Wiegmann WAX-MSSN4 Series User Manual
Page 56
F56
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Data Subject To Change Without Notice
TDOM1A
3 0 A
N o f u s e
—
6 . 8 8
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1A
3 0 A
3 0 A - 2 5 0 V
H , R
6 . 8 8
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
3 0 A
3 0 A - 6 0 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
3 0 A
6 0 A - 2 5 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
3 0 A
6 0 A - 6 0 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1A
6 0 A
N o f u s e
—
6 . 8 8
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
6 0 A
6 0 A - 2 5 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
6 0 A
6 0 A - 6 0 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
6 0 A
1 0 0 A - 2 5 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
6 0 A
1 0 0 A - 6 0 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1A
1 0 0 A
N o f u s e
—
6 . 8 8
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
1 0 0 A
1 0 0 A - 2 5 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
1 0 0 A
1 0 0 A - 6 0 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
1 0 0 A
2 0 0 A - 2 5 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
1 2 . 3 8
1 8 . 3 8
2 1 . 3 8
TDOM1B
1 0 0 A
2 0 0 A - 6 0 0 V
H , R
1 1 . 5 0
5 . 3 8
0 . 5 6
8 . 3 8
1 4 . 3 8
9 . 6 9
1 8 . 3 8
2 1 . 3 8
TDOM2
2 0 0 A
N o f u s e
—
7 . 0 0
9 . 2 5
0 . 5 6
5 . 6 9
1 1 . 6 9
9 . 6 9
1 5 . 6 9
1 8 . 6 9
TDOM2
2 0 0 A
2 0 0 A - 2 5 0 V
H , R
1 5 . 3 8
9 . 2 5
0 . 5 6
5 . 6 9
1 1 . 6 9
9 . 6 9
1 5 . 6 9
1 8 . 6 9
TDOM2
2 0 0 A
2 0 0 A - 6 0 0 V
H , R
1 5 . 3 8
9 . 2 5
0 . 5 6
5 . 6 9
1 1 . 6 9
9 . 6 9
1 5 . 6 9
1 8 . 6 9
SWITCH
AMP
FUSE
FUSE
SPACE OCCUPIED
WHEN
WHEN
WHEN
WHEN
WHEN
MECHANISM RATING
CLIP
CLASS
F
G
K
H=60.12
H=72.12
H=72.12
H=84.12
H=90.12
WB
WB
WB
WB
WB
G E N E R A L E L E C T R I C T Y P E S T D A D I S C O N N E C T S W I T C H O P E R AT O R S
†
WIRE BEND SPACE “WB” ABOVE DISCONNECT
TWO DOOR FLOOR-MOUNT
FREESTANDING & MODULAR
(PAGES F28-F29 & F45-F46)
(PAGES F32-F49)
SDOM1A
1 5 0 A
T E B , T E D , T H E D
6 . 8 8
5 . 3 8
0 . 5 6
7 . 2 4
1 3 . 2 4
1 1 . 2 4
1 7 . 2 4
2 0 . 2 4
SDOM1A
1 5 0 A
T E C
6 . 8 8
5 . 3 8
0 . 5 6
7 . 2 4
1 3 . 2 4
1 1 . 2 4
1 7 . 2 4
2 0 . 2 4
TDOM1B
1 5 0 A
T B I
1 1 . 5 0
5 . 3 8
0 . 5 6
7 . 2 4
1 3 . 2 4
1 1 . 2 4
1 7 . 2 4
2 0 . 2 4
TDOM1B
1 5 0 A
T E C , T E C L
1 1 . 5 0
5 . 3 8
0 . 5 6
7 . 2 4
1 3 . 2 4
1 1 . 2 4
1 7 . 2 4
2 0 . 2 4
TDOM1C
1 5 0 A
T E L
6 . 8 8
5 . 3 8
0 . 5 6
7 . 2 4
1 3 . 2 4
1 1 . 2 4
1 7 . 2 4
2 0 . 2 4
TDOM1D
1 5 0 A
T H L C I
6 . 8 8
5 . 3 8
0 . 5 6
5 . 8 7
1 1 . 8 7
9 . 8 7
1 5 . 8 7
1 8 . 8 7
TDOM3
2 2 5 A
T F J
1 0 . 3 8
5 . 8 8
0 . 5 6
6 . 8 1
1 2 . 8 1
1 0 . 8 1
1 6 . 3 1
1 9 . 8 1
TDOM3
2 2 5 A
T F K , T H F K , T F L
1 0 . 3 8
5 . 8 8
0 . 5 6
6 . 8 1
1 2 . 8 1
1 0 . 8 1
1 6 . 3 1
1 9 . 8 1
TDOM4
4 0 0 A
T J J , T J K 4 , T H J K 4 , T J L 4 V
8 . 2 5
9 . 5 0
0 . 5 6
—
1 1 . 9 1
9 . 9 1
1 5 . 9 1
1 8 . 9 1
TDOM4
6 0 0 A
T J K 6 , T H J K 6 , T J 4 V, T J L 4 V
8 . 2 5
9 . 5 0
0 . 5 6
—
1 1 . 9 1
9 . 9 1
1 5 . 9 1
1 8 . 9 1
TDOM5
4 0 0 A
T B 4 , T J H 6 S
1 4 . 2 5
9 . 5 0
0 . 5 6
—
1 1 . 9 1
9 . 9 1
1 5 . 9 1
1 8 . 9 1
TDOM6
2 2 5 A
T L B 2 , T H L C 2
1 1 . 7 5
9 . 5 0
0 . 5 6
—
1 1 . 3 5
—
1 5 . 3 5
1 8 . 3 5
TDOM6
4 0 0 A
T L B 4 , T H L C 4
1 1 . 7 5
9 . 5 0
0 . 5 6
—
9 . 9 7
—
1 3 . 9 7
1 6 . 9 7
TDOM6
8 0 0 A - 1 2 0 0 A
T K M A , T H K M A , T K 4 V
1 1 . 7 5
9 . 5 0
0 . 5 6
—
—
—
—
1 8 . 3 8
TDOM6
1 2 0 0 A
T K 4 V, T H K 4 V
1 1 . 7 5
9 . 5 0
0 . 5 6
—
—
—
—
1 8 . 3 8
TDOM7
6 0 0 A
T B 6
1 8 . 1 2
9 . 5 0
0 . 5 6
—
—
—
1 2 . 2 5
1 5 . 2 5
TDOM7
8 0 0 A
T B 8
1 8 . 1 2
9 . 5 0
0 . 5 6
—
—
—
1 2 . 2 5
1 5 . 2 5
TDOM7
1 2 0 0 A
T K L I 2 S
1 8 . 1 2
9 . 5 0
0 . 5 6
—
—
—
—
1 5 . 2 5
SDOM1A
1 5 0 A
S P E C T R A S E 1 5 0
6 . 8 8
5 . 3 8
0 . 5 6
7 . 2 4
1 2 . 7 4
1 1 . 2 4
1 6 . 7 4
1 9 . 7 4
SDOM3
2 5 0 A
S P E C T R A S F 2 5 0
1 0 . 3 8
5 . 8 8
0 . 5 6
6 . 8 1
1 1 . 3 8
1 0 . 8 1
1 6 . 3 1
1 9 . 3 1
SDOM4
6 0 0 A
S P E C T R A S G 6 0 0
1 0 . 0 0
7 . 1 2
0 . 5 6
—
8 . 6 8
—
1 2 . 6 8
1 5 . 6 8
CIRCUIT
AMP
FRAME TYPE
SPACE OCCUPIED
WHEN
WHEN
WHEN
WHEN
WHEN
BREAKER
RATING
F
G
K
H=60.12
H=72.12
H=72.12
H=84.12
H=90.12
MECHANISM
WB
WB
WB
WB
WB
G E N E R A L E L E C T R I C T Y P E S T D A C I R C U I T B R E A K E R S O P E R AT O R S
†
WIRE BEND SPACE “WB” ABOVE DISCONNECT
TWO DOOR FLOOR-MOUNT
FREESTANDING & MODULAR
(PAGES F28-F29 & F45-F46)
(PAGES F32-F49)
†For Two Door Floor-Mount NEMA 12
“E” =
7.88 when “H” = 60.12
(Pages F28-F29 & F45-F46)
“E” = 13.38 when “H” = 72.12
For Heavy Duty Freestanding
“E” = 11.88 when “H” = 72.12
and Modular Enclosures
“E” = 17.38 when “H” = 84.12
(Pages F32 - F49)
“E” = 20.38 when “H” = 90.12
F L O O R - M O U N T • F R E E S TA N D I N G • M O D U L A R S E R I E S E N C L O S U R E S
D I S C O N N E C T S PA C E O C C U P I E D & AVA I L A B L E W I R I N G S PA C E I N F O R M AT I O N