installation operation or maintenance, and all details and variations of this equipment do not purport to be covered by this appendix. If further information is desired by purchaser regarding his particular installation, operation or maintenance of particular equipment, contact the local Eaton representative.
SAFETY
All safety codes, safety standards and/orregulations must be strictly observed inthe installation, operation andmaintenance of this equipment.
ANY WARNINGS OR CAUTIONSINCLUDED AS PART OF THIS DOCUMENTARE FOR PERSONNEL SAFETY ANDPROTECTION OF EQUIPMENT FROMDAMAGE. AN EXAMPLE OF A TYPICALWARNING LABEL HEADING IS SHOWNABOVE TO FAMILIARIZE PERSONNELWITH THE STYLE OF PRESENTATION.THIS WILL HELP TO INSURE THATPERSONNEL ARE ALERT TO WARNINGS.IN ADDITION, CAUTIONS ARE ALL UPPERCASE AND BOLDFACE.
! WARNING
Engineering DataPage 2 Effective: January 2005
T.D. 01301004E
PAGE
SECTION 1: DOCUMENT REFERENCES
1-1 Document References ..................................................................................................................................................................................4
SECTION 2: CONNECTION DIAGRAMS
2-1 Connection Diagram for Narrow and Standard Frame with Digitrip 220/520/520M/520MC.............................................................72-2 Connection Diagram for Standard Frame with Digitrip 1150 .................................................................................................................82-3 Connection Diagram for Double-wide Frame with Digitrip 520/520M/520MC with ABCABC Configuration .................................92-4 Connection Diagram for Double-wide Frame with Digitrip 520/520M/520MC with AABBCC Configuration ...............................102-5 Connection Diagram for Double-wide Frame with Digitrip 1150 with ABCABC Configuration......................................................112-6 Connection Diagram for Double-wide Frame with Digitrip 1150 with AABBCC Configuration......................................................122-7 Connection Diagram for Magnum DSL with Blown Fuse Trip Digitrip 220/520/520M/520MC ........................................................132-8 Connection Diagram for Magnum DSL Digitrip 1150............................................................................................................................14
SECTION 3: TRIP UNIT TIME-CURRENT CURVES
3-1 Digitrip 220 - Long Delay and Instantaneous..........................................................................................................................................163-2 Digitrip 220+ - Long Delay ..........................................................................................................................................................................173-3 Digitrip 220+ - Instantaneous.....................................................................................................................................................................183-4 Digitrip 520/520M/520MC - Instantaneous ..............................................................................................................................................193-5 Digitrip 520/520M/520MC - Long Delay and Short Delay ......................................................................................................................203-6 Digitrip 520/520M/520MC - Ground (Earth)..............................................................................................................................................213-7 Digitrip 1150 - Instantaneous.....................................................................................................................................................................223-8 Digitrip 1150 - I2T and Short Delay ...........................................................................................................................................................233-9 Digitrip 1150 - I4T and Short Delay ...........................................................................................................................................................243-10 Digitrip 1150 - Ground (Earth) ....................................................................................................................................................................253-11 Digitrip 1150 - Moderately Inverse and Short Delay .............................................................................................................................263-12 Digitrip 1150 - Very Inverse and Short Delay..........................................................................................................................................273-13 Digitrip 1150 - Extremely Inverse and Short Delay ................................................................................................................................28
SECTION 4: DRAWOUT CIRCUIT BREAKER CASSETTE OUTLINES AND DIMENSIONS
4-1 800-1600A Narrow Frame Cassette (Mounting Locations)..................................................................................................................304-2 800-1600A Narrow Frame Cassette (Overall Dimensions)....................................................................................................................314-3 800-1600A Narrow Frame Cassette (Accessory Dimensions) .............................................................................................................324-4 800-1600A Narrow Frame Cassette (3-Pole Stab and Stab Bracing) .................................................................................................334-5 800-1600A Narrow Frame Cassette (Door Cutout and Breaker Positions)........................................................................................344-6 800-1600A Narrow Frame Cassette (Front Mount Terminal Locations) .............................................................................................354-7 800-3200A Standard Frame Universal Cassette (3-Pole Mounting Locations) .................................................................................364-8 800-3200A Standard Frame Universal Cassette (Overall Dimensions)...............................................................................................374-9 800-3200A Standard Frame Universal Cassette (Accessory Dimensions) ........................................................................................384-10 800-3200A Standard Frame Universal Cassette (3-Pole Vertical Stab)..............................................................................................394-11 800-3200A Standard Frame Universal Cassette (3-Pole Horizontal Stab) .........................................................................................404-12 800-3200A Standard Frame Universal Cassette (Door Cutout and Breaker Positions) ...................................................................414-13 800-3200A Standard Frame Universal Cassette (4-Pole Mounting Locations and Overall Dimensions) .....................................424-14 800-3200A Standard Frame Universal Cassette (4-Pole Accessory Information and Vertical Stabs)..........................................434-15 800-3200A Standard Frame Universal Cassette (4-Pole Horizontal Stabs and Front View) ...........................................................44
Engineering DataPage 3Effective: January 2005
T.D. 01301004E
PAGE4-16 4000-5000A Double-Wide Frame Universal Cassette (3-Pole Mounting Locations) ...................................................................... 454-17 4000-5000A Double-Wide Frame Universal Cassette (Overall Dimensions)......................................................................................464-18 4000-5000A Double-Wide Frame Universal Cassette (Accessory Dimensions) ...............................................................................474-19 4000-5000A Double-Wide Frame Universal Cassette (3-Pole Vertical Stabs)...................................................................................484-20 4000-5000A Double-Wide Frame Universal Cassette (3-Pole Horizontal Stabs) ..............................................................................494-21 4000-5000A Double-Wide Frame Universal Cassette (Door Cutout and Breaker Positions)..........................................................504-22 4000-5000A Double-Wide Frame Universal Cassette (4-Pole Mounting Locations and Overall Dimensions) ............................514-23 4000-5000A Double-Wide Frame Universal Cassette (4-Pole Accessory Information and Vertical Stabs).................................524-24 4000-5000A Double-Wide Frame Universal Cassette (4-Pole Horizontal Stabs and Front View) ..................................................534-25 800-3200A Standard Frame Basic Cassette (3-Pole Mounting Locations) ........................................................................................544-26 800-3200A Standard Frame Basic Cassette (Overall Dimensions)......................................................................................................554-27 800-3200A Standard Frame Basic Cassette (Accessory Dimensions) ...............................................................................................564-28 800-3200A Standard Frame Basic Cassette (3-Pole Stab and Stab Bracing) ...................................................................................574-29 800-3200A Standard Frame Basic Cassette (Door Cutout and Breaker Positions)..........................................................................584-30 4000-5000A Double-Wide Frame Basic Cassette (3-Pole Mounting Locations)...............................................................................594-31 4000-5000A Double-Wide Frame Basic Cassette (Overall Dimensions) ............................................................................................604-32 4000-5000A Double-Wide Frame Basic Cassette (Accessory Dimensions)......................................................................................614-33 4000-5000A Double-Wide Frame Basic Cassette (3-Pole Stabs and Stab Bracing)........................................................................624-34 4000-5000A Double-Wide Frame Basic Cassette (Door Cutout and Breaker Positions) ................................................................634-35 MDSL Cassette Overall Dimensions (800-2000 Amp) ............................................................................................................................644-36 MDSL Cassette 3-Pole Mounting Locations Dimensions (800-2000 Amp) ........................................................................................654-37 MDSL Cassette 3-Pole Vertical Stab Dimensions (800-2000 Amp) .....................................................................................................664-38 MDSL Cassette Door Cutout and Breaker Positions Dimensions (800-2000 Amp) ..........................................................................674-39 MDSL Cassette Accessory Dimensions (800-2000 Amp)......................................................................................................................68
SECTION 5: FIXED CIRCUIT BREAKER OUTLINES AND DIMENSIONS
5-1 800-2000A Narrow Frame Fixed Breaker (Overall Dimensions and Mounting Locations)..............................................................705-2 800-2000A Narrow Frame Fixed Breaker (Door Cutout and Vertical Terminals) ..............................................................................715-3 800-2000A Narrow Frame Fixed Breaker (Enclosure and Horizontal Terminals) .............................................................................725-4 800-2000A Narrow Frame Fixed Breaker (Optional Arc Hood) ............................................................................................................735-5 800-2000A Narrow Frame Fixed Breaker (Optional Front Mount Terminals) ....................................................................................745-6 800-1600A Standard Frame Fixed Breaker (Overall Dimensions and Mounting Locations)...........................................................755-7 800-1600A Standard Frame Fixed Breaker (Door Cutout and Vertical Terminals)............................................................................765-8 800-1600A Standard Frame Fixed Breaker (Enclosure and Horizontal Terminals)...........................................................................775-9 800-1600A Standard Frame Fixed Breaker (Optional Front Mount Terminals)..................................................................................785-10 2000A Standard Frame Fixed Breaker (Overall Dimensions and Mounting Locations) ..................................................................795-11 2000A Standard Frame Fixed Breaker (Door Cutout and Vertical Terminals) ...................................................................................805-12 2000A Standard Frame Fixed Breaker (Enclosure and Horizontal Terminals) ..................................................................................815-13 2000A Standard Frame Fixed Breaker (Optional Front Mount Terminals) .........................................................................................825-14 2500-3200A Standard Frame Fixed Breaker (Overall Dimensions and Mounting Locations).........................................................835-15 2500-3200A Standard Frame Fixed Breaker (Door Cutout and Vertical Terminals)..........................................................................845-16 2500-3200A Standard Frame Fixed Breaker (Enclosure and Horizontal Terminals).........................................................................855-17 2500-3200A Standard Frame Fixed Breaker (Optional Front Mount Terminals)................................................................................865-18 4000-5000A Double-Wide Frame Fixed Breaker (Overall Dimensions and Mounting Locations) .................................................875-19 4000-5000A Double-Wide Frame Fixed Breaker (Door Cutout and Vertical Terminals) ..................................................................885-20 4000-5000A Double-Wide Frame Fixed Breaker (Enclosure and Horizontal Terminals) .................................................................89
SECTION 6: MDSL CURRENT LIMITER CURVES
6-1 Average Melting Time-Current Characteristic Curves..........................................................................................................................916-2 Peak Let Through Current Characteristic Curves..................................................................................................................................92
Engineering DataPage 4 Effective: January 2005
T.D. 01301004E
Reference # Product Description For Use with or Installation of:
Breaker Instruction Books
2C12060H06 Magnum DS/DSL Fixed/Drawout Power Circuit Breakers (ANSI) Instructions for Installation, Operation and Maintenance
Trip Unit Instruction Leaflets
70C1036H03 Digitrip Models 1150 & 1150i Trip Units (includes 1150P) 2A11799G40 - G44
70C1037H04 Digitrip Models 220, 220+, 520, 520i, 520M, 520Mi, 520MC & 520MCi Trip Units 2A11799G01 - G33
70C1080H02 Ground Fault Alarm/Power Supply Modules into Digitrip 520M 7802C83G01/G02
Breaker Accessories & Option Kits
2C14766H01 Breaker Auxiliary Switch Field Option Kit 2A11796
2C14761H01 Breaker Spring Release Field Option Kit 2A11792
2C14762H01 Breaker Shunt Trip Field Option Kit 2A11791
2C14760H01 Breaker Under Voltage Release Field Option Kit 2A11793
2C12769H01 Latch Check Switch for use with Spring Release Field Option Kit 2C13797G01
2C12769H02 Latch Check Switch (accessible) Field Option Kit 2C13797G02
2C12895H01 Pushbutton Cover Field Option Kit 2C12890
2C13761H01 Breaker Kirk Key Interlock Provision Field Option Kit 2C12891G01
2C13763H01 Breaker Castell Key Interlock Provision Field Option Kit 2C12891G02
2C13760H01 Breaker Ronis Key Interlock Provision Field Option Kit 2C12891G03
2C13766H01 Breaker Pop-out Trip Indicator w/switches Field Option Kit 1B93491
2C13769H02 Breaker Motor Operator Merkle Korff Field Option Kit (New Type Motor) 2A11794G41 to G46
2C13769H01 Breaker Motor Operator Ryobi Field Option Kit (Old Type Motor) 2A11794G22 to G35
2C13795H03 Fixed Breaker Secondary Terminal Mounting Bracket Field Option Kit 2C13794
2C13820H01 Front Mounted Standard Terminal Field Option Kit 2A10820
2C14763H01 800-1600A Vertical Adapter Field Option Kit 2A11795G01, G11 & G41
2C14764H01 2000A Vertical Adapter Field Option Kit 2A11795G02,G12, & G42
2C14765H01 3000-3200A Vertical Adapter Field Option Kit 2A11795G48, G49, G53, G54, G56, & G58
2C12894H01 Door Escutcheon with Gasket Field Option Kit 2C12893
2C14767H01 Breaker Operations Counter Field Option Kit 2A10890
2C13764H01 Non-Auto Breaker Trip Unit Cover Field Option Kit 2A11797
Cassette Accessories & Option Kits
2C12093H01 3 Pole ANSI Cassette Shutters Field Option Kit 2C12998
2C12093H02 4 Pole ANSI Cassette Shutters Field Option Kit 2C12998
2C13860H01 Cassette Universal Bus Adapter Field Option Kit 2A10670
2C14691H01 Cassette Key Interlock Provision Field Option Kit 1B93091
2C14694H01 ANSI Cassette Cell Switch Field Option Kit 1B93090
2C14696H01 Cassette CT Shorting & Jumper Block Field Option Kit 1B93094
Miscellaneous Accessories
2C12766H01 Fixed Breaker 2-Way Cable Interlock Field Option Kit 2A11857G02, 2A11858G01
2C12767H01 Fixed Breaker 2-Way Rod Interlock Field Option Kit 2A11856G02, 2A11859G02
2C12768H01 Drawout Breaker 2-Way Rod Interlock Field Option Kit 2A11856G01, 2A11859G01
2C12860H01 Drawout Breaker 2-Way Cable Interlock Field Option Kit 2A11857G01, 2A11858
2C12861H01 Drawout Breaker MI31 3-Way Cable Interlock Field Option Kit 2A11857G03/G07, 2A11858
2C12862H01 Fixed Breaker MI31 3-Way Cable Interlock Field Option Kit 2A11857G04/G08, 2A11858
2C12863H01 Drawout Breaker MI32 3-Way Cable Interlock Field Option Kit 2A11857G05, 2A11858
2C12864H01 Fixed Breaker MI32 3-Way Cable Interlock Field Option Kit 2A11857G06, 2A11858
2C13790H01 Secondary Wiring Kit to 6 Point Termination Block Field Option Kit 1B93093
2C14695H01 6 Point Terminal Block Field Option Kit 1B93092
2C12896H01 Drawout Breaker 1100V Arc Hood Barrier Field Option Kit 2A10800G02
2C12896H02 Fixed Breaker 1100V Arc Hood Barrier Field Option Kit 2A10800G12
2C12898H01 Fixed Breaker Arc Hood Barrier Field Option Kit 2C12898
Engineering DataPage 5Effective: January 2005
T.D. 01301004E
Reference # Product Description For Use with or Installation of:
Renewal Parts Kits
2C12760H01 Breaker Stationary Contact Replacement Kit 2A10896
2C12761H01 Breaker Moving Contact Replacement Kit 2C12761
2C12762H01 Fixed Breaker Secondary Disconnect Block Replacement Kit 2A10899
2C12763H01 Fixed Breaker Terminal Block Replacement Kit 2A10854
2C12764H01 Breaker Accessory Tray Replacement Kit 2A10891
2C12866H01 Levering Mechanism Assembly Replacement Kit 2A10855
2C12867H01 Levering Door Mechanism Assembly Replacement Kit 2A10894
2C13762H01 Breaker Current Sensor & Rating Plug Replacement Kit 2A11798
2C12061H02 Hatchet Assembly Replacement Parts Kit 2A11855
2C12897H01 Drawout 2500-3200A Breaker Vertical Adapter Replacement Kit 2A11795G48-49, & G53-54
2C12899H01 Drawout Breaker Standard/Double Frame Rejection Bracket Replacement Kit 2A11893G01,G02
2C13767H01 Cassette Standard/Double Frame Rejection Bracket Replacement Kit 1B92695G01,G02, & G51
2C15860H01 Drawout Breaker Narrow Frame Rejection Bracket Replacement Kit 2A11893G92-G94
2C12865H01 Charging Handle Replacement Kit 2A10892
2A11851H10 Center Pull Handle Replacement Parts Kit 2A11851
Engineering DataPage 6 Effective: January 2005
T.D. 01301004E
Section 2: Connection Diagrams
The connection diagrams for all Magnum DS/DSLCircuit Breakers using Digitrip RMS trip units areshown in Figures 2-1 through 2-8.
Engineering DataPage 7Effective: January 2005
T.D. 01301004E
3
AC
AC
AC
AC
AC
AC
AC
AC
WH
TB
RN
WH
TB
RN
BR
NW
HT
BLA
CK
WH
ITE
BR
OW
N
B-2
8
B-2
9
MO
DU
LE
10:1
AC
TN
R/1
CS
C
CS
BR
/1
R/1
CS
A
1A
CT
C
10:1
10:1
AC
TB
1
1A
CT
A
10:1
(OP
T.)
(OP
T.)
SE
E N
OT
E 3
OS
T2_
CO
M
OS
T1_
CO
M
A-6
A-5
A-4
OT
S2_
MA
KE
OS
T2_
BR
EA
K
OT
S2
OT
S1
SE
E N
OT
E 2
BLA
CK
+
SE
E N
OT
E 1
#22
AW
G
GF
_SG
ND
ZO
NE
_OU
T
ZO
NE
_IN
ZO
NE
_CO
M
52b
LOA
D
LIN
E
N
J2-1
J2-2
J2-3
J2-4
J2-5
J2-6
SU
PP
LIE
D)
J1-1
J1-2
J1-3
NC
LL
BA
L
B-4
B-5
NE
UT
RA
L2
NE
UT
RA
L1
R/1
B-6
B-9
B-7
B-8
CO
IL C
HIG
H IN
ST
.
HIG
H IN
ST
.
CO
IL B
CO
IL A
HIG
H IN
ST
.
24 O
HM
(WH
EN
MO
DU
LE
TR
IP
INS
T.
HIG
H
TA
K1-
8A
2
K1-
9A
1
K1-
6B
2
K1-
7B
1
K1-
4C
2
K1-
5C
1
K1-
3S
T-
K1-
2S
T1
K1-
1D
GN
D
220/
520/
520M
/520
MC
DIG
ITR
IP
PLU
G
RA
TIN
G
OS
T1_
BR
EA
K
OS
T1_
MA
KE
A-1
A-2
A-3
B-1
0
A-8
UV
RA
-7
A-1
5
A-1
4
A-1
1
A-1
0
(OP
TIO
NA
L 52
0M,
PO
WE
R S
UP
PLY
GR
OU
ND
ALA
RM
J3-3
J3-2
J3-1
J4-2
J4-1
J4-4
J4-3
AT
R V
_CO
M
AT
R_V
OLT
AT
R_A
LAR
M
AT
R_R
EL_
CO
M
N2
N1
GF
_SG
ND
G_A
LAR
M
Z_O
UT
Z_I
N
+30
VD
C IN
PU
T (
520M
OR
520
MC
ON
LY)
Z_C
OM
BR
KC
LSD
K2-
8
K2-
9
K2-
7
K2-
6
K2-
5
K2-
4
K2-
3
K2-
2
K2-
1
ST
B-1
1
UV
R
UV
R
ST
ST
B-3
0
G_A
LAR
M
OU
TP
UT
-
OU
TP
UT
+
G_A
LM 2
MC
R
52a
G_A
LM 1
21
H2
X2
X1
J1-4
1 1 1
(OP
T.)
(WH
EN
RE
Q.)
BR
IDG
E R
EC
TIF
IER R
ES
IST
OR
(WH
EN
RE
Q.)
DO
OR
SW
ITC
HLE
V-I
NS
WIT
CH
MO
TO
R C
UT
-OF
F
(WH
EN
RE
Q.)
A-1
6
MO
TO
R+
MO
TO
R-
ELE
CT
RIC
OP
ER
AT
OR
MO
TO
R
SC
B-1
5
B-1
4
SR
CLO
SE
CO
NT
AC
T
CLO
SE
CO
IL
B-1
2
B-1
3
A-2
4
A-2
5
A-2
6
A-2
3
A-2
1
A-2
2
A-2
0
A-1
9
52b
52a
B-1
9
B-1
6
B-1
8
B-1
7
A-3
0
A-2
9
A-2
8
A-2
7
52b
52a
B-2
4
B-2
7
B-2
6
B-2
5
B-2
3
B-2
2
B-2
1
B-2
052
a
52b
B-2
B-1
RE
QU
IRE
D 5
20M
C)
LCS
_BR
EA
K
LCS
_MA
KE
LCS
_CO
M
INC
OM
N
INC
OM
P
GR
EE
NR
ED
(CO
M)
(N/O
)1
3
SE
E N
OT
E 1
1
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LF
IRS
TIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LS
EC
ON
DIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LT
HIR
DIN
ST
ALL
ED
)
INC
OM
WIR
ING
FO
R D
IGIT
RIP
520
MC
ON
LY.
I1-2
NO
T A
VA
ILA
BLE
ON
NA
RR
OW
FR
AM
E
SE
E N
OT
E 1
1
I1-1
OP
TIO
NA
LLA
TC
HC
HE
CK
SW
ITC
H
SE
E N
OT
E 1
2
SE
E N
OT
E 8
SE
E N
OT
E 1
0
SE
E N
OT
E 3
SE
E N
OT
E 1
1
SE
E N
OT
E 1
3S
EE
NO
TE
12
SE
E N
OT
E 1
4
(OP
TIO
NA
L)S
R-L
CS
1
PC
BS
EE
NO
TE
5
NO
TE
S:
1. 4
WIR
E C
RIM
P C
ON
NE
CT
ION
.2.
3 W
IRE
CR
IMP
IF H
IGH
INS
T T
RIP
MO
DU
LE IS
SU
PP
LIE
D.
3. S
OC
KE
T U
SE
D W
ITH
DIG
ITR
IP 5
20M
GR
OU
ND
ALA
RM
PO
WE
R S
UP
PLY
MO
DU
LE W
ILL
"HA
NG
UN
CO
NN
EC
TE
D"
IFD
IGIT
RIP
220
OR
520
IS S
UP
PLI
ED
.4.
ALL
CO
NT
AC
TS
SH
OW
N W
ITH
BR
EA
KE
R IN
OP
EN
PO
SIT
ION
AN
D W
ITH
SP
RIN
G N
OT
CH
AR
GE
D A
ND
WIT
H T
RIP
UN
IT IN
"N
ON
-TR
IPP
ED
" S
TA
TE
(O
TS
SW
ITC
HE
S).
5. T
HE
SP
RIN
G R
ELE
AS
E A
CC
ES
SO
RY
CO
NS
IST
S O
F A
"S
R"
CO
ILA
ND
A P
.C. B
OA
RD
. TH
E P
RIN
TE
D C
IRC
UIT
PR
OV
IDE
S A
0.2
0S
EC
ON
D P
ULS
E F
OR
TH
E C
LOS
ING
OP
ER
AT
ION
. VO
LTA
GE
MU
ST
BE
RE
MO
VE
D A
ND
TH
EN
RE
AP
PLI
ED
FO
R S
UB
SE
QU
EN
TO
PE
RA
TIO
N.
AN
OP
TIO
NA
L LA
TC
H C
HE
CK
SW
ITC
H (
LCS
) A
CC
ES
SO
RY
MA
YB
E C
ON
NE
CT
ED
TO
TH
E S
PR
ING
RE
LEA
SE
. TH
E (
CLO
SE
D)
LCS
DE
LAY
S T
HE
SP
RIN
G R
ELE
AS
E P
ULS
E U
NT
IL T
HE
BR
EA
KE
RM
EC
HA
NIS
M IS
RE
AD
Y T
O C
LOS
E (
CH
AR
GE
D A
ND
RE
SE
T).
(TH
IS W
ILL
INS
UR
E T
HA
T T
HE
LA
TC
H W
ILL
ALW
AY
S B
E IN
TH
EP
RO
PE
R S
TA
TE
BE
FO
RE
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
ISIN
ITIA
TE
D.)
IF V
OLT
AG
E IS
MA
INT
AIN
ED
TO
TH
E S
PR
ING
RE
LEA
SE
, TH
E C
LOS
ING
PU
LSE
WIL
L O
CC
UR
WH
EN
TH
EM
EC
HA
NIS
M IS
CH
AR
GE
D A
ND
RE
SE
T (
LCS
OP
EN
). V
OLT
AG
EM
US
T B
E R
EM
OV
ED
AN
D R
E-A
PP
LIE
D T
O T
HE
SP
RIN
G R
ELE
AS
EF
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.6.
TO
PR
OV
IDE
SE
LEC
TE
D T
IME
DE
LAY
S F
OR
SH
OR
T T
IME
AN
D/O
R G
RO
UN
D T
IME
FU
NC
TIO
NS
FO
R T
ES
TIN
G O
RN
ON
-ZO
NE
INT
ER
LOC
KIN
G A
PP
LIC
AT
ION
S, A
JU
MP
ER
FR
OM
B-8
TO
B-9
IS R
EQ
UIR
ED
.7.
ON
TH
RE
E P
OLE
BR
EA
KE
RS
ON
LY, H
AV
ING
GR
OU
ND
FA
ULT
FU
NC
TIO
NA
LIT
Y, A
JU
MP
ER
INS
TA
LLE
D F
RO
M B
-6 T
O B
-7W
ILL
EN
AB
LE S
OU
RC
E G
RO
UN
D F
AU
LT S
EN
SIN
G A
ND
DIS
AB
LER
ES
IDU
AL
GR
OU
ND
FA
ULT
SE
NS
ING
. IN
PU
TS
B-4
AN
D B
-5W
ILL
BE
RE
AS
SIG
NE
D F
OR
SO
UR
CE
GR
OU
ND
SE
NS
OR
INP
UT
S.
8. T
HIS
LE
AD
SU
PP
LIE
D O
N G
62 S
TY
LE H
IGH
INS
TA
NT
AN
EO
US
TR
IP M
OD
ULE
ON
LY.
9. M
OT
OR
OP
ER
AT
OR
SW
ITC
H S
HO
WN
WIT
H B
RE
AK
ER
CLO
SIN
GS
PR
ING
DIS
CH
AR
GE
D.
10. O
N 4
PO
LE B
RE
AK
ER
S, T
HE
NE
UT
RA
L C
UR
RE
NT
SE
NS
OR
IST
HE
SA
ME
ST
YLE
AN
D W
IRE
D T
HE
SA
ME
AS
TH
E P
HA
SE
SE
NS
OR
S A
ND
IS L
OC
AT
ED
WIT
HIN
TH
E B
RE
AK
ER
FR
AM
E. T
HE
SE
CO
ND
AR
Y C
ON
TA
CT
S B
-4, B
-5, A
RE
NO
T W
IRE
D O
UT
.11
. SE
CO
ND
SH
UN
T T
RIP
MA
Y B
E IN
ST
ALL
ED
(U
SIN
G A
-7,A
-8C
ON
TA
CT
S)
IN P
LAC
E O
F U
VR
. TH
IRD
AU
X S
WIT
CH
NO
TA
VA
ILA
BLE
WIT
H S
EC
ON
D S
HU
NT
TR
IP.
12. O
NLY
ON
E L
AT
CH
CH
EC
K S
WIT
CH
MA
Y B
E IN
ST
ALL
ED
.U
SE
OF
CU
ST
OM
ER
-AC
CE
SS
IBLE
LA
TC
H C
HE
CK
SW
ITC
H(B
-28,
B-2
9,B
-30)
IN S
ER
IES
WIT
H S
PR
ING
RE
LEA
SE
DE
FE
AT
SA
NT
I-P
UM
P F
UN
CT
ION
AN
D IS
NO
T R
EC
OM
ME
ND
ED
. SE
EN
OT
E 5
FO
R S
PR
ING
RE
LEA
SE
LA
TC
H C
HE
CK
SW
ITC
H.
13. T
HE
SE
CO
NT
AC
TS
AR
E P
RO
VID
ED
FO
R D
IGIT
RIP
520
MC
AS
ST
AN
DA
RD
OR
520
M A
S O
PT
ION
AL
AC
CE
SS
OR
Y. T
HE
CO
NT
AC
TS
AR
E A
SS
IGN
ED
FO
R G
RO
UN
D A
LAR
M O
N G
RO
UN
DT
RIP
FU
NC
TIO
N F
OR
LS
IG T
RIP
ST
YLE
. HO
WE
VE
R, F
OR
A L
SI
ST
YLE
TR
IP U
NIT
, TH
E C
ON
TA
CT
S A
RE
AS
SIG
NE
D A
S A
HIG
HLO
AD
ALA
RM
.14
. TH
E O
TS
(O
VE
RC
UR
RE
NT
TR
IP S
WIT
CH
ES
) W
ILL
OP
ER
AT
ED
IRE
CT
LY F
RO
M T
HE
DIG
ITR
IP D
RIV
ING
TH
E T
A (
TR
IP A
CT
UA
TO
R)
TO
TR
IP T
HE
CIR
CU
IT B
RE
AK
ER
. TH
E O
TS
RE
QU
IRE
S A
MA
NU
AL
LOC
AL
RE
SE
T V
IA R
ED
BU
TT
ON
DE
PR
ES
SIO
N.
Figure 2-1 Connection Diagram for Narrow and Standard Frame with Digitrip 220/520/520M/520MC
Engineering DataPage 8 Effective: January 2005
T.D. 01301004E
4
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LS
EC
ON
DIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LT
HIR
DIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LF
IRS
TIN
ST
ALL
ED
)
DIE
LEC
TR
IC D
ISC
ON
NE
CT
PLU
G(M
OU
NT
ED
ON
LE
FT
SID
E O
F B
RE
AK
ER
)
LIN
E S
IDE
(S
TA
ND
AR
D)
CO
NN
EC
TIO
NS
HO
WN
. LO
AD
-SID
E (
ALT
ER
NA
TE
)C
ON
NE
CT
ION
ALS
O A
VA
ILA
BLE
. SE
EB
RE
AK
ER
MA
RK
ING
S.
SE
E N
OT
E 1
3
SE
E N
OT
E 1
3
OP
TIO
NA
LLA
TC
HC
HE
CK
SW
ITC
H
SE
E N
OT
E 9
SE
E N
OT
E 1
4
SE
E N
OT
E 1
1
SE
E N
OT
E 4
SE
E N
OT
E 5
SE
E N
OT
E 1
SE
E N
OT
E 1
3
AC
AC
AC
AC
PC
B
SE
EN
OT
E3
SE
E N
OT
E 1
5
AC
AC
SE
E N
OT
E 1
0
SR
-LC
S
SE
E N
OT
E 1
4
(OP
TIO
NA
L)
SE
E N
OT
E 1
2
1
K2-
1
K2-
2
K2-
3
K2-
4
K2-
5
K2-
6
K2-
7
K2-
9
K2-
8
Z_C
OM
Z_I
N
Z_O
UT
GF
_SG
ND
/OF
F
N1
N2
J5-1
0
J5-9
J5-7
1150
PO
WE
R R
ELA
YM
OD
ULE
A-1
3
B-1
2
A-7
UV
R
B-1
1
A-8
ST
B-1
0
B-1
4
B-1
5
SC
A-6
A-5
A-4
A-1
7
A-1
8
RA
TIN
G
PLU
G
DIG
ITR
IP 1
150
DG
ND
K1-
1
ST
1K
1-2
ST
-K
1-3
C1
K1-
5
C2
K1-
4
B1
K1-
7
B2
K1-
6
A1
K1-
9
A2
K1-
8
HIG
H
INS
T.
TR
IP
MO
DU
LE
(WH
EN
HIG
H IN
ST
.
CO
IL A
CO
IL B
HIG
H IN
ST
.
HIG
H IN
ST
.
CO
IL C
R/1
CS
C
CS
BR
/1
R/1
CS
A
1
B-8
B-7
B-9
B-6
R/1
NE
UT
RA
L1
NE
UT
RA
L2
B-5
B-4
LA
BL
LC
N
SU
PP
LIE
D)
J0-1
3
J0-3
6
J0-6
J0-5
J0-3
4
J0-4
J0-3
24 O
HM
TA
J0-1
6
J0-3
9
J0-3
8
J0-1
5
J0-1
4
J0-3
7
J0-4
1
J0-1
8
J0-1
7
J0-4
0
J0-4
3
J0-2
0
J0-1
9
J0-4
2
J0-4
5
J0-2
2
J0-2
1
J0-4
4
I1-1
I1-2
B-1
B-2
INC
OM
N
INC
OM
P
I1-3
I1-4
I1-6
I1-5
LC B
L LA
52b
MC
R
J0-2
5
J0-2
6
J0-1
2
J0-2
9
NN
PO
W
A B
US
2
A B
US
1
B-3
K4-
3
K4-
2
K4-
1
J5-5
A-9
J5-4
J5-3
J5-2
J5-1
A-1
0
A-1
4
A-1
5
(OP
T.)
J0-8
J0-7
J0-1
J0-3
5
J0-4
7
SE
T_L
AT
K5-
7
K5-
6
K5-
3
K5-
5
RE
SE
T_L
AT
J0-2
4
K5-
1
DA
LM
K5-
4LO
_ALM
J0-2
3K
5-2
J0-4
6
CC
_DR
V
INT
ER
FA
CE
BO
AR
D
INC
OM
CO
NN
EC
TO
R
J0-3
2
J0-3
3
J0-3
1
J0-3
0
J0-1
0
J0-1
1
J0-2
8
J0-2
7
J0-9
J0-2
MO
TO
R
ELE
CT
RIC
OP
ER
AT
OR
J2-6
J2-5
J2-4
J2-3
J2-2
J2-1
J1-1
J1-2
J1-3
N
Vc
Vb
Va
1
1
10:1
10:1
10:1
AC
TC
AC
TB
AC
TA
AC
TN
10:1
BR
OW
N
LIN
E
LOA
D
GF
_SG
ND
ZO
NE
_OU
T
ZO
NE
_IN
ZO
NE
_CO
M
WH
ITE
(OP
T.)
OT
S1_
BR
EA
K
OT
S1_
MA
KE
A-1
A-2
A-3
OT
S1
OT
S2
BR
NW
HT
RE
D
PT
MO
DU
LE
+BLA
CK
OT
S1_
CO
M
OT
S2_
BR
EA
K
OT
S2_
CO
M
OT
S2_
MA
KE
UV
R
UV
R
B-2
9
B-2
8
B-3
0
BLA
CK
MO
TO
R-
MO
TO
R+
NP
OW
A B
US
A B
US
OU
TP
UT
+
OU
TP
UT
-
SR
A-1
1
INC
OM
CLO
SE
AT
R_L
AT
CH
AT
R_R
EL_
CO
M
AT
R_A
LAR
M
AT
R_V
OLT
AG
E
AT
R_V
_CO
M
K1
K4s
K4rK3
K2
ST
ST
P2-
252
aP
2-1
A-1
6
(WH
EN
RE
Q.)
CC
1
CC
2
L02
P1-
1
J9-3
J9-2
J9-1
J8 J7 J6
P3-
3
P3-
2
P3-
1
P3-
6
P3-
5
P3-
4
H2
X2
X1
SE
E N
OT
E 7
SE
E N
OT
E 8
SE
E N
OT
E 6
MO
TO
R C
UT
-OF
FS
WIT
CH
LEV
-IN
DO
OR
SW
ITC
H(W
HE
N R
EQ
.)
RE
SIS
TO
R
BR
IDG
E R
EC
TIF
IER
(WH
EN
RE
Q.)(O
PT
.)
J1-4
1 1 1
J5-6
(1)
(3)
(4)
J5-8
B-2
2B
-26
B-2
7
B-1
7
B-1
8
B-1
6
B-1
9
A-2
3
A-2
6
A-2
5
A-2
4
A-2
2
A-2
1
A-1
9
A-2
0
A-2
8
A-2
9
A-3
0
B-2
3
A-2
7
52b
52a
52a
52b
52b
B-2
5
B-2
4B
-20
B-2
152
a
SR
B-1
3S
R
LCS
_MA
KE
LCS
_CO
M
LCS
_BR
EA
K
RE
DG
RE
EN
13
(CO
M)
(N/O
)
NO
T U
SE
D
NO
TE
S:
1. 3
WIR
E C
RIM
P IF
HIG
H IN
ST
TR
IP M
OD
ULE
IS S
UP
PLI
ED
.2.
ALL
CO
NT
AC
TS
SH
OW
N W
ITH
BR
EA
KE
R IN
OP
EN
PO
SIT
ION
AN
D W
ITH
TR
IP U
NIT
IN "
NO
N-T
RIP
PE
D"
ST
AT
E (
OT
S S
WIT
CH
ES
) A
ND
SP
RIN
G N
OT
CH
AR
GE
D.
3. T
HE
SP
RIN
G R
ELE
AS
E A
CC
ES
SO
RY
CO
NS
IST
S O
F A
"S
R"
CO
IL A
ND
A P
.C. B
OA
RD
. TH
E P
RIN
TE
D C
IRC
UIT
PR
OV
IDE
SA
0.2
0 S
EC
ON
D P
ULS
E F
OR
TH
E C
LOS
ING
OP
ER
AT
ION
.V
OLT
AG
E M
US
T B
E R
EM
OV
ED
AN
D T
HE
N R
EA
PP
LIE
D F
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.
AN
OP
TIO
NA
L S
R-L
AT
CH
CH
EC
K S
WIT
CH
(LC
S)
AC
CE
SS
OR
YM
AY
BE
CO
NN
EC
TE
D T
O T
HE
SP
RIN
G R
ELE
AS
E. T
HE
(C
LOS
ED
)LC
S D
ELA
YS
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
UN
TIL
TH
E B
RE
AK
ER
ME
CH
AN
ISM
IS R
EA
DY
TO
CLO
SE
(C
HA
RG
ED
AN
D R
ES
ET
).(T
HIS
WIL
L IN
SU
RE
TH
AT
TH
E L
AT
CH
WIL
L A
LWA
YS
BE
IN T
HE
PR
OP
ER
ST
AT
E B
EF
OR
E T
HE
SP
RIN
G R
ELE
AS
E P
ULS
E IS
INIT
IAT
ED
.) IF
VO
LTA
GE
IS M
AIN
TA
INE
D T
O T
HE
SP
RIN
G R
ELE
AS
E,
TH
E C
LOS
ING
PU
LSE
WIL
L O
CC
UR
WH
EN
TH
E M
EC
HA
NIS
M IS
CH
AR
GE
D A
ND
RE
SE
T (
LCS
OP
EN
). V
OLT
AG
E M
US
T B
ER
EM
OV
ED
AN
D R
E-A
PP
LIE
D T
O T
HE
SP
RIN
G R
ELE
AS
E F
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.4.
TO
PR
OV
IDE
SE
LEC
TE
D T
IME
DE
LAY
S F
OR
SH
OR
T T
IME
AN
D/O
R G
RO
UN
D T
IME
FU
NC
TIO
NS
FO
R T
ES
TIN
G O
RN
ON
-ZO
NE
INT
ER
LOC
KIN
G A
PP
LIC
AT
ION
S A
JU
MP
ER
FR
OM
B-8
TO
B-9
IS R
EQ
UIR
ED
.5.
ON
TH
RE
E P
OLE
BR
EA
KE
RS
ON
LY, H
AV
ING
GR
OU
ND
FA
ULT
FU
NC
TIO
NA
LIT
Y, A
JU
MP
ER
INS
TA
LLE
D F
RO
M B
-6 T
O B
-7W
ILL
EN
AB
LE S
OU
RC
E G
RO
UN
D F
AU
LT S
EN
SIN
G A
ND
DIS
AB
LER
ES
IDU
AL
GR
OU
ND
FA
ULT
SE
NS
ING
. IN
PU
TS
B-4
AN
D B
-5W
ILL
BE
RE
AS
SIG
NE
D F
OR
SO
UR
CE
GR
OU
ND
SE
NS
OR
INP
UT
S.
6. N
OR
MA
LLY
OP
EN
CO
NT
AC
T P
RO
GR
AM
ME
D A
S R
ELA
Y A
,V
IA D
IGIT
RIP
FR
ON
T P
AN
EL.
(A
LAR
M C
ON
TA
CT
)7.
NO
RM
ALL
Y C
LOS
ED
CO
NT
AC
T P
RO
GR
AM
ME
D A
S R
ELA
Y B
,V
IA D
IGIT
RIP
FR
ON
T P
AN
EL.
(B
LOC
K C
LOS
E C
ON
TA
CT
)8.
NO
RM
ALL
Y O
PE
N C
ON
TA
CT
PR
OG
RA
MM
ED
AS
RE
LAY
C,
VIA
DIG
ITR
IP F
RO
NT
PA
NE
L. (
LAT
CH
ING
CO
NT
AC
T)
9. T
HIS
LE
AD
SU
PP
LIE
D O
N G
62 S
TY
LE H
IGH
INS
TA
NT
AN
EO
US
TR
IP M
OD
ULE
ON
LY.
10. M
OT
OR
OP
ER
AT
OR
SW
ITC
H S
HO
WN
WIT
H C
LOS
ING
SP
RIN
GD
ISC
HA
RG
ED
.11
. ON
4 P
OLE
BR
EA
KE
RS
, TH
E N
EU
TR
AL
CU
RR
EN
T S
EN
SO
R IS
TH
E S
AM
E S
TY
LE A
ND
WIR
ED
TH
E S
AM
E A
S T
HE
PH
AS
ES
EN
SO
R A
ND
AR
E L
OC
AT
ED
WIT
HIN
TH
E B
RE
AK
ER
FR
AM
E.
TH
E S
EC
ON
DA
RY
CO
NT
AC
TS
B-4
, B-5
AR
E N
OT
WIR
ED
OU
T.
12. F
OU
R P
OIN
T S
OC
KE
T U
SE
D H
ER
E.
13. S
EC
ON
D S
HU
NT
TR
IP M
AY
BE
INS
TA
LLE
D (
US
ING
A-7
,A-8
CO
NT
AC
TS
) IN
PLA
CE
OF
UV
R. T
HIR
D A
UX
SW
ITC
H N
OT
AV
AIL
AB
LE W
ITH
SE
CO
ND
SH
UN
T T
RIP
.14
. ON
LY O
NE
LA
TC
H C
HE
CK
SW
ITC
H M
AY
BE
INS
TA
LLE
D.
US
E O
F C
US
TO
ME
R-A
CC
ES
SIB
LE L
AT
CH
CH
EC
K S
WIT
CH
(B-2
9,B
-30)
IN S
ER
IES
WIT
H S
PR
ING
RE
LEA
SE
DE
FE
AT
SA
NT
I-P
UM
P F
UN
CT
ION
AN
D IS
NO
T R
EC
OM
ME
ND
ED
. SE
EN
OT
E 3
FO
R S
PR
ING
RE
LEA
SE
LA
TC
H C
HE
CK
SW
ITC
H.
15. T
HE
OT
S (
OV
ER
CU
RR
EN
T T
RIP
SW
ITC
HE
S)
WIL
L O
PE
RA
TE
DIR
EC
TLY
FR
OM
TH
E D
IGIT
RIP
DR
IVIN
G T
HE
TA
(T
RIP
AC
TU
AT
OR
) T
O T
RIP
TH
E C
IRC
UIT
BR
EA
KE
R. T
HE
OT
SR
EQ
UIR
ES
A M
AN
UA
L LO
CA
L R
ES
ET
VIA
RE
D B
UT
TO
ND
EP
RE
SS
ION
.
SE
E N
OT
E 1
6
16. J
UM
PE
RIN
G B
-3 (
NP
OW
) T
O B
-7 T
ER
MIN
AL
WIL
L E
LIM
INA
TE
RE
VE
RS
E P
OW
ER
CO
ND
ITIO
N.
Figure 2-2 Connection Diagram for Standard Frame with Digitrip 1150
Engineering DataPage 9Effective: January 2005
T.D. 01301004E
5
I1-1
SE
E N
OT
E 1
2
OP
TIO
NA
LLA
TC
HC
HE
CK
SW
ITC
H
INC
OM
WIR
ING
FO
R D
IGIT
RIP
520
MC
ON
LY.
I1-2
SE
E N
OT
E 1
2
SE
E N
OT
E 8
SE
E N
OT
E 2
WH
ITE
WH
ITE
WH
ITE
WH
ITE
WH
ITE
WH
ITE
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LT
HIR
DIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LS
EC
ON
DIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LF
IRS
TIN
ST
ALL
ED
)
AC
AC
AC
AC
SE
E N
OT
E 1
4
SE
E N
OT
E 5
(OP
TIO
NA
L)S
R-L
CS
AC
AC
1
PC
B
AC
AC
BLA
CK
WH
ITE
BR
OW
N
MO
DU
LE
20:1
AC
TN
R/1
CS
C
CS
BR
/1
R/1
CS
A
1A
CT
C
20:1
20:1
AC
TB
1
1A
CT
A
20:1
(OP
T.)
(OP
T.)
SE
E N
OT
E 3
OS
T2_
CO
M
OS
T1_
CO
M
A-6
A-5
A-4
OT
S2_
MA
KE
OS
T2_
BR
EA
K
OT
S2
OT
S1
BLA
CK
+
SE
E N
OT
E 1
#22
AW
G
GF
_SG
ND
ZO
NE
_OU
T
ZO
NE
_IN
ZO
NE
_CO
M
52b
LOA
D
LIN
E
N
C2
LL
B2
A2
L
B-4
B-5
NE
UT
RA
L2
NE
UT
RA
L1
R/1
B-6
B-9
B-7
B-8
24 O
HM
TA
K1-
8A
2
K1-
9A
1
K1-
6B
2
K1-
7B
1
K1-
4C
2
K1-
5C
1
K1-
3S
T-
K1-
2S
T1
DG
ND
520/
520M
/520
MC
DIG
ITR
IP
PLU
G
RA
TIN
G
OS
T1_
BR
EA
K
OS
T1_
MA
KE
A-1
A-2
A-3
B-1
0
A-8
UV
RA
-7
A-1
5
A-1
4
A-1
1
A-1
0
(OP
TIO
NA
L 52
0M,
PO
WE
R S
UP
PLY
GR
OU
ND
ALA
RM
J3-3
J3-2
J3-1
J4-2
J4-1
J4-4
J4-3
AT
R V
_CO
M
AT
R_V
OLT
AT
R_A
LAR
M
AT
R_R
EL_
CO
M
N2
N1
GF
_SG
ND
G_A
LAR
M
Z_O
UT
Z_I
N
+30
VD
C IN
PU
T (
520M
& 5
20M
C O
NLY
)
Z_C
OM
BR
KC
LSD
K2-
8
K2-
9
K2-
7
K2-
6
K2-
5
K2-
4
K2-
3
K2-
2
K2-
1
ST
B-1
1
UV
R
UV
R
ST
ST
G_A
LAR
M
OU
TP
UT
-
OU
TP
UT
+
G_A
LM 2
MC
R
52a
G_A
LM 1
21
H2
X2
X1
LB
1C
1L
A1
L
CS
AR
/1
R/1
CS
B
CS
CR
/1
1
1
1
X1
X2
H2
R/1
N
BR
OW
NW
HIT
E
N2
N1
HIC
HIC
HIC
HIC
HIC
HIC
C1
C2
B1
B2
A2
A1
HIG
H
INS
T.
MO
DU
LE
(WH
EN
SU
PP
LIE
D)
J2-6
J2-5
J2-4
J2-3
J2-2
J2-1
J1-1
J1-2
J1-3
J1-4
1 1 1 1 1 1
1 1 1
K1-
1
B-3
0
B-2
8
B-2
9
B-2
1B
-25
A-2
2A
-26
52b
52a
52b
52a
52b
A-2
1
A-1
9
A-2
0
A-2
5
A-2
3
A-2
4
A-2
9
A-3
0
B-1
8
B-1
9
A-2
8
A-2
7
B-1
7
B-1
6
B-2
3
B-2
2
B-2
7
B-2
6
52a
B-2
0B
-24
SR
CLO
SE
CO
NT
AC
T
CLO
SE
CO
IL
B-1
2
B-1
3
B-1
B-2
RE
QU
IRE
D 5
20M
C)
INC
OM
P
INC
OM
N
LCS
_CO
M
LCS
_BR
EA
K
LCS
_MA
KE
SE
E N
OT
E 1
3
GR
EE
NR
ED
13
(CO
M)
(N/O
)
(OP
T.)
(WH
EN
RE
Q.)
BR
IDG
E R
EC
TIF
IER R
ES
IST
OR
(WH
EN
RE
Q.)
DO
OR
SW
ITC
HLE
V-I
NS
WIT
CH
MO
TO
R C
UT
-OF
F
(WH
EN
RE
Q.)
A-1
6
MO
TO
R+
MO
TO
R-
ELE
CT
RIC
OP
ER
AT
OR
MO
TO
R
SC
B-1
5
B-1
4
NO
TE
S:
1. 4
WIR
E C
RIM
P C
ON
NE
CT
ION
.2.
3 W
IRE
CR
IMP
IF H
IGH
INS
T T
RIP
MO
DU
LE IS
SU
PP
LIE
D.
3. S
OC
KE
T U
SE
D W
ITH
DIG
ITR
IP 5
20M
GR
OU
ND
ALA
RM
PO
WE
R S
UP
PLY
MO
DU
LE W
ILL
"HA
NG
CU
NC
ON
NE
CT
ED
"IF
DIG
ITR
IP 2
20 O
R 5
20 IS
SU
PP
LIE
D.
4. A
LL C
ON
TA
CT
S S
HO
WN
WIT
H B
RE
AK
ER
IN O
PE
NP
OS
ITIO
N A
ND
WIT
H S
PR
ING
NO
T C
HA
RG
ED
AN
D W
ITH
TR
IP U
NIT
IN "
NO
N-T
RIP
PE
D"
ST
AT
E (
OT
S S
WIT
CH
ES
).5.
TH
E S
PR
ING
RE
LEA
SE
AC
CE
SS
OR
Y C
ON
SIS
TS
OF
A "
SR
"C
OIL
AN
D A
P.C
. BO
AR
D. T
HE
PR
INT
ED
CIR
CU
ITP
RO
VID
ES
A 0
.20
SE
CO
ND
PU
LSE
FO
R T
HE
CLO
SIN
GO
PE
RA
TIO
N. V
OLT
AG
E M
US
T B
E R
EM
OV
ED
AN
D T
HE
NR
EA
PP
LIE
D F
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.
AN
OP
TIO
NA
L S
R-L
AT
CH
CH
EC
K S
WIT
CH
(LC
S)
AC
CE
SS
OR
Y M
AY
BE
CO
NN
EC
TE
D T
O T
HE
SP
RIN
GR
ELE
AS
E. T
HE
(C
LOS
ED
) LC
S D
ELA
YS
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
UN
TIL
TH
E B
RE
AK
ER
ME
CH
AN
ISM
ISR
EA
DY
TO
CLO
SE
(C
HA
RG
ED
AN
D R
ES
ET
). (
TH
IS W
ILL
INS
UR
E T
HA
T T
HE
LA
TC
H W
ILL
ALW
AY
S B
E IN
TH
EP
RO
PE
R S
TA
TE
BE
FO
RE
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
IS IN
ITIA
TE
D.)
IF V
OLT
AG
E IS
MA
INT
AIN
ED
TO
TH
ES
PR
ING
RE
LEA
SE
, TH
E C
LOS
ING
PU
LSE
WIL
L O
CC
UR
WH
EN
TH
E M
EC
HA
NIS
M IS
CH
AR
GE
D A
ND
RE
SE
T(L
CS
OP
EN
). V
OLT
AG
E M
US
T B
E R
EM
OV
ED
AN
DR
E-A
PP
LIE
D T
O T
HE
SP
RIN
G R
ELE
AS
E F
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.6.
TO
PR
OV
IDE
SE
LEC
TE
D T
IME
DE
LAY
S F
OR
SH
OR
T T
IME
AN
D/O
R G
RO
UN
D T
IME
FU
NC
TIO
NS
FO
R T
ES
TIN
G O
RN
ON
-ZO
NE
INT
ER
LOC
KIN
G A
PP
LIC
AT
ION
S, A
JU
MP
ER
FR
OM
B-8
TO
B-9
IS R
EQ
UIR
ED
.7.
ON
TH
RE
E P
OLE
BR
EA
KE
RS
ON
LY, H
AV
ING
GR
OU
ND
FA
ULT
FU
NC
TIO
NA
LIT
Y, A
JU
MP
ER
INS
TA
LLE
D F
RO
MB
-6 T
O B
-7 W
ILL
EN
AB
LE S
OU
RC
E G
RO
UN
D F
AU
LTS
EN
SIN
G A
ND
DIS
AB
LE R
ES
IDU
AL
GR
OU
ND
FA
ULT
SE
NS
ING
. IN
PU
TS
B-4
AN
D B
-5 W
ILL
BE
RE
AS
SIG
NE
DF
OR
SO
UR
CE
GR
OU
ND
SE
NS
OR
INP
UT
S.
8. T
HIS
LE
AD
SU
PP
LIE
D O
N G
62 S
TY
LE H
IGH
INS
TA
NT
AN
EO
US
TR
IP M
OD
ULE
ON
LY.
9. M
OT
OR
OP
ER
AT
OR
SW
ITC
H S
HO
WN
WIT
H B
RE
AK
ER
CLO
SIN
G S
PR
ING
DIS
CH
AR
GE
D.
10. O
N 4
PO
LE B
RE
AK
ER
S, T
HE
NE
UT
RA
L C
UR
RE
NT
SE
NS
OR
IS T
HE
SA
ME
ST
YLE
AN
D W
IRE
D T
HE
SA
ME
AS
TH
EP
HA
SE
SE
NS
OR
S A
ND
IS L
OC
AT
ED
WIT
HIN
TH
E B
RE
AK
ER
FR
AM
E. T
HE
SE
CO
ND
AR
Y C
ON
TA
CT
S B
-4, B
-5, A
RE
NO
T W
IRE
D O
UT
.11
. SE
CO
ND
SH
UN
T T
RIP
MA
Y B
E IN
ST
ALL
ED
(U
SIN
G A
-7,A
-8C
ON
TA
CT
S)
IN P
LAC
E O
F U
VR
. TH
IRD
AU
X S
WIT
CH
NO
TA
VA
ILA
BLE
WIT
H S
EC
ON
D S
HU
NT
TR
IP.
12. O
NLY
ON
E L
AT
CH
CH
EC
K S
WIT
CH
MA
Y B
E IN
ST
ALL
ED
.U
SE
OF
CU
ST
OM
ER
-AC
CE
SS
IBLE
LA
TC
H C
HE
CK
SW
ITC
H(B
-29,
B-3
0) IN
SE
RIE
S W
ITH
SP
RIN
G R
ELE
AS
E D
EF
EA
TS
AN
TI-
PU
MP
FU
NC
TIO
N A
ND
IS N
OT
RE
CO
MM
EN
DE
D. S
EE
NO
TE
5 F
OR
SP
RIN
G R
ELE
AS
E L
AT
CH
CH
EC
K S
WIT
CH
.13
. TH
ES
E C
ON
TA
CT
S A
RE
PR
OV
IDE
D F
OR
DIG
ITR
IP 5
20M
C A
SS
TA
ND
AR
D 0
R 5
20M
AS
OP
TIO
NA
L A
CC
ES
SO
RY
. TH
EC
ON
TA
CT
S A
RE
AS
SIG
NE
D F
OR
GR
OU
ND
ALA
RM
ON
GR
OU
ND
TR
IP F
UN
CT
ION
S F
OR
LS
IG T
RIP
ST
YLE
. HO
WE
VE
R, F
OR
A L
SI
ST
YLE
TR
IP U
NIT
, TH
E C
ON
TA
CT
S A
RE
AS
SIG
NE
D A
S A
HIG
HLO
AD
ALA
RM
.14
. TH
E O
TS
(O
VE
RC
UR
RE
NT
TR
IP S
WIT
CH
ES
) W
ILL
OP
ER
AT
ED
IRE
CT
LY F
RO
M T
HE
DIG
ITR
IP D
RIV
ING
TH
E T
A (
TR
IPA
CT
UA
TO
R)
TO
TR
IP T
HE
CIR
CU
IT B
RE
AK
ER
. TH
E O
TS
RE
QU
IRE
S A
MA
NU
AL
LOC
AL
RE
SE
T V
IA R
ED
BU
TT
ON
DE
PR
ES
SIO
N.
Figure 2-3 Connection Diagram for Double-wide Frame with Digitrip 520/520M/520MC with ABCABC Configuration
Engineering DataPage 10 Effective: January 2005
T.D. 01301004E
6
I1-1
OP
TIO
NA
LLA
TC
HC
HE
CK
SW
ITC
H
SE
E N
OT
E 1
2
INC
OM
WIR
ING
FO
R D
IGIT
RIP
520
MC
ON
LY.
I1-2
SE
E N
OT
E 1
2
SE
E N
OT
E 1
0
SE
E N
OT
E 7
WH
ITE
WH
ITE
WH
ITE
WH
ITE
SE
E N
OT
E 8
WH
ITE
WH
ITE
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LT
HIR
DIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LS
EC
ON
DIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LF
IRS
TIN
ST
ALL
ED
)
AC
AC
SE
E N
OT
E 1
1
AC
AC
SE
E N
OT
E 9
SE
E N
OT
E 1
4SE
E N
OT
E 5
SR
-LC
S(O
PT
ION
AL)
AC
AC
1
PC
B
AC
AC
J1-4
J1-3
J1-2
J1-1
J2-1
J2-2
J2-3
J2-4
J2-5
J2-6
SU
PP
LIE
D)
(WH
EN
MO
DU
LE
INS
T.
HIG
H
A1
A2
B2
B1
C2
C1
HIC
HIC
HIC
HIC
HIC
HIC
1N
2N
N
R/1
H2
X2
X1
LA
1L
B1
A2
L
X1
X2
H2
12
52a
MC
R
B-3
0
ST
ST
UV
R
UV
R
B-1
1
ST
K2-
1
K2-
2
K2-
3
K2-
4
K2-
5
K2-
6
K2-
7
K2-
9
K2-
8
BR
KC
LSD
Z_C
OM
+30
VD
C IN
PU
T (
520M
& 5
20M
C O
NLY
)
Z_I
N
Z_O
UT
G_A
LAR
M
GF
_SG
ND
N1
N2
A-7
UV
R
A-8
B-1
0
A-3
A-2
A-1
OS
T1_
MA
KE
OS
T1_
BR
EA
K
RA
TIN
G
PLU
G
DIG
ITR
IP
520/
520M
/520
MC
ST
1K
1-2
ST
-K
1-3
TA
24 O
HM
B-8
B-7
B-9
B-6
R/1
NE
UT
RA
L1
NE
UT
RA
L2
B-5
B-4
LB
2C
1L
LC
2
N
LIN
E
LOA
D
52b
ZO
NE
_CO
M
ZO
NE
_IN
ZO
NE
_OU
T
GF
_SG
ND
#22
AW
GS
EE
NO
TE
1
+
BLA
CK
OT
S1
OT
S2
OS
T2_
BR
EA
K
OT
S2_
MA
KE
A-4
A-5
A-6
OS
T1_
CO
M
OS
T2_
CO
M
(OP
T.)
(OP
T.)
AC
TN
20:1
B-2
9
B-2
8
BR
OW
NW
HIT
EB
LAC
K
CS
A
CS
B
CS
C
WH
ITE
BR
OW
N
1
1
1
R/1
R/1
R/1
C1
K1-
5
C2
K1-
4
B1
K1-
7
B2
K1-
6
A1
K1-
9
A2
K1-
8
20:1
AC
TA
1
1A
CT
B
20:1
20:1
AC
TC
1
CS
AR
/1
R/1
CS
B
CS
CR
/1
1 1 1 1 1 1
111
K1-
1D
GN
D
G_A
LM 1
G_A
LM 2
OU
TP
UT
+
OU
TP
UT
-
G_A
LAR
M
J4-3
J4-1
J4-2
J4-4
J3-1
J3-2
J3-3
GR
OU
ND
ALA
RM
PO
WE
R S
UP
PLY
(OP
TIO
NA
L 52
0M,
MO
DU
LE
CLO
SE
CO
ILB
-13
AT
R_R
EL_
CO
M
AT
R_A
LAR
M
AT
R V
_CO
M
AT
R_V
OLT
A-1
4
A-1
5
A-1
1
A-1
0
CLO
SE
CO
NT
AC
TB
-12
SR
B-2
5
B-2
6
B-2
7
B-1
7
B-1
8
B-1
6
A-2
3
A-2
6
A-2
5
A-2
4
B-1
9
A-2
1
A-2
2
A-2
0
A-1
9
A-3
0
A-2
9
A-2
7
A-2
8
B-2
2
B-2
3
B-2
1
52b
52a
52b
52a
52b
52a
B-2
4B
-20
SE
E N
OT
E 3
B-1
B-2
RE
QU
IRE
D 5
20M
C)
GR
EE
NR
ED
(CO
M)
(N/O
)
13
SE
E N
OT
E 1
3
INC
OM
P
INC
OM
N
LCS
_BR
EA
K
LCS
_MA
KE
LCS
_CO
M
(OP
T.)
(WH
EN
RE
Q.)
BR
IDG
E R
EC
TIF
IER R
ES
IST
OR
(WH
EN
RE
Q.)
DO
OR
SW
ITC
HLE
V-I
NS
WIT
CH
MO
TO
R C
UT
-OF
F
(WH
EN
RE
Q.)
A-1
6
MO
TO
R+
MO
TO
R-
ELE
CT
RIC
OP
ER
AT
OR
MO
TO
R
SC
B-1
5
B-1
4
SE
E N
OT
E 1
1
NO
TE
S:
1. 4
WIR
E C
RIM
P C
ON
NE
CT
ION
.2.
3 W
IRE
CR
IMP
IF H
IGH
INS
T T
RIP
MO
DU
LE IS
SU
PP
LIE
D.
3. S
OC
KE
T U
SE
D W
ITH
DIG
ITR
IP 5
20M
GR
OU
ND
ALA
RM
PO
WE
R S
UP
PLY
MO
DU
LE W
ILL
"HA
NG
UN
CO
NN
EC
TE
D"
IF D
IGIT
RIP
220
OR
520
IS S
UP
PLI
ED
.4.
ALL
CO
NT
AC
TS
SH
OW
N W
ITH
BR
EA
KE
R IN
OP
EN
PO
SIT
ION
AN
D W
ITH
SP
RIN
G N
OT
CH
AR
GE
D A
ND
WIT
HT
RIP
UN
IT IN
"N
ON
-TR
IPP
ED
" S
TA
TE
(O
TS
SW
ITC
HE
S).
5. T
HE
SP
RIN
G R
ELE
AS
E A
CC
ES
SO
RY
CO
NS
IST
S O
F A
"S
R"
CO
IL A
ND
A P
.C. B
OA
RD
. TH
E P
RIN
TE
D C
IRC
UIT
PR
OV
IDE
S A
0.2
0 S
EC
ON
D P
ULS
E F
OR
TH
E C
LOS
ING
OP
ER
AT
ION
. VO
LTA
GE
MU
ST
BE
RE
MO
VE
D A
ND
TH
EN
RE
AP
PLI
ED
FO
R S
UB
SE
QU
EN
T O
PE
RA
TIO
N.
AN
OP
TIO
NA
L S
R-L
AT
CH
CH
EC
K S
WIT
CH
(LC
S)
AC
CE
SS
OR
Y M
AY
BE
CO
NN
EC
TE
D T
O T
HE
SP
RIN
GR
ELE
AS
E. T
HE
(C
LOS
ED
) LC
S D
ELA
YS
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
UN
TIL
TH
E B
RE
AK
ER
ME
CH
AN
ISM
ISR
EA
DY
TO
CLO
SE
(C
HA
RG
ED
AN
D R
ES
ET
). (
TH
IS W
ILL
INS
UR
E T
HA
T T
HE
LA
TC
H W
ILL
ALW
AY
S B
E IN
TH
EP
RO
PE
R S
TA
TE
BE
FO
RE
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
IS IN
ITIA
TE
D.)
IF V
OLT
AG
E IS
MA
INT
AIN
ED
TO
TH
ES
PR
ING
RE
LEA
SE
, TH
E C
LOS
ING
PU
LSE
WIL
L O
CC
UR
WH
EN
TH
E M
EC
HA
NIS
M IS
CH
AR
GE
D A
ND
RE
SE
T(L
CS
OP
EN
). V
OLT
AG
E M
US
T B
E R
EM
OV
ED
AN
DR
E-A
PP
LIE
D T
O T
HE
SP
RIN
G R
ELE
AS
E F
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.6.
TO
PR
OV
IDE
SE
LEC
TE
D T
IME
DE
LAY
S F
OR
SH
OR
T T
IME
AN
D/O
R G
RO
UN
D T
IME
FU
NC
TIO
NS
FO
R T
ES
TIN
G O
RN
ON
-ZO
NE
INT
ER
LOC
KIN
G A
PP
LIC
AT
ION
S, A
JU
MP
ER
FR
OM
B-8
TO
B-9
IS R
EQ
UIR
ED
.7.
ON
TH
RE
E P
OLE
BR
EA
KE
RS
ON
LY, H
AV
ING
GR
OU
ND
FA
ULT
FU
NC
TIO
NA
LIT
Y, A
JU
MP
ER
INS
TA
LLE
D F
RO
MB
-6 T
O B
-7 W
ILL
EN
AB
LE S
OU
RC
E G
RO
UN
D F
AU
LTS
EN
SIN
G A
ND
DIS
AB
LE R
ES
IDU
AL
GR
OU
ND
FA
ULT
SE
NS
ING
. IN
PU
TS
B-4
AN
D B
-5 W
ILL
BE
RE
AS
SIG
NE
DF
OR
SO
UR
CE
GR
OU
ND
SE
NS
OR
INP
UT
S.
8. T
HIS
LE
AD
SU
PP
LIE
D O
N G
62 S
TY
LE H
IGH
INS
TA
NT
AN
EO
US
TR
IP M
OD
ULE
ON
LY.
9. M
OT
OR
OP
ER
AT
OR
SW
ITC
H S
HO
WN
WIT
H B
RE
AK
ER
CLO
SIN
G S
PR
ING
DIS
CH
AR
GE
D.
10. O
N 4
PO
LE B
RE
AK
ER
S, T
HE
NE
UT
RA
L C
UR
RE
NT
SE
NS
OR
IS T
HE
SA
ME
ST
YLE
AN
D W
IRE
D T
HE
SA
ME
AS
TH
EP
HA
SE
SE
NS
OR
S A
ND
IS L
OC
AT
ED
WIT
HIN
TH
E B
RE
AK
ER
FR
AM
E. T
HE
SE
CO
ND
AR
Y C
ON
TA
CT
S B
-4, B
-5, A
RE
NO
T W
IRE
D O
UT
.11
. SE
CO
ND
SH
UN
T T
RIP
MA
Y B
E IN
ST
ALL
ED
(U
SIN
G A
-7,A
-8C
ON
TA
CT
S)
IN P
LAC
E O
F U
VR
. TH
IRD
AU
X S
WIT
CH
NO
TA
VA
ILA
BLE
WIT
H S
EC
ON
D S
HU
NT
TR
IP.
12. O
NLY
ON
E L
AT
CH
CH
EC
K S
WIT
CH
MA
Y B
E IN
ST
ALL
ED
.U
SE
OF
CU
ST
OM
ER
-AC
CE
SS
IBLE
LA
TC
H C
HE
CK
SW
ITC
H(B
-29,
B-3
0) IN
SE
RIE
S W
ITH
SP
RIN
G R
ELE
AS
E D
EF
EA
TS
AN
TI-
PU
MP
FU
NC
TIO
N A
ND
IS N
OT
RE
CO
MM
EN
DE
D. S
EE
NO
TE
5 F
OR
SP
RIN
G R
ELE
AS
E L
AT
CH
CH
EC
K S
WIT
CH
.13
. TH
ES
E C
ON
TA
CT
S A
RE
PR
OV
IDE
D F
OR
DIG
ITR
IP 5
20M
C A
SS
TA
ND
AR
D O
R 5
20M
AS
OP
TIO
NA
L A
CC
ES
SO
RY
. TH
EC
ON
TA
CT
S A
RE
AS
SIG
NE
D F
OR
GR
OU
ND
ALA
RM
ON
GR
OU
ND
TR
IP F
UN
CT
ION
FO
R L
SIG
TR
IP S
TY
LE. H
OW
EV
ER
,F
OR
A L
SI S
TY
LE T
RIP
UN
IT, T
HE
CO
NT
AC
TS
AR
E A
SS
IGN
ED
AS
A H
IGH
LO
AD
ALA
RM
.14
. TH
E O
TS
(O
VE
RC
UR
RE
NT
TR
IP S
WIT
CH
ES
) W
ILL
OP
ER
AT
ED
IRE
CT
LY F
RO
M T
HE
DIG
ITR
IP D
RIV
ING
TH
E T
A (
TR
IPA
CT
UA
TO
R)
TO
TR
IP T
HE
CIR
CU
IT B
RE
AK
ER
. TH
E O
TS
RE
QU
IRE
S A
MA
NU
AL
LOC
AL
RE
SE
T V
IA R
ED
BU
TT
ON
DE
PR
ES
SIO
N.
Figure 2-4 Connection Diagram for Double-Wide Frame with Digitrip 520/520M/520MC with AABBCC Configuration
Engineering DataPage 11Effective: January 2005
T.D. 01301004E
7
LIN
E S
IDE
(S
TA
ND
AR
D)
CO
NN
EC
TIO
NS
HO
WN
. LO
AD
-SID
E (
ALT
ER
NA
TE
)C
ON
NE
CT
ION
ALS
O A
VA
ILA
BLE
. SE
EB
RE
AK
ER
MA
RK
ING
S.
SE
E N
OT
E 1
3
DIE
LEC
TR
IC D
ISC
ON
NE
CT
PLU
G(M
OU
NT
ED
ON
LE
FT
SID
E O
F B
RE
AK
ER
)
WH
ITE
WH
ITE
SE
E N
OT
E 9
WH
ITE
WH
ITE
WH
ITE
WH
ITE
SE
E N
OT
E 4
SE
E N
OT
E 1
OP
TIO
NA
LLA
TC
HC
HE
CK
SW
ITC
H
SE
E N
OT
E 1
2
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LF
IRS
TIN
ST
ALL
ED
)
SE
E N
OT
E 1
22a
2bA
UX
. SW
ITC
H(O
PT
ION
AL
TH
IRD
INS
TA
LLE
D)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LS
EC
ON
DIN
ST
ALL
ED
)
AC
AC
SE
E N
OT
E 1
2
AC
AC
PC
B
SE
EN
OT
E3
SE
E N
OT
E 1
4
SE
E N
OT
E 1
0
SR
-LC
S(O
PT
ION
AL)
SE
E N
OT
E 1
3
SE
E N
OT
E 1
1
1
AC
AC
K2-
1
K2-
2
K2-
3
K2-
4
K2-
5
K2-
6
K2-
7
K2-
9
K2-
8
Z_C
OM
Z_I
N
Z_O
UT
GF
_SG
ND
/OF
F
N1
N2
RA
TIN
G
PLU
G
DIG
ITR
IP 1
150
DG
ND
K1-
1
ST
1K
1-2
ST
-K
1-3
C1
K1-
5
C2
K1-
4
B1
K1-
7
B2
K1-
6
A1
K1-
9
A2
K1-
8
R/1
CS
C
CS
BR
/1
R/1
CS
A
1
B-8
B-7
B-9
B-6
R/1
NE
UT
RA
L1
NE
UT
RA
L2
B-5
B-4
LA
2B
2L
LC
2
J0-1
3
J0-3
6
J0-6
J0-5
J0-3
4
J0-4
J0-3
24 O
HM
TA
J0-1
6
J0-3
9
J0-3
8
J0-1
5
J0-1
4
J0-3
7
J0-4
1
J0-1
8
J0-1
7
J0-4
0
J0-4
3
J0-2
0
J0-1
9
J0-4
2
J0-4
5
J0-2
2
J0-2
1
J0-4
4
I1-1
I1-2
B-1
B-2
INC
OM
N
INC
OM
P
I1-3
I1-4
I1-6
I1-5
LC
1
B1
L LA
1
52b
MC
R
J0-2
5
J0-2
6
J0-1
2
J0-2
9
NN
PO
W
A B
US
2
A B
US
1
J0-8
J0-7
J0-1
J0-3
5
J0-4
7
SE
T_L
AT
RE
SE
T_L
AT
J0-2
4D
ALM
LO_A
LM
J0-2
3
J0-4
6
CC
_DR
V
INT
ER
FA
CE
BO
AR
D
INC
OM
CO
NN
EC
TO
R
J0-3
2
J0-3
3
J0-3
1
J0-3
0
J0-1
0
J0-1
1
J0-2
8
J0-2
7
J0-9
J0-2
N
Vc
Vb
Va
20:1
20:1
20:1
AC
TC
AC
TB
AC
TA
AC
TN
20:1
BR
OW
N
LIN
E
GF
_SG
ND
ZO
NE
_OU
T
ZO
NE
_IN
ZO
NE
_CO
M
WH
ITE
BR
NW
HT
RE
D
PT
MO
DU
LE
+
BLA
CK
B-2
9
B-2
8
B-3
0
BLA
CK
OU
TP
UT
+
OU
TP
UT
-
J9-3
J9-2
J9-1
J8 J7 J6
P3-
3
P3-
2
P3-
1
P3-
6
P3-
5
P3-
4
H2
X2
X1
LOA
D
LC
1B
1L
LA
1
X1
X2
H2
N
R/1
1
CS
CR
/1
1
R/1
CS
B
1
CS
AR
/1
1 1
11
1N
N2
J1-4
J1-3
J1-2
J1-1
J2-1
J2-2
J2-3
J2-4
J2-5
J2-6
SU
PP
LIE
D)
(WH
EN
MO
DU
LE
INS
T.
HIG
H
A1
A2
B2
B1
C2
C1
HIC
HIC
HIC
HIC
HIC
HIC
SE
E N
OT
E 5
1 1 1 1 1 1
1 1 1
UV
R
UV
R
A-2
1
A-2
2
A-2
0
A-1
9
A-2
5
A-2
652
b
A-2
4
A-2
352
a
A-3
0
A-2
9
A-2
7
A-2
8
B-1
9
B-1
852
b
B-1
7
B-1
652
a
P2-
1
B-2
2
B-2
3
B-2
1
B-2
052
a
B-2
6
B-2
7
B-2
5
52b
B-2
4
ST
52a
P2-
2
ST
ST
B-1
1
B-1
0
A-8
SE
E N
OT
E 7
SE
E N
OT
E 8
1150
PO
WE
R R
ELA
Y
SE
E N
OT
E 6
K5-
5
MO
DU
LE
K5-
1
K5-
2
K2
K4s
K4r
K5-
6
K5-
3
K5-
4
K5-
7K
3
K4-
3
K4-
1
K4-
2
K1
SR
A-9
A-1
0
A-1
1
A-1
4
A-1
5
A-4
A-6
A-5
A-2
A-1
A-3
OT
S1_
MA
KE
(OP
T.)
OT
S1
UV
RA
-7
OT
S1_
BR
EA
K
OT
S1_
CO
M
J5-1
(OP
T.)
OT
S2
J5-4
J5-2
J5-3
J5-5
J5-6
AT
R_V
_CO
M
OT
S2_
MA
KE
OT
S2_
BR
EA
K
OT
S2_
CO
M
AT
R_R
EL_
CO
M
AT
R_A
LAR
M
AT
R_V
OLT
AG
E
AT
R_L
AT
CH
A-1
7
A-1
8
B-3
A-1
3
B-1
2
B-1
3
(1)
L02
J5-7
J5-8
P1-
1
(3)
(4)
CC
1
CC
2
J5-1
0
J5-9
A B
US
NP
OW
A B
US SR
INC
OM
CLO
SE
LCS
_BR
EA
K
LCS
_CO
M
LCS
_MA
KE
(CO
M)
(N/O
)
GR
EE
NR
ED
13
NO
T U
SE
D
(OP
T.)
(WH
EN
RE
Q.)
BR
IDG
E R
EC
TIF
IER R
ES
IST
OR
(WH
EN
RE
Q.)
DO
OR
SW
ITC
HLE
V-I
NS
WIT
CH
MO
TO
R C
UT
-OF
F
(WH
EN
RE
Q.)
A-1
6
MO
TO
R+
MO
TO
R-
ELE
CT
RIC
OP
ER
AT
OR
MO
TO
R
SC
B-1
5
B-1
4
NO
TE
S:
1. O
N T
HR
EE
PO
LE B
RE
AK
ER
S O
NLY
(N
OT
EIG
HT
PH
YS
ICA
L P
OLE
S),
HA
VIN
G G
RO
UN
D F
AU
LTF
UN
CT
ION
ALI
TY
, A J
UM
PE
R IN
ST
ALL
ED
FR
OM
B-6
TO
B-7
WIL
L E
NA
BLE
SO
UR
CE
GR
OU
ND
FA
ULT
SE
NS
ING
AN
D D
ISA
BLE
RE
SID
UA
L G
RO
UN
D F
AU
LT S
EN
SIN
G.
INP
UT
S B
-4 A
ND
B-5
WIL
L B
E R
EA
SS
IGN
ED
FO
RS
OU
RC
E G
RO
UN
D S
EN
SO
R IN
PU
TS
.2.
ALL
CO
NT
AC
TS
SH
OW
N W
ITH
BR
EA
KE
RIN
OP
EN
PO
SIT
ION
AN
D W
ITH
TR
IP U
NIT
IN"N
ON
-TR
IPP
ED
" S
TA
TE
(O
TS
SW
ITC
HE
S)
AN
D S
PR
ING
NO
T C
HA
RG
ED
.3.
TH
E S
PR
ING
RE
LEA
SE
AC
CE
SS
OR
Y C
ON
SIS
TS
OF
A"S
R"
CO
IL A
ND
A P
.C. B
OA
RD
. TH
E P
RIN
TE
D C
IRC
UIT
PR
OV
IDE
S A
0.2
0 S
EC
ON
D P
ULS
E F
OR
TH
E C
LOS
ING
OP
ER
AT
ION
. VO
LTA
GE
MU
ST
BE
RE
MO
VE
D A
ND
TH
EN
RE
AP
PLI
ED
FO
R S
UB
SE
QU
EN
T O
PE
RA
TIO
N.
AN
OP
TIO
NA
L S
R-L
AT
CH
CH
EC
K S
WIT
CH
(LC
S)
AC
CE
SS
OR
Y M
AY
BE
CO
NN
EC
TE
D T
O T
HE
SP
RIN
GR
ELE
AS
E. T
HE
(C
LOS
ED
) LC
S D
ELA
YS
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
UN
TIL
TH
E B
RE
AK
ER
ME
CH
AN
ISM
ISR
EA
DY
TO
CLO
SE
(C
HA
RG
ED
AN
D R
ES
ET
). (
TH
IS W
ILL
INS
UR
E T
HA
T T
HE
LA
TC
H W
ILL
ALW
AY
S B
E IN
TH
EP
RO
PE
R S
TA
TE
BE
FO
RE
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
IS IN
ITIA
TE
D.)
IF V
OLT
AG
E IS
MA
INT
AIN
ED
TO
TH
ES
PR
ING
RE
LEA
SE
, TH
E C
LOS
ING
PU
LSE
WIL
L O
CC
UR
WH
EN
TH
E M
EC
HA
NIS
M IS
CH
AR
GE
D A
ND
RE
SE
T(L
CS
OP
EN
). V
OLT
AG
E M
US
T B
E R
EM
OV
ED
AN
DR
E-A
PP
LIE
D T
O T
HE
SP
RIN
G R
ELE
AS
E F
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.4.
TO
PR
OV
IDE
SE
LEC
TE
D T
IME
DE
LAY
S F
OR
SH
OR
T T
IME
AN
D/O
R G
RO
UN
D T
IME
FU
NC
TIO
NS
FO
R T
ES
TIN
G O
RN
ON
-ZO
NE
INT
ER
LOC
KIN
G A
PP
LIC
AT
ION
S, A
JU
MP
ER
FR
OM
B-8
TO
B-9
IS R
EQ
UIR
ED
.5.
3 W
IRE
CR
IMP
IF H
IGH
INS
TA
NT
AN
EO
US
TR
IP M
OD
ULE
IS S
UP
PLI
ED
.6.
NO
RM
ALL
Y O
PE
N C
ON
TA
CT
PR
OG
RA
MM
ED
AS
RE
LAY
A,
VIA
DIG
ITR
IP F
RO
NT
PA
NE
L. (
ALA
RM
CO
NT
AC
T)
7. N
OR
MA
LLY
CLO
SE
D C
ON
TA
CT
PR
OG
RA
MM
ED
AS
RE
LAY
B, V
IA D
IGIT
RIP
FR
ON
T P
AN
EL.
(B
LOC
K C
LOS
EC
ON
TA
CT
).8.
NO
RM
ALL
Y O
PE
N C
ON
TA
CT
PR
OG
RA
MM
ED
AS
RE
LAY
C,
VIA
DIG
ITR
IP F
RO
NT
PA
NE
L. (
LAT
CH
ING
CO
NT
AC
T)
9. O
N 4
PO
LE B
RE
AK
ER
S (
AC
TU
ALL
Y 8
PH
YS
ICA
L P
OLE
S),
TH
E N
EU
TR
AL
CU
RR
EN
T S
EN
SO
RS
AR
E L
OC
AT
ED
WIT
HIN
TH
E B
RE
AK
ER
FR
AM
E. T
HE
SE
CO
ND
AR
Y C
ON
TA
CT
SB
-4, B
-5 A
RE
NO
T W
IRE
D O
UT
.10
. MO
TO
R O
PE
RA
TO
R S
WIT
CH
SH
OW
N W
ITH
BR
EA
KE
RC
LOS
ING
SP
RIN
G D
ISC
HA
RG
ED
.11
. FO
UR
PO
INT
SO
CK
ET
US
ED
HE
RE
.12
. SE
CO
ND
SH
UN
T T
RIP
MA
Y B
E IN
ST
ALL
ED
(U
SIN
G A
-7,
A-8
CO
NT
AC
TS
) IN
PLA
CE
OF
UV
R. T
HIR
D A
UX
SW
ITC
HN
OT
AV
AIL
AB
LE W
ITH
SE
CO
ND
SH
UN
T T
RIP
.13
. ON
LY O
NE
LA
TC
H C
HE
CK
SW
ITC
H M
AY
BE
INS
TA
LLE
D.
US
E O
F C
US
TO
ME
R-A
CC
ES
SIB
LE L
AT
CH
CH
EC
KS
WIT
CH
(B
29-B
-30)
IN S
ER
IES
WIT
H S
PR
ING
RE
LEA
SE
DE
FE
AT
S A
NT
I-P
UM
P F
UN
CT
ION
AN
D IS
NO
TR
EC
OM
ME
ND
ED
. S
EE
NO
TE
3 F
OR
SP
RIN
G R
ELE
AS
ELA
TC
H C
HE
CK
SW
ITC
H.
14. T
HE
OT
S (
OV
ER
CU
RR
EN
T T
RIP
SW
ITC
HE
S)
WIL
L O
PE
RA
TE
DIR
EC
TLY
FR
OM
TH
E D
IGIT
RIP
DR
IVIN
G T
HE
TA
(T
RIP
AC
TU
AT
OR
) T
O T
RIP
TH
E C
IRC
UIT
BR
EA
KE
R. T
HE
OT
SR
EQ
UIR
ES
A M
AN
UA
L LO
CA
L R
ES
ET
VIA
RE
D B
UT
TO
ND
EP
RE
SS
ION
.
SE
E N
OT
E 1
5
15. J
UM
PE
RIN
G B
-3 (
NP
OW
) T
O B
-7 T
ER
MIN
AL
WIL
L E
LIM
INA
TE
RE
VE
RS
E P
OW
ER
CO
ND
ITIO
N.
Figure 2-5 Connection Diagram for Double-wide Frame with Digitrip 1150 with ABCABC Configuration
Engineering DataPage 12 Effective: January 2005
T.D. 01301004E
8
SE
E N
OT
E 1
3
LIN
E S
IDE
(S
TA
ND
AR
D)
CO
NN
EC
TIO
NS
HO
WN
. LO
AD
-SID
E (
ALT
ER
NA
TE
)C
ON
NE
CT
ION
ALS
O A
VA
ILA
BLE
. SE
EB
RE
AK
ER
MA
RK
ING
S.
DIE
LEC
TR
IC D
ISC
ON
NE
CT
PLU
G(M
OU
NT
ED
ON
LE
FT
SID
E O
F B
RE
AK
ER
)
WH
ITE
WH
ITE
SE
E N
OT
E 9
WH
ITE
WH
ITE
WH
ITE
WH
ITE
SE
E N
OT
E 1
SE
E N
OT
E 4
OP
TIO
NA
LLA
TC
HC
HE
CK
SW
ITC
H
SE
E N
OT
E 1
2 AC
AC
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LF
IRS
TIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LT
HIR
DIN
ST
ALL
ED
)
2a2b
AU
X. S
WIT
CH
(OP
TIO
NA
LS
EC
ON
DIN
ST
ALL
ED
)
SE
E N
OT
E 1
2
AC
AC
SE
E N
OT
E 1
2
PC
B
SE
EN
OT
E3
SE
E N
OT
E 1
4
SE
E N
OT
E 1
0
SE
E N
OT
E 1
3
SR
-LC
S(O
PT
ION
AL)
SE
E N
OT
E 1
1
1
AC
AC
SE
E N
OT
E 5
HIC
HIC
HIC
HIC
HIC
HIC
C1
C2
B1
B2
A2
A1
HIG
H
INS
T.
MO
DU
LE
(WH
EN
SU
PP
LIE
D)
J2-6
J2-5
J2-4
J2-3
J2-2
J2-1
J1-1
J1-2
J1-3
J1-4
2N
N1
R/1
N
H2
X2
X1
A1
LL
A2
B1
L
LOA
D
X1
X2
H2
P3-
4
P3-
5
P3-
6
P3-
1
P3-
2
P3-
3
J6J7J8
J9-1
J9-2
J9-3
P2-
152
aP
2-2
ST
ST
A-2
6
A-2
5A
-21
A-2
2
52a
52b
A-2
0
A-1
9A
-23
A-2
4
BLA
CK
B-2
6
B-2
7
B-2
2
B-2
3
B-3
0
B-2
8
B-2
9
UV
R
UV
R
B-2
5
B-2
4B
-20
B-2
1
B-1
7
B-1
6A
-27
A-2
8
52a
52b
52b
52a
A-3
0
A-2
9B
-18
B-1
9
BLA
CK
+
PT
MO
DU
LE
WH
ITE
ZO
NE
_CO
M
ZO
NE
_IN
ZO
NE
_OU
T
GF
_SG
ND
LIN
E
BR
OW
N
20:1
AC
TN
Va
Vb
Vc
N
J0-2
J0-9
J0-2
7
J0-2
8
J0-1
1
J0-1
0
J0-3
0
J0-3
1
J0-3
3
J0-3
2
CO
NN
EC
TO
R
INC
OM
BO
AR
D
INT
ER
FA
CE
J0-2
9M
CR
52b
A1
LLB
1
C1
L
I1-5
I1-6
I1-4
I1-3
INC
OM
P
INC
OM
NB
-2
B-1
I1-2
I1-1
J0-3
7
J0-1
4
J0-1
5
J0-3
8
J0-3
9
J0-1
6
TA
24 O
HM
J0-3
J0-4
J0-3
4
J0-5
J0-6
J0-3
6
J0-1
3
C2
LL
C1
B2
L
B-4
B-5
NE
UT
RA
L2
NE
UT
RA
L1
R/1
B-6
B-9
B-7
B-8
K1-
3S
T-
K1-
2S
T1
K1-
1D
GN
D
DIG
ITR
IP 1
150
PLU
G
RA
TIN
G
B-1
0S
T
A-8
B-1
1
UV
R
A-7
N2
N1
GF
_SG
ND
/OF
F
Z_O
UT
Z_I
N
Z_C
OM
K2-
8
K2-
9
K2-
7
K2-
6
K2-
5
K2-
4
K2-
3
K2-
2
K2-
1
1 1
11
R/1
CS
A
1
CS
BR
/1
1
R/1
CS
C
1
RE
D
WH
TB
RN
AC
TA
AC
TB
AC
TC
20:1
20:1
20:1
J0-4
4
J0-2
1
J0-2
2
J0-4
5
J0-4
2
J0-1
9
J0-2
0
J0-4
3
J0-4
0
J0-1
7
J0-1
8
J0-4
1
1
CS
AR
/1
R/1
CS
B
CS
CR
/1
K1-
8A
2
K1-
9A
1
K1-
6B
2
K1-
7B
1
K1-
4C
2
K1-
5C
1
1 1 1 1 1 1
1 1 1
J0-8
J0-4
6
J0-2
3
J0-2
4
J0-4
7
J0-3
5
J0-7
J0-1
J0-1
2
J0-2
6
J0-2
5
J5-5
J5-4
J5-3
J5-2
J5-1
J5-6
OU
TP
UT
+
OU
TP
UT
-
DA
LM
K5-
2
K5-
1
K5-
5
1150
PO
WE
R R
ELA
Y
SE
E N
OT
E 6
MO
DU
LESE
E N
OT
E 8
K4r K2
K4s
OT
S1_
CO
M
OT
S1_
MA
KE
OT
S1_
BR
EA
K(O
PT
.)
OT
S1
A-3
A-1
A-2
AT
R_R
EL_
CO
M
OT
S2_
MA
KE
OT
S2_
CO
M
OT
S2_
BR
EA
K
OT
S2
(OP
T.)
AT
R_V
OLT
AG
E
AT
R_V
_CO
M
AT
R_L
AT
CH
AT
R_A
LAR
M
SR
A-5
A-6
A-4
A-1
5
A-1
4
A-1
0
A-1
1
A-9
J5-1
0
J5-9
J5-7
J5-8
CC
_DR
V
LO_A
LM
RE
SE
T_L
AT
SE
T_L
AT
K5-
7
K5-
6
K5-
3
K5-
4
A B
US
2
NN
PO
W
A B
US
1
K4-
3
K4-
2
K4-
1
CC
1
SE
E N
OT
E 7
K3
K1
L02
CC
2
INC
OM
CLO
SE
(4)
P1-
1(1
)
(3)
SR
B-1
3
A-1
3
B-1
2
NP
OW
A B
US
A B
US
B-3
A-1
8
A-1
7
LCS
_CO
M
LCS
_BR
EA
K
LCS
_MA
KE
(CO
M)
(N/O
)1
3
GR
EE
NR
ED
NO
T U
SE
D
(OP
T.)
(WH
EN
RE
Q.)
BR
IDG
E R
EC
TIF
IER R
ES
IST
OR
(WH
EN
RE
Q.)
DO
OR
SW
ITC
HLE
V-I
NS
WIT
CH
MO
TO
R C
UT
-OF
F
(WH
EN
RE
Q.)
A-1
6
MO
TO
R+
MO
TO
R-
ELE
CT
RIC
OP
ER
AT
OR
MO
TO
R
SC
B-1
5
B-1
4
NO
TE
S:
1. O
N T
HR
EE
PO
LE B
RE
AK
ER
S O
NLY
(N
OT
EIG
HT
PH
YS
ICA
L P
OLE
S),
HA
VIN
G G
RO
UN
D F
AU
LTF
UN
CT
ION
ALI
TY
, A J
UM
PE
R IN
ST
ALL
ED
FR
OM
B-6
TO
B-7
WIL
L E
NA
BLE
SO
UR
CE
GR
OU
ND
FA
ULT
SE
NS
ING
AN
D D
ISA
BLE
RE
SID
UA
L G
RO
UN
D F
AU
LT S
EN
SIN
G.
INP
UT
S B
-4 A
ND
B-5
WIL
L B
E R
EA
SS
IGN
ED
FO
RS
OU
RC
E G
RO
UN
D S
EN
SO
R IN
PU
TS
.2.
ALL
AU
X. S
WIT
CH
CO
NT
AC
TS
SH
OW
N W
ITH
BR
EA
KE
RIN
OP
EN
PO
SIT
ION
AN
D W
ITH
TR
IP U
NIT
IN"N
ON
-TR
IPP
ED
" S
TA
TE
(O
TS
SW
ITC
HE
S).
3. T
HE
SP
RIN
G R
ELE
AS
E A
CC
ES
SO
RY
CO
NS
IST
S O
F A
"SR
" C
OIL
AN
D A
P.C
. BO
AR
D. T
HE
PR
INT
ED
CIR
CU
ITP
RO
VID
ES
A 0
.20
SE
CO
ND
PU
LSE
FO
R T
HE
CLO
SIN
GO
PE
RA
TIO
N. V
OLT
AG
E M
US
T B
E R
EM
OV
ED
AN
D T
HE
NR
EA
PP
LIE
D F
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.
AN
OP
TIO
NA
L S
R-L
AT
CH
CH
EC
K S
WIT
CH
(LC
S)
AC
CE
SS
OR
Y M
AY
BE
CO
NN
EC
TE
D T
O T
HE
SP
RIN
GR
ELE
AS
E. T
HE
(C
LOS
ED
) LC
S D
ELA
YS
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
UN
TIL
TH
E B
RE
AK
ER
ME
CH
AN
ISM
ISR
EA
DY
TO
CLO
SE
(C
HA
RG
ED
AN
D R
ES
ET
). (
TH
IS W
ILL
INS
UR
E T
HA
T T
HE
LA
TC
H W
ILL
ALW
AY
S B
E IN
TH
EP
RO
PE
R S
TA
TE
BE
FO
RE
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
IS IN
ITIA
TE
D.)
IF V
OLT
AG
E IS
MA
INT
AIN
ED
TO
TH
ES
PR
ING
RE
LEA
SE
, TH
E C
LOS
ING
PU
LSE
WIL
L O
CC
UR
WH
EN
TH
E M
EC
HA
NIS
M IS
CH
AR
GE
D A
ND
RE
SE
T(L
CS
OP
EN
). V
OLT
AG
E M
US
T B
E R
EM
OV
ED
AN
DR
E-A
PP
LIE
D T
O T
HE
SP
RIN
G R
ELE
AS
E F
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.4.
TO
PR
OV
IDE
SE
LEC
TE
D T
IME
DE
LAY
S F
OR
SH
OR
T T
IME
AN
D/O
R G
RO
UN
D T
IME
FU
NC
TIO
NS
FO
R T
ES
TIN
G O
RN
ON
-ZO
NE
INT
ER
LOC
KIN
G A
PP
LIC
AT
ION
S, A
JU
MP
ER
FR
OM
B-8
TO
B-9
IS R
EQ
UIR
ED
.5.
3 W
IRE
CR
IMP
IF H
IGH
INS
TA
NT
AN
EO
US
TR
IP M
OD
ULE
IS S
UP
PLI
ED
.6.
NO
RM
ALL
Y O
PE
N C
ON
TA
CT
PR
OG
RA
MM
ED
AS
RE
LAY
A,
VIA
DIG
ITR
IP F
RO
NT
PA
NE
L. (
ALA
RM
CO
NT
AC
T)
7. N
OR
MA
LLY
CLO
SE
D C
ON
TA
CT
PR
OG
RA
MM
ED
AS
RE
LAY
B, V
IA D
IGIT
RIP
FR
ON
T P
AN
EL.
(B
LOC
K C
LOS
EC
ON
TA
CT
).8.
NO
RM
ALL
Y O
PE
N C
ON
TA
CT
PR
OG
RA
MM
ED
AS
RE
LAY
C,
VIA
DIG
ITR
IP F
RO
NT
PA
NE
L. (
LAT
CH
ING
CO
NT
AC
T)
9. O
N 4
PO
LE B
RE
AK
ER
S (
AC
TU
ALL
Y 8
PH
YS
ICA
L P
OLE
S),
TH
E N
EU
TR
AL
CU
RR
EN
T S
EN
SO
RS
AR
E L
OC
AT
ED
WIT
HIN
TH
E B
RE
AK
ER
FR
AM
E. T
HE
SE
CO
ND
AR
Y C
ON
TA
CT
SB
-4, B
-5 A
RE
NO
T W
IRE
D O
UT
.10
. MO
TO
R O
PE
RA
TO
R S
WIT
CH
SH
OW
N W
ITH
BR
EA
KE
RC
LOS
ING
SP
RIN
G D
ISC
HA
RG
ED
.11
. FO
UR
PO
INT
SO
CK
ET
US
ED
HE
RE
.12
. SE
CO
ND
SH
UN
T T
RIP
MA
Y B
E IN
ST
ALL
ED
(U
SIN
G A
-7,
A-8
CO
NT
AC
TS
) IN
PLA
CE
OF
UV
R. T
HIR
D A
UX
SW
ITC
HN
OT
AV
AIL
AB
LE W
ITH
SE
CO
ND
SH
UN
T T
RIP
.13
. ON
LY O
NE
LA
TC
H C
HE
CK
SW
ITC
H M
AY
BE
INS
TA
LLE
D.
US
E O
F C
US
TO
ME
R-A
CC
ES
SIB
LE L
AT
CH
CH
EC
KS
WIT
CH
(B
29-B
-30)
IN S
ER
IES
WIT
H S
PR
ING
RE
LEA
SE
DE
FE
AT
S A
NT
I-P
UM
P F
UN
CT
ION
AN
D IS
NO
TR
EC
OM
ME
ND
ED
. S
EE
NO
TE
3 F
OR
SP
RIN
G R
ELE
AS
ELA
TC
H C
HE
CK
SW
ITC
H.
14. T
HE
OT
S (
OV
ER
CU
RR
EN
T T
RIP
SW
ITC
HE
S)
WIL
L O
PE
RA
TE
DIR
EC
TLY
FR
OM
TH
E D
IGIT
RIP
DR
IVIN
G T
HE
TA
(T
RIP
AC
TU
AT
OR
) T
O T
RIP
TH
E C
IRC
UIT
BR
EA
KE
R. T
HE
OT
SR
EQ
UIR
ES
A M
AN
UA
L LO
CA
L R
ES
ET
VIA
RE
D B
UT
TO
ND
EP
RE
SS
ION
.
SE
E N
OT
E 1
5
15. J
UM
PE
RIN
G B
-3 (
NP
OW
) T
O B
-7 T
ER
MIN
AL
WIL
L E
LIM
INA
TE
RE
VE
RS
E P
OW
ER
CO
ND
ITIO
N.
Figure 2-6 Connection Diagram for Double-wide Frame with Digitrip 1150 with AABBCC Configuration
Engineering DataPage 13Effective: January 2005
T.D. 01301004E
Figure 2-7 Magnum DSL Connection Diagram with Blown Fuse Trip Digitrip 220/520/520M/520MC
NO
TE
S:
1. 4
WIR
E C
RIM
PC
ON
NE
CT
ION
2. 3
WIR
E C
RIM
PIF
HIG
H I
NS
TT
RIP
MO
DU
LE I
S S
UP
PLI
ED
.3.
SO
CK
ET
US
ED
WIT
H D
IGIT
RIP
520M
GR
OU
ND
ALA
RM
PO
WE
R S
UP
PLY
MO
DU
LE W
ILL
“HA
NG
UN
CO
NN
EC
TE
D”
IFD
IGIT
RIP
220
OR
520
IS
SU
PP
LIE
D.
4. A
LLC
ON
TAC
TS
SH
OW
N W
ITH
BR
EA
KE
R I
N O
PE
N P
OS
ITIO
N A
ND
WIT
H S
PR
ING
NO
TC
HA
RG
ED
AN
D W
ITH
TR
IPU
NIT
IN“N
ON
-TR
IPP
ED
” S
TAT
E (
OT
S S
WIT
CH
ES
).5.
TH
E S
PR
ING
RE
LEA
SE
AC
CE
SS
OR
YC
ON
SIS
TS
OF
A“S
R”
CO
ILA
ND
AP.
C.
BO
AR
D. T
HE
PR
INT
ED
CIR
CU
ITP
RO
VID
ES
A.2
0 S
EC
ON
D P
ULS
E F
OR
TH
E C
LOS
ING
OP
ER
AT
ION
. V
OLT
AG
E M
US
TB
E R
EM
OV
ED
AN
D T
HE
N R
EA
PP
LIE
D F
OR
SU
BS
EQ
UE
NT
OP
ER
AT
ION
.
AN
OP
TIO
NA
LLA
TC
H C
HE
CK
SW
ITC
H (
LCS
) A
CC
ES
SO
RY
MA
YB
E C
ON
NE
CT
ED
TO
TH
E S
PR
ING
RE
LEA
SE
. TH
E (
CLO
SE
D)
LCS
DE
LAY
S T
HE
SP
RIN
G R
ELE
AS
E P
ULS
E U
NT
ILT
HE
BR
EA
KE
R M
EC
HA
NIS
M I
S R
EA
DY
TO
CLO
SE
(C
HA
RG
ED
AN
DR
ES
ET
). (
TH
IS W
ILL
INS
UR
E T
HA
TT
HE
LA
TC
H W
ILL
ALW
AY
S B
E I
N T
HE
PR
OP
ER
STA
TE
BE
FO
RE
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
IS
IN
ITIA
TE
D).
IF
VO
LTA
GE
IS
MA
INTA
INE
D T
O T
HE
SP
RIN
G R
ELE
AS
E, T
HE
CLO
SIN
G P
ULS
E W
ILL
OC
CU
R W
HE
N
TH
E M
EC
HA
NIS
M I
S C
HA
RG
ED
AN
D R
ES
ET
(LC
S O
PE
N).
VO
LTA
GE
MU
ST
BE
RE
MO
VE
D A
ND
RE
AP
PLI
ED
FO
RS
UB
SE
QU
EN
TO
PE
RA
TIO
N.
6. T
O P
RO
VID
E S
ELE
CT
ED
TIM
E D
ELA
YS
FO
R S
HO
RT
TIM
E A
ND
/OR
GR
OU
ND
TIM
E F
UN
CT
ION
S F
OR
TE
ST
ING
OR
NO
N-
ZO
NE
IN
TE
RLO
CK
ING
AP
PLI
CA
TIO
NS
, AJU
MP
ER
FR
OM
B-8
TO
B-9
IS
RE
QU
IRE
D.
7. O
N T
HR
EE
PO
LE B
RE
AK
ER
S O
NLY
, H
AV
ING
GR
OU
ND
FA
ULT
FU
NC
TIO
NA
LIT
Y, A
JUM
PE
R I
NS
TALL
ED
FR
OM
B-6
TO
B-7
WIL
LE
NA
BLE
SO
UR
CE
GR
OU
ND
FA
ULT
SE
NS
ING
AN
D D
ISA
BLE
RE
SID
UA
LG
RO
UN
D F
AU
LTS
EN
SIN
G.
INP
UT
S B
-4 A
ND
B-5
WIL
LB
E R
EA
SS
IGN
ED
FO
R S
OU
RC
E G
RO
UN
D S
EN
SO
R I
NP
UT
S.
8. F
OR
NO
N-A
UT
O,
OM
ITD
IGIT
RIP
UN
ITA
ND
RE
LAT
ED
CO
MP
ON
EN
TS
AN
D W
IRIN
G F
RO
M A
SS
EM
BLY
.9.
MO
TO
R O
PE
RA
TO
R S
WIT
CH
SH
OW
N W
ITH
BR
EA
KE
R C
LOS
ING
SP
RIN
G D
ISC
HA
RG
ED
.10
. F
OR
RE
SID
UA
LG
RO
UN
D F
AU
LTS
EN
SIN
G, T
HE
NE
UT
RA
LS
EN
SO
R M
US
TM
AT
CH
TH
E P
HA
SE
CU
RR
EN
TS
EN
SO
R A
ND
RA
TIN
G P
LUG
VA
LUE
.11
. S
EC
ON
D S
HU
NT
TR
IPM
AY
BE
IN
STA
LLE
D (
US
ING
A-7
, A-8
CO
NTA
CT
S)
IN P
LAC
E O
F U
VR
. TH
IRD
AU
X S
WIT
CH
NO
TA
VA
ILA
BLE
WIT
H S
EC
ON
D S
HU
NT
TR
IP.
12.
ON
LYO
NE
LA
TC
H C
HE
CK
SW
ITC
H M
AY
BE
IN
STA
LLE
D.
US
E O
F C
US
TO
ME
R A
CC
ES
SIB
LE L
AT
CH
CH
EC
K S
WIT
CH
(B
-28,
B-2
9, B
-30)
IN
SE
RIE
S W
ITH
SP
RIN
G R
ELE
AS
E D
EF
EA
TS
AN
TI-
PU
MP
FU
NC
TIO
N A
ND
IS
NO
TR
EC
OM
ME
ND
ED
. S
EE
NO
TE
5F
OR
SP
RIN
G R
ELE
AS
E L
AT
CH
CH
EC
K S
WIT
CH
.13
. TH
ES
E C
ON
TAC
TS
AR
E P
RO
VID
ED
FO
R D
IGIT
RIP
520M
C A
S S
TAN
DA
RD
OR
520
M A
S O
PT
ION
AL
AC
CE
SS
OR
Y.
TH
EC
ON
TAC
TS
AR
E A
SS
IGN
ED
FO
R G
RO
UN
D A
LAR
M O
N G
RO
UN
D T
RIP
FU
NC
TIO
N F
OR
LS
IG T
RIP
ST
YLE
. H
OW
EV
ER
, F
OR
ALS
I S
YLE
TR
IPU
NIT
, TH
E C
ON
TAC
TS
AR
E A
SS
IGN
ED
AS
AH
IGH
LO
AD
ALA
RM
.14
. TH
E O
TS
(O
VE
RC
UR
RE
NT
TR
IPS
WIT
CH
ES
) W
ILL
OP
ER
AT
E D
IRE
CT
LYF
RO
M T
HE
DIG
ITR
IPD
RIV
ING
TH
E T
A(T
RIP
AC
TU
AT
OR
) T
O T
RIP
TH
E C
IRC
UIT
BR
EA
KE
R. T
HE
OT
S R
EQ
UIR
ES
AM
AN
UA
LLO
CA
LR
ES
ET
VIA
RE
D B
UT
TO
N
Engineering DataPage 14 Effective: January 2005
T.D. 01301004E
Figure 2-8 Magnum DSL Connection Diagram Digitrip 1150, Current Sensors 200-2000 Amp
NO
TE
S:
1. 3
WIR
E C
RIM
PIF
HIG
H I
NS
TT
RIP
MO
DU
LE I
S S
UP
PLI
ED
.2.
ALL
CO
NTA
CT
S S
HO
WN
WIT
H B
RE
AK
ER
IN
OP
EN
PO
SIT
ION
AN
D W
ITH
SP
RIN
G N
OT
CH
AR
GE
D A
ND
WIT
H T
RIP
UN
ITIN
“NO
N-T
RIP
PE
D”
STA
TE
(O
TS
SW
ITC
HE
S).
3. T
HE
SP
RIN
G R
ELE
AS
E A
CC
ES
SO
RY
CO
NS
IST
S O
F A
“SR
” C
OIL
AN
D A
P.C
. B
OA
RD
. TH
E P
RIN
TE
D C
IRC
UIT
PR
OV
IDE
S A
.20
SE
CO
ND
PU
LSE
FO
R T
HE
CLO
SIN
G O
PE
RA
TIO
N.
VO
LTA
GE
MU
ST
BE
RE
MO
VE
D A
ND
TH
EN
RE
AP
PLI
ED
FO
RS
UB
SE
QU
EN
TO
PE
RA
TIO
N.
AN
OP
TIO
NA
LLA
TC
H C
HE
CK
SW
ITC
H (
LCS
) A
CC
ES
SO
RY
MA
YB
E C
ON
NE
CT
ED
TO
TH
E S
PR
ING
RE
LEA
SE
. TH
E (
CLO
SE
D)
LCS
DE
LAY
S T
HE
SP
RIN
G R
ELE
AS
E P
ULS
E U
NT
ILT
HE
BR
EA
KE
R M
EC
HA
NIS
M I
S R
EA
DY
TO
CLO
SE
(C
HA
RG
ED
AN
DR
ES
ET
). (
TH
IS W
ILL
INS
UR
E T
HA
TT
HE
LA
TC
H W
ILL
ALW
AY
S B
E I
N T
HE
PR
OP
ER
STA
TE
BE
FO
RE
TH
E S
PR
ING
RE
LEA
SE
PU
LSE
IS
IN
ITIA
TE
D).
IF
VO
LTA
GE
IS
MA
INTA
INE
D T
O T
HE
SP
RIN
G R
ELE
AS
E, T
HE
CLO
SIN
G P
ULS
E W
ILL
OC
CU
R W
HE
N
TH
E M
EC
HA
NIS
M I
S C
HA
RG
ED
AN
D R
ES
ET
(LC
S O
PE
N).
VO
LTA
GE
MU
ST
BE
RE
MO
VE
D A
ND
RE
AP
PLI
ED
FO
RS
UB
SE
QU
EN
TO
PE
RA
TIO
N.
4. T
O P
RO
VID
E S
ELE
CT
ED
TIM
E D
ELA
YS
FO
R S
HO
RT
TIM
E A
ND
/OR
GR
OU
ND
TIM
E F
UN
CT
ION
S F
OR
TE
ST
ING
OR
NO
N-
ZO
NE
IN
TE
RLO
CK
ING
AP
PLI
CA
TIO
NS
, AJU
MP
ER
FR
OM
B-8
TO
B-9
IS
RE
QU
IRE
D.
5. O
N A
BR
EA
KE
R E
MP
LOY
ING
TH
E G
RO
UN
D F
AU
LTF
UN
CT
ION
, AJU
MP
ER
IN
STA
LLE
D F
RO
M B
-6 T
O B
-7 W
ILL
EN
AB
LES
OU
RC
E G
RO
UN
D F
AU
LTS
EN
SIN
G A
ND
DIS
AB
LE R
ES
IDU
AL
GR
OU
ND
FA
ULT
SE
NS
ING
. IN
PU
TS
B-4
AN
D B
-5 W
ILL
BE
RE
AS
SIG
NE
D F
OR
SO
UR
CE
GR
OU
ND
SE
NS
OR
IN
PU
TS
.6.
NO
RM
ALL
YO
PE
N C
ON
TAC
TP
RO
GR
AM
ME
D A
S R
ELA
YA
VIA
DIG
ITR
IPF
RO
NT
PA
NE
L(A
LAR
M C
ON
TAC
T).
7. N
OR
MA
LLY
CLO
SE
D C
ON
TAC
TP
RO
GR
AM
ME
D A
S R
ELA
YB
VIA
DIG
ITR
IPF
RO
NT
PA
NE
L(B
LOC
K C
LOS
E C
ON
TAC
T).
8. N
OR
MA
LLY
OP
EN
CO
NTA
CT
PR
OG
RA
MM
ED
AS
RE
LAY
C V
IAD
IGIT
RIP
FR
ON
TP
AN
EL
(LA
TC
HIN
G C
ON
TAC
9. M
OT
OR
OP
ER
AT
OR
SW
ITC
H S
HO
WN
WIT
H B
RE
AK
ER
CLO
SIN
G S
PR
ING
DIS
CH
AR
GE
D.
10.
ON
4 P
OLE
BR
EA
KE
RS
, TH
E N
EU
TR
AL
SE
NS
OR
IS
TH
E S
AM
E S
TY
LE A
ND
WIR
ED
TH
E S
AM
E A
S
TH
E P
HA
SE
SE
NS
OR
AN
DA
RE
LO
CA
TE
D W
ITH
IN T
HE
BR
EA
KE
R F
RA
ME
. TH
E S
EC
ON
DA
RY
CO
NTA
CT
S B
-4,
B-5
AR
E N
OT
WIR
ED
OU
T.11
. F
OU
R P
OIN
TS
OC
KE
TU
SE
D H
ER
E.
12.
SE
CO
ND
SH
UN
TT
RIP
MA
YB
E I
NS
TALL
ED
(U
SIN
G A
-7, A
-8 C
ON
TAC
TS
) IN
PLA
CE
OF
UV
R. T
HIR
D A
UX
ILIA
RY
SW
ITC
H N
OT
AV
AIL
AB
LE W
ITH
SE
CO
ND
SH
UN
TT
RIP
.13
. O
NLY
ON
E L
AT
CH
CH
EC
K S
WIT
CH
MA
YB
E I
NS
TALL
ED
. U
SE
OF
CU
ST
OM
ER
AC
CE
SS
IBLE
LA
TC
H C
HE
CK
SW
ITC
H (
B-2
9,B
-30)
IN
SE
RIE
S W
ITH
SP
RIN
G R
ELE
AS
E D
EF
EA
TS
AN
TI-
PU
MP
FU
NC
TIO
N A
ND
IS
NO
TR
EC
OM
ME
ND
ED
. S
EE
NO
TE
3 F
OR
SP
RIN
G R
ELE
AS
E L
AT
CH
CH
EC
K S
WIT
CH
.14
. TH
E O
TS
(O
VE
RC
UR
RE
NT
TR
IPS
WIT
CH
ES
) W
ILL
OP
ER
AT
E D
IRE
CT
LYF
RO
M T
HE
DIG
ITR
IPD
RIV
ING
TH
E T
A(T
RIP
AC
TU
AT
OR
) T
O T
RIP
TH
E C
IRC
UIT
BR
EA
KE
R. T
HE
OT
S R
EQ
UIR
ES
AM
AN
UA
LLO
CA
LR
ES
ET
VIA
RE
D B
UT
TO
N D
EP
RE
SS
ION
.
Engineering DataPage 15Effective: January 2005
T.D. 01301004E
9
Section 3: Trip Unit Time-Current Curves
The time current curves shown in Figures 3-1through 3-13 are for particular trip unitmodels. All protection function time-currentsettings should be made following therecommendations of the specifying engineerin charge of the installation.
Engineering DataPage 16 Effective: January 2005
T.D. 01301004E
10
Figure 3-1 Digitrip 220 - Long Delay and Instantaneous
Engineering DataPage 17Effective: January 2005
T.D. 01301004E
11
Figure 3-2 Digitrip 220+ - Long Delay
Engineering DataPage 18 Effective: January 2005
T.D. 01301004E
12
Figure 3-3 Digitrip 220+ - Instantaneous
Engineering DataPage 19Effective: January 2005
T.D. 01301004E
13
Figure 3-4 Digitrip 520/520M/520MC - Instantaneous
Engineering DataPage 20 Effective: January 2005
T.D. 01301004E
14
Figure 3-5 Digitrip 520/520M/520MC - Long Delay and Short Delay
Engineering DataPage 21Effective: January 2005
T.D. 01301004E
15
Figure 3-6 Digitrip 520/520M/520MC - Ground (Earth)
Engineering DataPage 22 Effective: January 2005
T.D. 01301004E
16
Figure 3-7 Digitrip 1150 - Instantaneous
Engineering DataPage 23Effective: January 2005
T.D. 01301004E
17
Figure 3-8 Digitrip 1150 - I2T and Short Delay
Engineering DataPage 24 Effective: January 2005
T.D. 01301004E
18
Figure 3-9 Digitrip 1150 - I4T and Short Delay
Engineering DataPage 25Effective: January 2005
T.D. 01301004E
19
Figure 3-10 Digitrip 1150 - Ground (Earth)
Engineering DataPage 26 Effective: January 2005
T.D. 01301004E
20
Figure 3-11 Digitrip 1150 - Moderately Inverse and Short Delay
Engineering DataPage 27Effective: January 2005
T.D. 01301004E
21
Figure 3-12 Digitrip 1150 - Very Inverse and Short Delay
Engineering DataPage 28 Effective: January 2005
T.D. 01301004E
Figure 3-13 Digitrip 1150 - Extremely Inverse and Short Delay
Engineering DataPage 29Effective: January 2005
T.D. 01301004E
Section 4: Drawout Circuit Breaker CassetteOutlines and Dimensions
The Magnum DS/DSL Circuit Breakerconnects to the fixed primary stabs of thedrawout cassette through the primary fingerclusters attached to the rear of the circuitbreaker. Two different frame sizes cover allMagnum DS Circuit Breakers and one framesize covers all Magnum DSL Circuit Breakersfrom an overall dimensional standpoint.Circuit breaker drawings are not providedhere, since the drawout breaker fits into thecassette, and it is the cassette which ismounted to accommodate the circuitbreaker. The cassette drawings shown inFigures 4-1 through 4-39 provide all thedimensional information required for allmounting configurations. Review carefullyfor a specific installation.
Engineering DataPage 30 Effective: January 2005
T.D. 01301004E
Figure 4-1 800-1600A Narrow Frame Cassette (Mounting Locations)
Engineering DataPage 31Effective: January 2005
T.D. 01301004E
Figure 4-2 800-1600A Narrow Frame Cassette (Overall Dimensions)
Engineering DataPage 32 Effective: January 2005
T.D. 01301004E
26
Figure 4-3 800-1600A Narrow Frame Cassette (Accessory Dimensions)
Engineering DataPage 33Effective: January 2005
T.D. 01301004E
27
Figure 4-4 800-1600A Narrow Frame Cassette (3-Pole Stab and Stab Bracing)
Engineering DataPage 34 Effective: January 2005
T.D. 01301004E
28
Figure 4-5 800-1600A Narrow Frame Cassette (Door Cutout and Breaker Positions)
Engineering DataPage 35Effective: January 2005
T.D. 01301004E
29
Figure 4-6 800-1600A Narrow Frame Cassette (Front Mount Terminal Locations)
Engineering DataPage 36 Effective: January 2005
T.D. 01301004E
30
Figure 4-7 800-3200A Standard Frame Universal Cassette (3-Pole Mounting Locations)
Engineering DataPage 37Effective: January 2005
T.D. 01301004E
31
Figure 4-8 800-3200A Standard Frame Universal Cassette (Overall Dimensions)
Engineering DataPage 38 Effective: January 2005
T.D. 01301004E
32
Figure 4-9 800-3200A Standard Frame Universal Cassette (Accessory Dimensions)
Engineering DataPage 39Effective: January 2005
T.D. 01301004E
33
Figure 4-10 800-3200A Standard Frame Universal Cassette (3-Pole Vertical Stab)
Engineering DataPage 40 Effective: January 2005
T.D. 01301004E
34
Figure 4-11 800-3200A Standard Frame Universal Cassette (3-Pole Horizontal Stab)
Engineering DataPage 41Effective: January 2005
T.D. 01301004E
35
Figure 4-12 800-3200A Standard Frame Universal Cassette (Door Cutout and Breaker Positions)
Engineering DataPage 42 Effective: January 2005
T.D. 01301004E
36
Figure 4-13 800-3200A Standard Frame Universal Cassette (4-Pole Mounting Locations and Overall Dimensions)
Engineering DataPage 43Effective: January 2005
T.D. 01301004E
37
Figure 4-14 800-3200A Standard Frame Universal Cassette (4-Pole Accessory Information and Vertical Stabs)
Engineering DataPage 44 Effective: January 2005
T.D. 01301004E
38
Figure 4-15 800-3200A Standard Frame Universal Cassette (4-Pole Horizontal Stabs and Front View)
Engineering DataPage 45Effective: January 2005
T.D. 01301004E
39
Figure 4-16 4000-5000A Double-Wide Frame Universal Cassette (3-Pole Mounting Locations)
Engineering DataPage 46 Effective: January 2005
T.D. 01301004E
40
Figure 4-17 4000-5000A Double-Wide Frame Universal Cassette (Overall Dimensions)
Engineering DataPage 47Effective: January 2005
T.D. 01301004E
41
Figure 4-18 4000-5000A Double-Wide Frame Universal Cassette (Accessory Dimensions)
Engineering DataPage 48 Effective: January 2005
T.D. 01301004E
42
Figure 4-19 4000-5000A Double-Wide Frame Universal Cassette (3-Pole Vertical Stabs)
Engineering DataPage 49Effective: January 2005
T.D. 01301004E
43
Figure 4-20 4000-5000A Double-Wide Frame Universal Cassette (3-Pole Horizontal Stabs)
Engineering DataPage 50 Effective: January 2005
T.D. 01301004E
44
Figure 4-21 4000-5000A Double-Wide Frame Universal Cassette (Door Cutout and Breaker Positions)
Engineering DataPage 51Effective: January 2005
T.D. 01301004E
Figure 4-22 4000-5000A Double-Wide Frame Universal Cassette (4-Pole Mounting Locations and Overall
45
Engineering DataPage 52 Effective: January 2005
T.D. 01301004E
46
Figure 4-23 4000-5000A Double-Wide Frame Universal Cassette (4-Pole Accessory Information and Vertical Stabs)
Engineering DataPage 53Effective: January 2005
T.D. 01301004E
47
Figure 4-24 4000-5000A Double-Wide Frame Universal Cassette (4-Pole Horizontal Stabs and Front View)
Engineering DataPage 54 Effective: January 2005
T.D. 01301004E
48
Figure 4-25 800-3200A Standard Frame Basic Cassette (3-Pole Mounting Locations)
Engineering DataPage 55Effective: January 2005
T.D. 01301004E
49
Figure 4-26 800-3200A Standard Frame Basic Cassette (Overall Dimensions)
Engineering DataPage 56 Effective: January 2005
T.D. 01301004E
50
Figure 4-27 800-3200A Standard Frame Basic Cassette (Accessory Dimensions)
Engineering DataPage 57Effective: January 2005
T.D. 01301004E
51
Figure 4-28 800-3200A Standard Frame Basic Cassette (3-Pole Stab and Stab Bracing)
Engineering DataPage 58 Effective: January 2005
T.D. 01301004E
52
Figure 4-29 800-3200A Standard Frame Basic Cassette (Door Cutout and Breaker Positions)
Engineering DataPage 59Effective: January 2005
T.D. 01301004E
53
Figure 4-30 4000-5000A Double-Wide Frame Basic Cassette (3-Pole Mounting Locations)
Engineering DataPage 60 Effective: January 2005
T.D. 01301004E
54
Figure 4-31 4000-5000A Double-Wide Frame Basic Cassette (Overall Dimensions)
Engineering DataPage 61Effective: January 2005
T.D. 01301004E
55
Figure 4-32 4000-5000A Double-Wide Frame Basic Cassette (Accessory Dimensions)
Engineering DataPage 62 Effective: January 2005
T.D. 01301004E
56
Figure 4-33 4000-5000A Double-Wide Frame BasicCassette (3-Pole Stabs and Stab Bracing)
Engineering DataPage 63Effective: January 2005
T.D. 01301004E
Figure 4-34 4000-5000A Double-Wide Frame Basic Cassette (Door Cutout and Breaker Positions)
Engineering DataPage 64 Effective: January 2005
T.D. 01301004E
Figure 4-35 MDSL Cassette Overall Dimensions (800-2000 Amp Frame)
Engineering DataPage 65Effective: January 2005
T.D. 01301004E
Figure 4-36 MDSL Cassette 3-Pole Mounting Locations Dimensions (800-2000 Amp Frame)
Engineering DataPage 66 Effective: January 2005
T.D. 01301004E
Figure 4-37 MDSL Cassette 3-Pole Vertical Stab Dimensions (800-2000 Amp Frame)
Engineering DataPage 67Effective: January 2005
T.D. 01301004E
Figure 4-38 MDSL Cassette Door Cutout/Breaker Positions Dimensions (800-2000 Amp Frame)
Engineering DataPage 68 Effective: January 2005
T.D. 01301004E
Figure 4-39 MDSL Cassette Accessory Dimensions (800-2000 Amp Frame)
Engineering DataPage 69 Effective: January 2005
T.D. 01301004E
Section 5: Fixed Circuit BreakerOutlines and Dimensions
The standard Magnum DS Circuit Breaker issupplied with horizontally mounted primaryconnections. Optional vertical primaryadaptors are available for different busconfigurations. Refer to Figures 5-1 through5-20 for fixed circuit breaker dimensions,vertical adaptor dimensions and verticaladaptor assembly details. A fixed version ofthe Magnum DSL Circuit Breaker is notavailable
Engineering DataPage 70Effective: January 2005
T.D. 01301004E
59
Figure 5-1 800-2000A Narrow Frame Fixed Breaker (Overall Dimensions and Mounting Locations)
Engineering DataPage 71 Effective: January 2005
T.D. 01301004E
60
Figure 5-2 800-2000A Narrow Frame Fixed Breaker (Door Cutout and Vertical Terminals)
Engineering DataPage 72Effective: January 2005
T.D. 01301004E
61
Figure 5-3 800-2000A Narrow Frame Fixed Breaker (Enclosure and Horizontal Terminals)
Engineering DataPage 73 Effective: January 2005
T.D. 01301004E
62
Figure 5-4 800-2000A Narrow Frame Fixed Breaker (Optional Arc Hood)
Engineering DataPage 74Effective: January 2005
T.D. 01301004E
63
Figure 5-5 800-2000A Narrow Frame Fixed Breaker (Optional Front Mount Terminals)
Engineering DataPage 75 Effective: January 2005
T.D. 01301004E
64
Figure 5-6 800-1600A Standard Frame Fixed Breaker (Overall Dimensions and Mounting Locations)
Engineering DataPage 76Effective: January 2005
T.D. 01301004E
65
Figure 5-7 800-1600A Standard Frame Fixed Breaker (Door Cutout and Vertical Terminals)
Engineering DataPage 77 Effective: January 2005
T.D. 01301004E
66
Figure 5-8 800-1600A Standard Frame Fixed Breaker (Enclosure and Horizontal Terminals)
Engineering DataPage 78Effective: January 2005
T.D. 01301004E
67
Figure 5-9 800-1600A Standard Frame Fixed Breaker (Optional Front Mount Terminals)
Engineering DataPage 79 Effective: January 2005
T.D. 01301004E
68
Figure 5-10 2000A Standard Frame Fixed Breaker (Overall Dimensions and Mounting Locations)
Engineering DataPage 80Effective: January 2005
T.D. 01301004E
69
Figure 5-11 2000A Standard Frame Fixed Breaker (Door Cutout and Vertical Terminals)
Engineering DataPage 81 Effective: January 2005
T.D. 01301004E
70
Figure 5-12 2000A Standard Frame Fixed Breaker (Enclosure and Horizontal Terminals)
Engineering DataPage 82Effective: January 2005
T.D. 01301004E
71
Figure 5-13 2000A Standard Frame Fixed Breaker (Optional Front Mount Terminals)
Engineering DataPage 83 Effective: January 2005
T.D. 01301004E
72
Figure 5-14 2500-3200A Standard Frame Fixed Breaker (Overall Dimensions and Mounting Locations)
Engineering DataPage 84Effective: January 2005
T.D. 01301004E
73
Figure 5-15 2500-3200A Standard Frame Fixed Breaker (Door Cutout and Vertical Terminals)
Engineering DataPage 85 Effective: January 2005
T.D. 01301004E
74
Figure 5-16 2500-3200A Standard Frame Fixed Breaker (Enclosure and Horizontal Terminals)
Engineering DataPage 86Effective: January 2005
T.D. 01301004E
75
Figure 5-17 2500-3200A Standard Frame Fixed Breaker (Optional Front Mount Terminals)
Engineering DataPage 87 Effective: January 2005
T.D. 01301004E
76
Figure 5-18 4000-5000A Double-Wide Frame Fixed Breaker (Overall Dimensions and Mounting Locations)
Engineering DataPage 88Effective: January 2005
T.D. 01301004E
77
Figure 5-19 4000-5000A Double-Wide Frame Fixed Breaker (Door Cutout and Vertical Terminals)
Engineering DataPage 89 Effective: January 2005
T.D. 01301004E
78
Figure 5-20 4000-5000A Double-Wide Frame Fixed Breaker (Enclosure and Horizontal Terminals)
Engineering DataPage 90Effective: January 2005
T.D. 01301004E
79
Section 6: MDSL Current Limiter Curves
Magnum DSL Drawout Circuit Breakersutilize integrally mounted current limiterswith 800 through 2000 ampere framebreakers . Characteristic curves applicableto the available current limiters arepresented in this section (Figures 6-1 and6-2). Also refer to the table below fornominal ampere squared second values.
Nominal Ampere Squared Second Valuesfor
Type Magnum MDSL Limiters
Clearing
166230383
12703220466070009700
3870061700
Melting
375496
314932
1330220033007900
13500
LimiterSelection
MA250MA300MA400MA600MA800
MB1200MB1600MB2000MD2500MD3000
I2t x 10
3
Engineering DataPage 91 Effective: January 2005
T.D. 01301004E
80
Figure 6-1 Average Melting Time-Current Characteristic Curves
Engineering DataPage 92Effective: January 2005
T.D. 01301004E
81
Figure 6-2 Peak Let Through Current Characteristic Curves
Engineering DataMagnum DS and DSL Low Voltage PowerCircuit Breaker Engineering Data
© 2005 EatonAll Rights ReservedPrinted in USAPublication No. TD01301004E (ISI) January 2005
Eaton1000 Cherrington Parkway Moon Township, PA 15108-4312 USAtel: 1-800-525-2000www.Eaton.com
Effective: January 2005